TBD Meeting (3181-19)

CHICAGO – The investigational monoclonal antibody iscalimab reduced levels of thyroid hormone and thyroid-stimulating hormone–receptor antibodies (TSHR-Ab) in some patients with Graves disease in a small study.

Of 15 patients with Graves disease, 7 patients, or 47%, saw their thyroid hormone levels normalize, and levels of TSHR-Ab normalized in 4 patients, or 27% of the cohort. In addition, mean levels of a chemokine associated with Graves disease activity dropped.

“These results suggest that iscalimab may be an effective and attractive immunomodulation strategy for Graves disease,” said George Kahaly, MD, PhD, in his presentation of the phase 2 results at the annual meeting of the American Thyroid Association (J Clin Endocrinol Metab. 2019 Sep 12. doi: 10.1210/clinem/dgz013).

Overall, patients who responded had lower levels of free triiodothyronine (FT3), free thyroxine (FT4), and TSHR-Ab and lower thyroid volume at baseline.

Iscalimab is a fully human monoclonal antibody that is active against the costimulatory protein CD40 that is present on the surface of antigen-presenting cells. Dr. Kahaly, professor of endocrinology at Johannes Gutenberg University Medical Center, Mainz, Germany, explained that in primate studies, iscalimab inhibits the T cell–dependent antibody response to an antigen, without depletion of B cells. However, iscalimab would be expected to block B-cell activation and differentiation, “leading to reduced de novo TSHR antibody production,” said Dr. Kahaly. Inhibition of T cell–dependent antibody response was seen when iscalimab was given at a dose of 3 mg/kg in healthy human study participants.

The study results presented by Dr. Kahaly were drawn from a single-arm, proof-of-concept study that enrolled 15 patients with Graves disease to 12 weeks of treatment with iscalimab. The participants were followed for an additional 24 weeks after receiving intravenous iscalimab at 10 mg/kg on study days 1, 15, 29, 57, and 85.

All participants were receiving beta blockers at enrollment; four patients had new-onset Graves disease, and the rest were experiencing a treatment relapse.

The participants were a median 49 years old, and all but two were female. One patient was Asian, and the remainder were white. They were mostly normal weight, with a mean body mass index of about 23 kg/m².

A group of seven patients who were clear responders to iscalimab saw normalization of FT4 levels; of the eight patients considered to be nonresponders, six required rescue medication with antithyroid drugs.

For responders, the initial mean FT4 level was 33.5 pmol/L, whereas for nonresponders, it was 51.3 pmol/L (P less than .05). Similarly, mean FT3 levels were 13.6 pmol/L in responders, compared with 22 pmol/L in nonresponders (P less than .05).

Mean thyroid volume was 14.5 ml in responders, compared with 26 ml in nonresponders (P less than .005).

A subgroup of four patients within the responder group became TSHR-Ab negative, with sustained low antibody levels seen during the follow-up period. All but one of the eight nonresponders had initial TSHR-Ab levels of more than 20 U/L, whereas the seven responders began with TSHR-Ab levels of about 10 U/L or less. Mean TSHR-Ab levels at baseline were 5.6 IU/L for responders, compared with 27.3 IU/L for nonresponders (P less than .001).

Most responders also had lower initial levels of antithyroid peroxidase IgG antibodies, compared with the nonresponder group.

Levels of chemokine (motif C-X-C) ligand 13 (CXCL13) fell throughout the study period. Higher CXCL13 levels are associated with lymphocytic infiltrates seen in autoimmune thyroiditis.

Occupancy of CD40 was initially measured at week 4 of the study and it remained high until week 16, when free CD40 receptors rose rapidly for several participants in both the responder and nonresponder groups. “The iscalimab intervention resulted in complete CD40 engagement for up to 20 weeks,” wrote Dr. Kahaly and colleagues in the abstract accompanying the presentation.

In assessing CD40 target engagement, the investigators found that total soluble CD40 levels climbed during the treatment period, reaching peaks as high as 400-500 ng/mL, and then plummeted back to zero by study’s end for all participants.

A pharmacokinetic analysis revealed expected peaks of serum iscalimab after treatments, with levels dropping sharply at the end of the study period and falling to levels approaching zero by week 24 for most participants.

In terms of safety, 12 patients experienced at least one adverse event, with 3 participants reporting an episode of cystitis during the study. Fatigue, headache, insomnia, nausea, and viral upper respiratory infection were each reported by 2 patients. No injection site reactions were seen. All adverse events were mild or moderate, did not result in study withdrawal, and resolved by the end of the study period, Dr. Kahaly noted.

“These encouraging results suggest that iscalimab should be tested further to understand better its potential therapeutic benefit,” the investigators wrote.

The study was funded by Novartis, which is developing iscalimab for Graves disease, other autoimmune disorders, and as an antirejection drug for patients with kidney transplants.

koakes@mdedge.com

CHICAGO – The investigational monoclonal antibody iscalimab reduced levels of thyroid hormone and thyroid-stimulating hormone–receptor antibodies (TSHR-Ab) in some patients with Graves disease in a small study.

Of 15 patients with Graves disease, 7 patients, or 47%, saw their thyroid hormone levels normalize, and levels of TSHR-Ab normalized in 4 patients, or 27% of the cohort. In addition, mean levels of a chemokine associated with Graves disease activity dropped.

“These results suggest that iscalimab may be an effective and attractive immunomodulation strategy for Graves disease,” said George Kahaly, MD, PhD, in his presentation of the phase 2 results at the annual meeting of the American Thyroid Association (J Clin Endocrinol Metab. 2019 Sep 12. doi: 10.1210/clinem/dgz013).

Overall, patients who responded had lower levels of free triiodothyronine (FT3), free thyroxine (FT4), and TSHR-Ab and lower thyroid volume at baseline.

Iscalimab is a fully human monoclonal antibody that is active against the costimulatory protein CD40 that is present on the surface of antigen-presenting cells. Dr. Kahaly, professor of endocrinology at Johannes Gutenberg University Medical Center, Mainz, Germany, explained that in primate studies, iscalimab inhibits the T cell–dependent antibody response to an antigen, without depletion of B cells. However, iscalimab would be expected to block B-cell activation and differentiation, “leading to reduced de novo TSHR antibody production,” said Dr. Kahaly. Inhibition of T cell–dependent antibody response was seen when iscalimab was given at a dose of 3 mg/kg in healthy human study participants.

The study results presented by Dr. Kahaly were drawn from a single-arm, proof-of-concept study that enrolled 15 patients with Graves disease to 12 weeks of treatment with iscalimab. The participants were followed for an additional 24 weeks after receiving intravenous iscalimab at 10 mg/kg on study days 1, 15, 29, 57, and 85.

All participants were receiving beta blockers at enrollment; four patients had new-onset Graves disease, and the rest were experiencing a treatment relapse.

The participants were a median 49 years old, and all but two were female. One patient was Asian, and the remainder were white. They were mostly normal weight, with a mean body mass index of about 23 kg/m².

A group of seven patients who were clear responders to iscalimab saw normalization of FT4 levels; of the eight patients considered to be nonresponders, six required rescue medication with antithyroid drugs.

For responders, the initial mean FT4 level was 33.5 pmol/L, whereas for nonresponders, it was 51.3 pmol/L (P less than .05). Similarly, mean FT3 levels were 13.6 pmol/L in responders, compared with 22 pmol/L in nonresponders (P less than .05).

Mean thyroid volume was 14.5 ml in responders, compared with 26 ml in nonresponders (P less than .005).

A subgroup of four patients within the responder group became TSHR-Ab negative, with sustained low antibody levels seen during the follow-up period. All but one of the eight nonresponders had initial TSHR-Ab levels of more than 20 U/L, whereas the seven responders began with TSHR-Ab levels of about 10 U/L or less. Mean TSHR-Ab levels at baseline were 5.6 IU/L for responders, compared with 27.3 IU/L for nonresponders (P less than .001).

Most responders also had lower initial levels of antithyroid peroxidase IgG antibodies, compared with the nonresponder group.

Levels of chemokine (motif C-X-C) ligand 13 (CXCL13) fell throughout the study period. Higher CXCL13 levels are associated with lymphocytic infiltrates seen in autoimmune thyroiditis.

Occupancy of CD40 was initially measured at week 4 of the study and it remained high until week 16, when free CD40 receptors rose rapidly for several participants in both the responder and nonresponder groups. “The iscalimab intervention resulted in complete CD40 engagement for up to 20 weeks,” wrote Dr. Kahaly and colleagues in the abstract accompanying the presentation.

In assessing CD40 target engagement, the investigators found that total soluble CD40 levels climbed during the treatment period, reaching peaks as high as 400-500 ng/mL, and then plummeted back to zero by study’s end for all participants.

A pharmacokinetic analysis revealed expected peaks of serum iscalimab after treatments, with levels dropping sharply at the end of the study period and falling to levels approaching zero by week 24 for most participants.

In terms of safety, 12 patients experienced at least one adverse event, with 3 participants reporting an episode of cystitis during the study. Fatigue, headache, insomnia, nausea, and viral upper respiratory infection were each reported by 2 patients. No injection site reactions were seen. All adverse events were mild or moderate, did not result in study withdrawal, and resolved by the end of the study period, Dr. Kahaly noted.

“These encouraging results suggest that iscalimab should be tested further to understand better its potential therapeutic benefit,” the investigators wrote.

The study was funded by Novartis, which is developing iscalimab for Graves disease, other autoimmune disorders, and as an antirejection drug for patients with kidney transplants.

koakes@mdedge.com

CHICAGO – The investigational monoclonal antibody iscalimab reduced levels of thyroid hormone and thyroid-stimulating hormone–receptor antibodies (TSHR-Ab) in some patients with Graves disease in a small study.

Of 15 patients with Graves disease, 7 patients, or 47%, saw their thyroid hormone levels normalize, and levels of TSHR-Ab normalized in 4 patients, or 27% of the cohort. In addition, mean levels of a chemokine associated with Graves disease activity dropped.

“These results suggest that iscalimab may be an effective and attractive immunomodulation strategy for Graves disease,” said George Kahaly, MD, PhD, in his presentation of the phase 2 results at the annual meeting of the American Thyroid Association (J Clin Endocrinol Metab. 2019 Sep 12. doi: 10.1210/clinem/dgz013).

Overall, patients who responded had lower levels of free triiodothyronine (FT3), free thyroxine (FT4), and TSHR-Ab and lower thyroid volume at baseline.

Iscalimab is a fully human monoclonal antibody that is active against the costimulatory protein CD40 that is present on the surface of antigen-presenting cells. Dr. Kahaly, professor of endocrinology at Johannes Gutenberg University Medical Center, Mainz, Germany, explained that in primate studies, iscalimab inhibits the T cell–dependent antibody response to an antigen, without depletion of B cells. However, iscalimab would be expected to block B-cell activation and differentiation, “leading to reduced de novo TSHR antibody production,” said Dr. Kahaly. Inhibition of T cell–dependent antibody response was seen when iscalimab was given at a dose of 3 mg/kg in healthy human study participants.

The study results presented by Dr. Kahaly were drawn from a single-arm, proof-of-concept study that enrolled 15 patients with Graves disease to 12 weeks of treatment with iscalimab. The participants were followed for an additional 24 weeks after receiving intravenous iscalimab at 10 mg/kg on study days 1, 15, 29, 57, and 85.

All participants were receiving beta blockers at enrollment; four patients had new-onset Graves disease, and the rest were experiencing a treatment relapse.

The participants were a median 49 years old, and all but two were female. One patient was Asian, and the remainder were white. They were mostly normal weight, with a mean body mass index of about 23 kg/m².

A group of seven patients who were clear responders to iscalimab saw normalization of FT4 levels; of the eight patients considered to be nonresponders, six required rescue medication with antithyroid drugs.

For responders, the initial mean FT4 level was 33.5 pmol/L, whereas for nonresponders, it was 51.3 pmol/L (P less than .05). Similarly, mean FT3 levels were 13.6 pmol/L in responders, compared with 22 pmol/L in nonresponders (P less than .05).

Mean thyroid volume was 14.5 ml in responders, compared with 26 ml in nonresponders (P less than .005).

A subgroup of four patients within the responder group became TSHR-Ab negative, with sustained low antibody levels seen during the follow-up period. All but one of the eight nonresponders had initial TSHR-Ab levels of more than 20 U/L, whereas the seven responders began with TSHR-Ab levels of about 10 U/L or less. Mean TSHR-Ab levels at baseline were 5.6 IU/L for responders, compared with 27.3 IU/L for nonresponders (P less than .001).

Most responders also had lower initial levels of antithyroid peroxidase IgG antibodies, compared with the nonresponder group.

Levels of chemokine (motif C-X-C) ligand 13 (CXCL13) fell throughout the study period. Higher CXCL13 levels are associated with lymphocytic infiltrates seen in autoimmune thyroiditis.

Occupancy of CD40 was initially measured at week 4 of the study and it remained high until week 16, when free CD40 receptors rose rapidly for several participants in both the responder and nonresponder groups. “The iscalimab intervention resulted in complete CD40 engagement for up to 20 weeks,” wrote Dr. Kahaly and colleagues in the abstract accompanying the presentation.

In assessing CD40 target engagement, the investigators found that total soluble CD40 levels climbed during the treatment period, reaching peaks as high as 400-500 ng/mL, and then plummeted back to zero by study’s end for all participants.

A pharmacokinetic analysis revealed expected peaks of serum iscalimab after treatments, with levels dropping sharply at the end of the study period and falling to levels approaching zero by week 24 for most participants.

In terms of safety, 12 patients experienced at least one adverse event, with 3 participants reporting an episode of cystitis during the study. Fatigue, headache, insomnia, nausea, and viral upper respiratory infection were each reported by 2 patients. No injection site reactions were seen. All adverse events were mild or moderate, did not result in study withdrawal, and resolved by the end of the study period, Dr. Kahaly noted.

“These encouraging results suggest that iscalimab should be tested further to understand better its potential therapeutic benefit,” the investigators wrote.

The study was funded by Novartis, which is developing iscalimab for Graves disease, other autoimmune disorders, and as an antirejection drug for patients with kidney transplants.

koakes@mdedge.com

CHICAGO – Pediatric thyroid nodule cytopathology classified according to the Bethesda system and tracked over a 16-year period at a single center showed a higher rate of malignancy than that reported in adults.

Especially for nodules that fall into indeterminate categories, “the rate of malignancy in thyroid nodules is higher [in pediatric patients] than that reported in adults,” said Wen Jiang, MD, of the University of California San Diego and Rady Children’s Hospital, also in San Diego.

Current pediatric guidelines recommend that thyroid fine-needle aspiration (FNA) be performed only under ultrasound guidance, noted Dr. Jiang, a pediatric otolaryngologist, at the annual meeting of the American Thyroid Association. In addition, the Bethesda thyroid cytopathology system should be used to report FNA cytology results, and when cytopathology of FNA for a thyroid nodule is indeterminate, thyroid lobectomy is preferred over repeat FNA for most children with thyroid nodules.

To assess how well pediatric patients fared using the Bethesda system for thyroid cytopathology, Dr. Jiang and colleagues performed a retrospective review of children with thyroid nodules who received FNA at Rady Children’s Hospital during 2002-2018. The investigators used the Bethesda system to classify FNA results.

In addition to collecting the initial cytologic findings and demographic data, Dr. Jiang and colleagues also tracked repeat cytology and histopathology, as well as any radiographic and clinical follow-up data that were available.

A total of 203 cytologic samples were available from 171 patients. In all, 50 patients (29.2%) had malignancy. The mean age was about 15 years (range, 6-18 years), and the ratio of 140 female to 31 male participants was 4.5:1.

All but 21 of the samples were performed under ultrasound guidance. The nondiagnostic rate for ultrasound-guided samples was 11.5%, and for those obtained without use of ultrasound – which occurred in older cases – the nondiagnostic rate was 38.5%. “Ultrasound guidance improves the diagnostic rate,” said Dr. Jiang, adding that incorporation of on-site adequacy testing also “significantly decreased the nondiagnostic rate over the study period.”

The Bethesda system has the following six diagnostic categories, with each accompanied by follow-up recommendations in the adult population.

• Category I is nondiagnostic, and a repeat ultrasound-guided FNA is recommended for adults in this category.
• Category II is benign. Patients with these nodules should receive clinical follow-up and repeat ultrasound examination.
• Category III nodules may show atypia of undetermined significance or be judged a follicular lesion of undetermined significance. Here, adult management options include repeat FNA, molecular testing, or thyroid lobectomy.
• Category IV nodules may be assessed as follicular neoplasm or as suspicious for follicular neoplasm. Molecular testing or lobectomy are the adult management options.
• Category V describes nodules suspicious for malignancy. Either lobectomy or total thyroidectomy are options for adult management.
• Category VI is reserved for clearly malignant nodules. Again, lobectomy or total thyroidectomy are the adult management options.

In terms of the real-world outcomes in this cohort of pediatric patients with nodules, 14.8% of the 29 nodules with Bethesda category I – nondiagnostic – status were later found to be malignant, a higher rate than the 5%-10% expected in adults. Of 106 Bethesda category II – benign – nodules, 4% were malignant. In adults, 0%-3% of category II nodules turn out to be malignant.

Cytopathology from FNA of 22 nodules fell into the Bethesda category III, and 25% were malignant, which was within the expected range of 10%-30% for adults. “Bethesda class II accurately identified benign nodules with low risk of subsequent malignancy,” said Dr. Jiang.

Fourteen nodules were Bethesda category IV, and of those, 42.9% were malignant, again slightly higher than the 25%-40% expected in adults.

Just six nodules had FNA results falling into Bethesda category V, of which 83.3% were malignant, a higher rate than the 50%-75% expected for adult category V cytopathology results. All category V nodules were papillary thyroid carcinoma.

All 26 Bethesda category VI nodules were malignant; in adult category VI nodules, 97%-99% are expected to be malignant. All but four of the cases were found to be papillary thyroid carcinoma.

Dr. Jiang explained that at Rady Children’s Hospital, all FNA cytology slides received a second-opinion assessment by pathologists at the University of California San Diego. Of all the samples assessed in the study, there was disagreement about one slide, with a difference of one Bethesda category. “Malignant class cytology is quite reliable,” she said, adding the caveat that “second-opinion confirmation adds additional confidence to the cytologic diagnosis.”

She emphasized again that the initiation of on-site testing for sample adequacy significantly decreased the nondiagnostic rate seen over the course of the study.

Dr. Jiang reported no relevant conflicts of interest and no outside sources of funding.

koakes@mdedge.com

SOURCE: Jiang W et al. ATA 2019, Oral Abstract 34.

CHICAGO – Pediatric thyroid nodule cytopathology classified according to the Bethesda system and tracked over a 16-year period at a single center showed a higher rate of malignancy than that reported in adults.

Especially for nodules that fall into indeterminate categories, “the rate of malignancy in thyroid nodules is higher [in pediatric patients] than that reported in adults,” said Wen Jiang, MD, of the University of California San Diego and Rady Children’s Hospital, also in San Diego.

Current pediatric guidelines recommend that thyroid fine-needle aspiration (FNA) be performed only under ultrasound guidance, noted Dr. Jiang, a pediatric otolaryngologist, at the annual meeting of the American Thyroid Association. In addition, the Bethesda thyroid cytopathology system should be used to report FNA cytology results, and when cytopathology of FNA for a thyroid nodule is indeterminate, thyroid lobectomy is preferred over repeat FNA for most children with thyroid nodules.

To assess how well pediatric patients fared using the Bethesda system for thyroid cytopathology, Dr. Jiang and colleagues performed a retrospective review of children with thyroid nodules who received FNA at Rady Children’s Hospital during 2002-2018. The investigators used the Bethesda system to classify FNA results.

In addition to collecting the initial cytologic findings and demographic data, Dr. Jiang and colleagues also tracked repeat cytology and histopathology, as well as any radiographic and clinical follow-up data that were available.

A total of 203 cytologic samples were available from 171 patients. In all, 50 patients (29.2%) had malignancy. The mean age was about 15 years (range, 6-18 years), and the ratio of 140 female to 31 male participants was 4.5:1.

All but 21 of the samples were performed under ultrasound guidance. The nondiagnostic rate for ultrasound-guided samples was 11.5%, and for those obtained without use of ultrasound – which occurred in older cases – the nondiagnostic rate was 38.5%. “Ultrasound guidance improves the diagnostic rate,” said Dr. Jiang, adding that incorporation of on-site adequacy testing also “significantly decreased the nondiagnostic rate over the study period.”

The Bethesda system has the following six diagnostic categories, with each accompanied by follow-up recommendations in the adult population.

• Category I is nondiagnostic, and a repeat ultrasound-guided FNA is recommended for adults in this category.
• Category II is benign. Patients with these nodules should receive clinical follow-up and repeat ultrasound examination.
• Category III nodules may show atypia of undetermined significance or be judged a follicular lesion of undetermined significance. Here, adult management options include repeat FNA, molecular testing, or thyroid lobectomy.
• Category IV nodules may be assessed as follicular neoplasm or as suspicious for follicular neoplasm. Molecular testing or lobectomy are the adult management options.
• Category V describes nodules suspicious for malignancy. Either lobectomy or total thyroidectomy are options for adult management.
• Category VI is reserved for clearly malignant nodules. Again, lobectomy or total thyroidectomy are the adult management options.

In terms of the real-world outcomes in this cohort of pediatric patients with nodules, 14.8% of the 29 nodules with Bethesda category I – nondiagnostic – status were later found to be malignant, a higher rate than the 5%-10% expected in adults. Of 106 Bethesda category II – benign – nodules, 4% were malignant. In adults, 0%-3% of category II nodules turn out to be malignant.

Cytopathology from FNA of 22 nodules fell into the Bethesda category III, and 25% were malignant, which was within the expected range of 10%-30% for adults. “Bethesda class II accurately identified benign nodules with low risk of subsequent malignancy,” said Dr. Jiang.

Fourteen nodules were Bethesda category IV, and of those, 42.9% were malignant, again slightly higher than the 25%-40% expected in adults.

Just six nodules had FNA results falling into Bethesda category V, of which 83.3% were malignant, a higher rate than the 50%-75% expected for adult category V cytopathology results. All category V nodules were papillary thyroid carcinoma.

All 26 Bethesda category VI nodules were malignant; in adult category VI nodules, 97%-99% are expected to be malignant. All but four of the cases were found to be papillary thyroid carcinoma.

Dr. Jiang explained that at Rady Children’s Hospital, all FNA cytology slides received a second-opinion assessment by pathologists at the University of California San Diego. Of all the samples assessed in the study, there was disagreement about one slide, with a difference of one Bethesda category. “Malignant class cytology is quite reliable,” she said, adding the caveat that “second-opinion confirmation adds additional confidence to the cytologic diagnosis.”

She emphasized again that the initiation of on-site testing for sample adequacy significantly decreased the nondiagnostic rate seen over the course of the study.

Dr. Jiang reported no relevant conflicts of interest and no outside sources of funding.

koakes@mdedge.com

SOURCE: Jiang W et al. ATA 2019, Oral Abstract 34.

CHICAGO – Pediatric thyroid nodule cytopathology classified according to the Bethesda system and tracked over a 16-year period at a single center showed a higher rate of malignancy than that reported in adults.

Especially for nodules that fall into indeterminate categories, “the rate of malignancy in thyroid nodules is higher [in pediatric patients] than that reported in adults,” said Wen Jiang, MD, of the University of California San Diego and Rady Children’s Hospital, also in San Diego.

Current pediatric guidelines recommend that thyroid fine-needle aspiration (FNA) be performed only under ultrasound guidance, noted Dr. Jiang, a pediatric otolaryngologist, at the annual meeting of the American Thyroid Association. In addition, the Bethesda thyroid cytopathology system should be used to report FNA cytology results, and when cytopathology of FNA for a thyroid nodule is indeterminate, thyroid lobectomy is preferred over repeat FNA for most children with thyroid nodules.

To assess how well pediatric patients fared using the Bethesda system for thyroid cytopathology, Dr. Jiang and colleagues performed a retrospective review of children with thyroid nodules who received FNA at Rady Children’s Hospital during 2002-2018. The investigators used the Bethesda system to classify FNA results.

In addition to collecting the initial cytologic findings and demographic data, Dr. Jiang and colleagues also tracked repeat cytology and histopathology, as well as any radiographic and clinical follow-up data that were available.

A total of 203 cytologic samples were available from 171 patients. In all, 50 patients (29.2%) had malignancy. The mean age was about 15 years (range, 6-18 years), and the ratio of 140 female to 31 male participants was 4.5:1.

All but 21 of the samples were performed under ultrasound guidance. The nondiagnostic rate for ultrasound-guided samples was 11.5%, and for those obtained without use of ultrasound – which occurred in older cases – the nondiagnostic rate was 38.5%. “Ultrasound guidance improves the diagnostic rate,” said Dr. Jiang, adding that incorporation of on-site adequacy testing also “significantly decreased the nondiagnostic rate over the study period.”

The Bethesda system has the following six diagnostic categories, with each accompanied by follow-up recommendations in the adult population.

• Category I is nondiagnostic, and a repeat ultrasound-guided FNA is recommended for adults in this category.
• Category II is benign. Patients with these nodules should receive clinical follow-up and repeat ultrasound examination.
• Category III nodules may show atypia of undetermined significance or be judged a follicular lesion of undetermined significance. Here, adult management options include repeat FNA, molecular testing, or thyroid lobectomy.
• Category IV nodules may be assessed as follicular neoplasm or as suspicious for follicular neoplasm. Molecular testing or lobectomy are the adult management options.
• Category V describes nodules suspicious for malignancy. Either lobectomy or total thyroidectomy are options for adult management.
• Category VI is reserved for clearly malignant nodules. Again, lobectomy or total thyroidectomy are the adult management options.

In terms of the real-world outcomes in this cohort of pediatric patients with nodules, 14.8% of the 29 nodules with Bethesda category I – nondiagnostic – status were later found to be malignant, a higher rate than the 5%-10% expected in adults. Of 106 Bethesda category II – benign – nodules, 4% were malignant. In adults, 0%-3% of category II nodules turn out to be malignant.

Cytopathology from FNA of 22 nodules fell into the Bethesda category III, and 25% were malignant, which was within the expected range of 10%-30% for adults. “Bethesda class II accurately identified benign nodules with low risk of subsequent malignancy,” said Dr. Jiang.

Fourteen nodules were Bethesda category IV, and of those, 42.9% were malignant, again slightly higher than the 25%-40% expected in adults.

Just six nodules had FNA results falling into Bethesda category V, of which 83.3% were malignant, a higher rate than the 50%-75% expected for adult category V cytopathology results. All category V nodules were papillary thyroid carcinoma.

All 26 Bethesda category VI nodules were malignant; in adult category VI nodules, 97%-99% are expected to be malignant. All but four of the cases were found to be papillary thyroid carcinoma.

Dr. Jiang explained that at Rady Children’s Hospital, all FNA cytology slides received a second-opinion assessment by pathologists at the University of California San Diego. Of all the samples assessed in the study, there was disagreement about one slide, with a difference of one Bethesda category. “Malignant class cytology is quite reliable,” she said, adding the caveat that “second-opinion confirmation adds additional confidence to the cytologic diagnosis.”

She emphasized again that the initiation of on-site testing for sample adequacy significantly decreased the nondiagnostic rate seen over the course of the study.

Dr. Jiang reported no relevant conflicts of interest and no outside sources of funding.

koakes@mdedge.com

SOURCE: Jiang W et al. ATA 2019, Oral Abstract 34.

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Odense (Denmark), said that the European Medicines Association has noted postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving one of these drugs, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Grave’s disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.

Help your patients understand the symptoms, treatments and complications of pancreatitis by sharing AGA patient education at https://www.gastro.org/practice-guidance/gi-patient-center/topic/pancreatitis.  

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Odense (Denmark), said that the European Medicines Association has noted postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving one of these drugs, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Grave’s disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.

Help your patients understand the symptoms, treatments and complications of pancreatitis by sharing AGA patient education at https://www.gastro.org/practice-guidance/gi-patient-center/topic/pancreatitis.  

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Odense (Denmark), said that the European Medicines Association has noted postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving one of these drugs, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Grave’s disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.

Help your patients understand the symptoms, treatments and complications of pancreatitis by sharing AGA patient education at https://www.gastro.org/practice-guidance/gi-patient-center/topic/pancreatitis.  

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Southern Denmark, Odense, said that the European Medicines Agency has noted a few postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving this drug, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Graves disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.
 

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Southern Denmark, Odense, said that the European Medicines Agency has noted a few postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving this drug, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Graves disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.
 

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – A large Danish registry-based study has confirmed an increased risk of acute pancreatitis for patients taking certain antithyroid drugs.

After 6 months of methimazole use, the odds ratio for acute pancreatitis was 2.02, with a nonsignificant risk elevation for propylthiouracil use after a similar duration, Laszlo Hegedüs, MD, reported at the annual meeting of the American Thyroid Association.

“Ongoing methimazole, but not propylthiouracil, use is associated with an increased risk of acute pancreatitis,” he said.

Dr. Hegedüs, professor of endocrinology and metabolism at the University of Southern Denmark, Odense, said that the European Medicines Agency has noted a few postmarketing reports of acute pancreatitis in patients who received the antithyroid drug methimazole, as well as its prodrug, carbimazole. The agency has accordingly contraindicated antithyroid drug use for patients who previously experienced acute pancreatitis after receiving this drug, advising that methimazole should be “discontinued immediately” should a patient develop acute pancreatitis.

However, investigation of the antithyroid drug–pancreatitis association had been limited to aggregating those case reports, so Dr. Hegedüs and colleagues decided to use Danish medical record and registry data to investigate the association in a nationwide, controlled study that looked at both duration of therapy and total antithyroid drug use.

During the period from 1995-2018, a total of 118,649 patients who used antithyroid drugs were found in the 5.5 million individuals in the Statistics Denmark registry. Dr. Hegedüs and his colleagues also pulled in patient registry and national prescription registry data, as well as civil vital statistics data.

Of those who used antithyroid drugs, 103,825 patients used methimazole, and 14,824 used propylthiouracil. The researchers found 43,580 instances of hospitalization for first-time acute pancreatitis in the pooled antithyroid drug data. Of those, however, just 226 (0.5%) occurred in patients using methimazole, and 19 (0.04%) in those using propylthiouracil at the time of pancreatitis onset.

To ascertain the risk of acute pancreatitis in patients using antithyroid drugs for various durations, Dr. Hegedüs and his colleagues used a case-crossover study design. In the case-crossover technique, patients served as their own controls, because each patient was both exposed and not exposed to antithyroid drugs at some point during the study period. Antithyroid drugs are well suited to this study design, explained Dr. Hegedüs, because they are given for a limited time. A case-crossover design can be used with a small sample size and effectively controls for potentially confounding variables.

The odds ratio for acute pancreatitis in methimazole users after 3 months of exposure was 1.51, with a 95% confidence interval of 1.12-2.02. After 3 months of propylthiouracil exposure, the odds ratio for acute pancreatitis was 1.16 (95% CI 0.46-2.3). At 6 months, the odds ratio of 2.02 for methimazole was similarly statistically significant (95% CI, 1.50-2.78), whereas the odds ratio of 1.40 for propylthiouracil use was not significant (95% CI, 0.58-3.34).

The researchers also wanted to find out whether the cumulative drug dose affected the risk of acute pancreatitis, so they drew from the antithyroid drug population to conduct a case-control study. Here, the investigators matched data from four control patients to each case of acute pancreatitis. The researchers also controlled for sex, age, comorbidities, and prior use of drugs associated with pancreatitis.

Overall, 20% of the 692 methimazole users and their controls were men, as were 16% of the 108 propylthiouracil users, in the case-control study.

Just more than half of patients overall had a total dose exposure of 200 to 1,200 defined daily dose (DDD) – a measure developed by the World Health Organization to denote the assumed average adult dose per day of a medication – with about a quarter of patients receiving a total antithyroid drug dose more than 1,200 DDD and about 20% receiving a dose exposure of less than 200 DDD. The risk of acute pancreatitis did not increase with increased total exposure to antithyroid drugs.

“There is no evidence of a cumulative dose effect of either methimazole or propylthiouracil on the risk of acute pancreatitis,” said Dr. Hegedüs. However, “the warning of the European Medicines Agency seems justified,” he added. “The frequency of acute pancreatitis in acute methimazole users is of a similar magnitude [to that] reported for agranulocytosis,” a known, dire complication of antithyroid drug use. Patients should be advised of the potential complication and informed of signs and symptoms of acute pancreatitis, he said.

Dr. Hegedüs noted that the study had the advantage of using validated epidemiologic methods to look at drug exposure and outcomes at a nationwide scale. However, the registries from which the data were drawn also have limitations. The investigators could not determine the severity of hyperthyroidism, he said, and the relatively rare occurrence of acute pancreatitis meant that there was not sufficient statistical power to look at the subgroup of individuals who had Graves disease and to compare them with those with nodular toxic goiter.

He advised conducting a confirmatory study in an independent cohort, as well as further investigating the yet unknown mechanism of action for the link between the antithyroid drug and acute pancreatitis.

Dr. Hegedüs reported that he had no relevant conflicts of interest and reported no outside sources of funding.
 

SOURCE: Hegedüs, L. et al. ATA 2019, Short Call Oral Abstract 6 .

CHICAGO – Overall survival for patients with anaplastic thyroid cancer was boosted when their care facilitated a rapid work-up, comprehensive treatment planning, and integrated implementation of multimodal therapies.

Median survival for participants in a specialized program who have been able to benefit from targeted therapy and immunotherapy now stands at 16 months, with 43% of patients surviving 2 years or more, said Anastasios Maniakas, MD, at the annual meeting of the American Thyroid Association.

Median survival was 8 months during 2000-2013, before the program, dubbed FAST (Facilitating Anaplastic Thyroid Cancer Specialized Treatment), was initiated at the University of Texas MD Anderson Cancer Center, Houston.

These increased survival rates were driven primarily by better targeting of mutation-specific therapy and by immunotherapy, said Dr. Maniakas, a fellow in head and neck surgery at the center. This targeting, in turn, was facilitated by timely staging and genetic work-up, as well as appropriate clinical trial enrollment.

As word has spread about the program, referrals went up by 44%, said Dr. Maniakas. Members of the FAST team include representatives from oncologic endocrinology, head and neck surgery, radiation oncology, pathology, and basic science.

Historically, anaplastic thyroid cancer (ATC) has had a 12-month overall survival rate of less than 30% for patients who have advanced disease, said Dr. Maniakas, citing a recent analysis showing that, in 1,567 ATC cases, the median survival was just 4 months, and the 6-month survival rate was 35%.

The FAST team’s engagement starts with rapid intake whereby patients see a physician within 3-5 days of initial contact with the center, explained Dr. Maniakas. A prescheduled work-up is completed within another 3-7 days. It includes basic lab work, cell-free DNA testing, BRAF immunohistochemistry, and molecular testing. Additional consults and appropriate medical imaging for staging are also included in the initial work-up.

With these data in hand, physicians meet again with patients in a treatment-planning clinic to assess eligibility for participation in a clinical trial. Patients will otherwise receive standard-of-care therapy that may include surgery or BRAF-directed therapy. However, said Dr. Maniakas, the FAST approach has resulted in a boost of more than 30% in clinical trial participation by ATC patients. Adjunctive therapies are also tailored to patients under the care of the FAST team, which may include stereotactic body-radiation therapy, surgery, and immunotherapy.

The team is tracking a cohort of patients who received surgery with or without radiation therapy, preceded by neoadjuvant BRAF/MEK inhibitor therapy – an approach used since 2017. Of 20 patients who were positive for BRAF-V600E, 16 are still alive at a median 1.21 years of follow-up since diagnosis, said Dr. Maniakas. The median survival time for those who did not receive surgery is 0.8 years, whereas the median survival has not been reached for those who also had surgery.

Molecular testing and initial screening of ATC patients is an essential component of the cancer center’s precision medicine approach, said Dr. Maniakas. “Genetic profiling has become a key player in ATC management and survival.”

In looking at outcomes at the cancer center, Dr. Maniakas and his collaborators divided the patients into three groups. The first included 227 patients seen during 2000-2013, before the program was initiated. The 100 participants in the second group initiated treatment sometime during 2014-2016, after the program was launched but before the targeted therapy and immunotherapy trial was fully implemented. Since 2017, 152 participants in the third group have had the opportunity to participate in the clinical trial, as well as receiving surgery with or without radiation therapy after neoadjuvant immunotherapy.

Since 2017, 97% of ATC patients have had genetic profiling done. Most patients are receiving rapid determination of BRAF-V600E status with immunohistochemistry, with results available in a few days, followed by liquid biopsy (available in about 2 weeks), and then next-generation sequencing. Results for the latter, considered the gold standard, can take up to 3 weeks.

Patients participating in the program were aged a mean 65 years at diagnosis, and just over half were men. The number of patients receiving targeted therapy has continued to rise, said Dr. Maniakas. From 2000 to 2013, just 9% of patients received targeted therapy; from 2014 to 2016, that figure rose to 43%; and since 2017, 61% of patients have received targeted therapy (P less than .001).

“Landmark changes in the management of ATC patients as a whole have had a direct impact to the significant increase in overall survival,” said Dr. Maniakas.

He added that the cancer center’s experience could inform future ATC guidelines. Patients with this deadliest of thyroid cancers should all have rapid molecular testing, followed by timely, targeted therapy. Clinical trial eligibility should be considered for all patients. Finally, guideline authors should take note of the ongoing favorable survival rates seen for patients receiving surgery after neoadjuvant therapy.

Dr. Maniakas reported no outside sources of funding and that he had no relevant disclosures.
 

SOURCE: Maniakas A et al. ATA 2019, Short Call Oral Abstract 9.

CHICAGO – Overall survival for patients with anaplastic thyroid cancer was boosted when their care facilitated a rapid work-up, comprehensive treatment planning, and integrated implementation of multimodal therapies.

Median survival for participants in a specialized program who have been able to benefit from targeted therapy and immunotherapy now stands at 16 months, with 43% of patients surviving 2 years or more, said Anastasios Maniakas, MD, at the annual meeting of the American Thyroid Association.

Median survival was 8 months during 2000-2013, before the program, dubbed FAST (Facilitating Anaplastic Thyroid Cancer Specialized Treatment), was initiated at the University of Texas MD Anderson Cancer Center, Houston.

These increased survival rates were driven primarily by better targeting of mutation-specific therapy and by immunotherapy, said Dr. Maniakas, a fellow in head and neck surgery at the center. This targeting, in turn, was facilitated by timely staging and genetic work-up, as well as appropriate clinical trial enrollment.

As word has spread about the program, referrals went up by 44%, said Dr. Maniakas. Members of the FAST team include representatives from oncologic endocrinology, head and neck surgery, radiation oncology, pathology, and basic science.

Historically, anaplastic thyroid cancer (ATC) has had a 12-month overall survival rate of less than 30% for patients who have advanced disease, said Dr. Maniakas, citing a recent analysis showing that, in 1,567 ATC cases, the median survival was just 4 months, and the 6-month survival rate was 35%.

The FAST team’s engagement starts with rapid intake whereby patients see a physician within 3-5 days of initial contact with the center, explained Dr. Maniakas. A prescheduled work-up is completed within another 3-7 days. It includes basic lab work, cell-free DNA testing, BRAF immunohistochemistry, and molecular testing. Additional consults and appropriate medical imaging for staging are also included in the initial work-up.

With these data in hand, physicians meet again with patients in a treatment-planning clinic to assess eligibility for participation in a clinical trial. Patients will otherwise receive standard-of-care therapy that may include surgery or BRAF-directed therapy. However, said Dr. Maniakas, the FAST approach has resulted in a boost of more than 30% in clinical trial participation by ATC patients. Adjunctive therapies are also tailored to patients under the care of the FAST team, which may include stereotactic body-radiation therapy, surgery, and immunotherapy.

The team is tracking a cohort of patients who received surgery with or without radiation therapy, preceded by neoadjuvant BRAF/MEK inhibitor therapy – an approach used since 2017. Of 20 patients who were positive for BRAF-V600E, 16 are still alive at a median 1.21 years of follow-up since diagnosis, said Dr. Maniakas. The median survival time for those who did not receive surgery is 0.8 years, whereas the median survival has not been reached for those who also had surgery.

Molecular testing and initial screening of ATC patients is an essential component of the cancer center’s precision medicine approach, said Dr. Maniakas. “Genetic profiling has become a key player in ATC management and survival.”

In looking at outcomes at the cancer center, Dr. Maniakas and his collaborators divided the patients into three groups. The first included 227 patients seen during 2000-2013, before the program was initiated. The 100 participants in the second group initiated treatment sometime during 2014-2016, after the program was launched but before the targeted therapy and immunotherapy trial was fully implemented. Since 2017, 152 participants in the third group have had the opportunity to participate in the clinical trial, as well as receiving surgery with or without radiation therapy after neoadjuvant immunotherapy.

Since 2017, 97% of ATC patients have had genetic profiling done. Most patients are receiving rapid determination of BRAF-V600E status with immunohistochemistry, with results available in a few days, followed by liquid biopsy (available in about 2 weeks), and then next-generation sequencing. Results for the latter, considered the gold standard, can take up to 3 weeks.

Patients participating in the program were aged a mean 65 years at diagnosis, and just over half were men. The number of patients receiving targeted therapy has continued to rise, said Dr. Maniakas. From 2000 to 2013, just 9% of patients received targeted therapy; from 2014 to 2016, that figure rose to 43%; and since 2017, 61% of patients have received targeted therapy (P less than .001).

“Landmark changes in the management of ATC patients as a whole have had a direct impact to the significant increase in overall survival,” said Dr. Maniakas.

He added that the cancer center’s experience could inform future ATC guidelines. Patients with this deadliest of thyroid cancers should all have rapid molecular testing, followed by timely, targeted therapy. Clinical trial eligibility should be considered for all patients. Finally, guideline authors should take note of the ongoing favorable survival rates seen for patients receiving surgery after neoadjuvant therapy.

Dr. Maniakas reported no outside sources of funding and that he had no relevant disclosures.
 

SOURCE: Maniakas A et al. ATA 2019, Short Call Oral Abstract 9.

CHICAGO – Overall survival for patients with anaplastic thyroid cancer was boosted when their care facilitated a rapid work-up, comprehensive treatment planning, and integrated implementation of multimodal therapies.

Median survival for participants in a specialized program who have been able to benefit from targeted therapy and immunotherapy now stands at 16 months, with 43% of patients surviving 2 years or more, said Anastasios Maniakas, MD, at the annual meeting of the American Thyroid Association.

Median survival was 8 months during 2000-2013, before the program, dubbed FAST (Facilitating Anaplastic Thyroid Cancer Specialized Treatment), was initiated at the University of Texas MD Anderson Cancer Center, Houston.

These increased survival rates were driven primarily by better targeting of mutation-specific therapy and by immunotherapy, said Dr. Maniakas, a fellow in head and neck surgery at the center. This targeting, in turn, was facilitated by timely staging and genetic work-up, as well as appropriate clinical trial enrollment.

As word has spread about the program, referrals went up by 44%, said Dr. Maniakas. Members of the FAST team include representatives from oncologic endocrinology, head and neck surgery, radiation oncology, pathology, and basic science.

Historically, anaplastic thyroid cancer (ATC) has had a 12-month overall survival rate of less than 30% for patients who have advanced disease, said Dr. Maniakas, citing a recent analysis showing that, in 1,567 ATC cases, the median survival was just 4 months, and the 6-month survival rate was 35%.

The FAST team’s engagement starts with rapid intake whereby patients see a physician within 3-5 days of initial contact with the center, explained Dr. Maniakas. A prescheduled work-up is completed within another 3-7 days. It includes basic lab work, cell-free DNA testing, BRAF immunohistochemistry, and molecular testing. Additional consults and appropriate medical imaging for staging are also included in the initial work-up.

With these data in hand, physicians meet again with patients in a treatment-planning clinic to assess eligibility for participation in a clinical trial. Patients will otherwise receive standard-of-care therapy that may include surgery or BRAF-directed therapy. However, said Dr. Maniakas, the FAST approach has resulted in a boost of more than 30% in clinical trial participation by ATC patients. Adjunctive therapies are also tailored to patients under the care of the FAST team, which may include stereotactic body-radiation therapy, surgery, and immunotherapy.

The team is tracking a cohort of patients who received surgery with or without radiation therapy, preceded by neoadjuvant BRAF/MEK inhibitor therapy – an approach used since 2017. Of 20 patients who were positive for BRAF-V600E, 16 are still alive at a median 1.21 years of follow-up since diagnosis, said Dr. Maniakas. The median survival time for those who did not receive surgery is 0.8 years, whereas the median survival has not been reached for those who also had surgery.

Molecular testing and initial screening of ATC patients is an essential component of the cancer center’s precision medicine approach, said Dr. Maniakas. “Genetic profiling has become a key player in ATC management and survival.”

In looking at outcomes at the cancer center, Dr. Maniakas and his collaborators divided the patients into three groups. The first included 227 patients seen during 2000-2013, before the program was initiated. The 100 participants in the second group initiated treatment sometime during 2014-2016, after the program was launched but before the targeted therapy and immunotherapy trial was fully implemented. Since 2017, 152 participants in the third group have had the opportunity to participate in the clinical trial, as well as receiving surgery with or without radiation therapy after neoadjuvant immunotherapy.

Since 2017, 97% of ATC patients have had genetic profiling done. Most patients are receiving rapid determination of BRAF-V600E status with immunohistochemistry, with results available in a few days, followed by liquid biopsy (available in about 2 weeks), and then next-generation sequencing. Results for the latter, considered the gold standard, can take up to 3 weeks.

Patients participating in the program were aged a mean 65 years at diagnosis, and just over half were men. The number of patients receiving targeted therapy has continued to rise, said Dr. Maniakas. From 2000 to 2013, just 9% of patients received targeted therapy; from 2014 to 2016, that figure rose to 43%; and since 2017, 61% of patients have received targeted therapy (P less than .001).

“Landmark changes in the management of ATC patients as a whole have had a direct impact to the significant increase in overall survival,” said Dr. Maniakas.

He added that the cancer center’s experience could inform future ATC guidelines. Patients with this deadliest of thyroid cancers should all have rapid molecular testing, followed by timely, targeted therapy. Clinical trial eligibility should be considered for all patients. Finally, guideline authors should take note of the ongoing favorable survival rates seen for patients receiving surgery after neoadjuvant therapy.

Dr. Maniakas reported no outside sources of funding and that he had no relevant disclosures.
 

SOURCE: Maniakas A et al. ATA 2019, Short Call Oral Abstract 9.

CHICAGO – A new image-analysis algorithm for benign thyroid nodules that uses a technique similar to facial recognition showed good sensitivity and specificity, with the potential to reduce biopsies by more than 50%.

The negative predictive value of the ultrasound analysis algorithm was 93.2%, a figure approximating the false-negative rate of about 5% that is seen in fine-needle aspiration of thyroid nodules, said Johnson Thomas, MD, at the annual meeting of the American Thyroid Association.

“Millions of people have thyroid nodules,” many of which are detected incidentally, said Dr. Thomas, an endocrinologist with the Mercy health care system in Springfield, Mo. Fewer than 10% of thyroid nodules turn out to be malignant, but each year, millions of patients undergo biopsies to determine the status of their thyroid nodules.

Faced with evaluating a thyroid nodule, an endocrinologist can currently turn to a risk-stratification scheme, such as those developed by the American College of Radiology and the American Thyroid Association. However, there’s a big subjective component to risk stratification – significant inter- and intraobserver variation has been observed, said Dr. Thomas, and not all nodules are classifiable. The result is a system that still has low specificity and positive predictive value, he said.

Even after a decision to proceed to biopsy, one in seven thyroid nodule biopsies will not produce a definitive diagnosis, he said.

“We are doing millions of thyroid biopsies based on very subjective criteria to find thyroid cancer in a very small percentage of the population, with an invasive technique that may not be diagnostic one out of seven times,” Dr. Thomas said in summing up the current medical situation as he sees it.

Dr. Thomas, who writes his own computer code, said he was searching for a reliable and explainable noninvasive technique, and one that lacked subjective room for error, to address the thyroid nodule problem.

The question was whether an artificial intelligence (AI) algorithm could match radiologist performance in classifying thyroid nodules according to the characteristics of their ultrasound images.

Other algorithms use AI to predict which nodules are malignant, but they function as “black boxes” – a common criticism of AI. The outside observer cannot ordinarily see how the AI algorithm “knows” what it knows. This characteristic of AI poses at least a theoretical problem when such algorithms are used for diagnosis or medical decision making.

Dr. Thomas’s* approach was to use a set of training data to allow the algorithm he constructed to see 2,025 images from a total of 482 nodules. The thyroid nodules used for training had been subjected to biopsy or excised in surgery, so they all had a definitive status of being benign or malignant.

Then, after the algorithm was refined, a set of 103 nodules with known malignancy status was used to test the algorithm’s sensitivity and specificity.

The algorithm, dubbed AiBx, used a convolutional neural network to build a unique image vector for each nodule. The AiBx algorithm then looked at the training database to find the “nearest neighbors,” or the images it found to be the most similar to those of the nodule being examined.

For example, said Dr. Thomas, a test image of a benign nodule would have an output from the AiBx analysis of three similar images from the database – all benign. Hence, rather than making a black-box call of whether a nodule is benign or malignant, the algorithm merely says: “This nodule resembles a benign nodule in our database.” The interpreting physician can then use the algorithm as a decision aid with confidence.

The overall accuracy of AiBx was 81.5%, sensitivity was 87.8%, and specificity was 78.5%. Positive predictive value was 65.9%.

As more images are added to the database, AiBx can easily be retrained and refined, said Dr. Thomas.

“It’s intuitive and explainable,” he added, noting that the algorithm is also a good teaching tool for residents and fellows.

“This AI model can be deployed as an app, integrated with [medical imaging systems] or hosted as a website. By using image-similarity AI models we can eliminate subjectivity and decrease the number of unnecessary biopsies,” he explained in the abstract accompanying the presentation.

However, he said that the algorithm as it currently stands has limitations: It has been tested on only 103 images thus far, and there’s the potential for selection bias.

Dr. Thomas* reported that, although he developed the AiBx algorithm, he has not drawn income or royalties from it. He reported no other relevant conflicts of interest.
 

SOURCE: Thomas* J et al. ATA 2019, Oral Abstract 27.

*Correction, 21/11/2019: An earlier version of this story misstated Dr. Thomas's last name.

CHICAGO – A new image-analysis algorithm for benign thyroid nodules that uses a technique similar to facial recognition showed good sensitivity and specificity, with the potential to reduce biopsies by more than 50%.

The negative predictive value of the ultrasound analysis algorithm was 93.2%, a figure approximating the false-negative rate of about 5% that is seen in fine-needle aspiration of thyroid nodules, said Johnson Thomas, MD, at the annual meeting of the American Thyroid Association.

“Millions of people have thyroid nodules,” many of which are detected incidentally, said Dr. Thomas, an endocrinologist with the Mercy health care system in Springfield, Mo. Fewer than 10% of thyroid nodules turn out to be malignant, but each year, millions of patients undergo biopsies to determine the status of their thyroid nodules.

Faced with evaluating a thyroid nodule, an endocrinologist can currently turn to a risk-stratification scheme, such as those developed by the American College of Radiology and the American Thyroid Association. However, there’s a big subjective component to risk stratification – significant inter- and intraobserver variation has been observed, said Dr. Thomas, and not all nodules are classifiable. The result is a system that still has low specificity and positive predictive value, he said.

Even after a decision to proceed to biopsy, one in seven thyroid nodule biopsies will not produce a definitive diagnosis, he said.

“We are doing millions of thyroid biopsies based on very subjective criteria to find thyroid cancer in a very small percentage of the population, with an invasive technique that may not be diagnostic one out of seven times,” Dr. Thomas said in summing up the current medical situation as he sees it.

Dr. Thomas, who writes his own computer code, said he was searching for a reliable and explainable noninvasive technique, and one that lacked subjective room for error, to address the thyroid nodule problem.

The question was whether an artificial intelligence (AI) algorithm could match radiologist performance in classifying thyroid nodules according to the characteristics of their ultrasound images.

Other algorithms use AI to predict which nodules are malignant, but they function as “black boxes” – a common criticism of AI. The outside observer cannot ordinarily see how the AI algorithm “knows” what it knows. This characteristic of AI poses at least a theoretical problem when such algorithms are used for diagnosis or medical decision making.

Dr. Thomas’s* approach was to use a set of training data to allow the algorithm he constructed to see 2,025 images from a total of 482 nodules. The thyroid nodules used for training had been subjected to biopsy or excised in surgery, so they all had a definitive status of being benign or malignant.

Then, after the algorithm was refined, a set of 103 nodules with known malignancy status was used to test the algorithm’s sensitivity and specificity.

The algorithm, dubbed AiBx, used a convolutional neural network to build a unique image vector for each nodule. The AiBx algorithm then looked at the training database to find the “nearest neighbors,” or the images it found to be the most similar to those of the nodule being examined.

For example, said Dr. Thomas, a test image of a benign nodule would have an output from the AiBx analysis of three similar images from the database – all benign. Hence, rather than making a black-box call of whether a nodule is benign or malignant, the algorithm merely says: “This nodule resembles a benign nodule in our database.” The interpreting physician can then use the algorithm as a decision aid with confidence.

The overall accuracy of AiBx was 81.5%, sensitivity was 87.8%, and specificity was 78.5%. Positive predictive value was 65.9%.

As more images are added to the database, AiBx can easily be retrained and refined, said Dr. Thomas.

“It’s intuitive and explainable,” he added, noting that the algorithm is also a good teaching tool for residents and fellows.

“This AI model can be deployed as an app, integrated with [medical imaging systems] or hosted as a website. By using image-similarity AI models we can eliminate subjectivity and decrease the number of unnecessary biopsies,” he explained in the abstract accompanying the presentation.

However, he said that the algorithm as it currently stands has limitations: It has been tested on only 103 images thus far, and there’s the potential for selection bias.

Dr. Thomas* reported that, although he developed the AiBx algorithm, he has not drawn income or royalties from it. He reported no other relevant conflicts of interest.
 

SOURCE: Thomas* J et al. ATA 2019, Oral Abstract 27.

*Correction, 21/11/2019: An earlier version of this story misstated Dr. Thomas's last name.

CHICAGO – A new image-analysis algorithm for benign thyroid nodules that uses a technique similar to facial recognition showed good sensitivity and specificity, with the potential to reduce biopsies by more than 50%.

The negative predictive value of the ultrasound analysis algorithm was 93.2%, a figure approximating the false-negative rate of about 5% that is seen in fine-needle aspiration of thyroid nodules, said Johnson Thomas, MD, at the annual meeting of the American Thyroid Association.

“Millions of people have thyroid nodules,” many of which are detected incidentally, said Dr. Thomas, an endocrinologist with the Mercy health care system in Springfield, Mo. Fewer than 10% of thyroid nodules turn out to be malignant, but each year, millions of patients undergo biopsies to determine the status of their thyroid nodules.

Faced with evaluating a thyroid nodule, an endocrinologist can currently turn to a risk-stratification scheme, such as those developed by the American College of Radiology and the American Thyroid Association. However, there’s a big subjective component to risk stratification – significant inter- and intraobserver variation has been observed, said Dr. Thomas, and not all nodules are classifiable. The result is a system that still has low specificity and positive predictive value, he said.

Even after a decision to proceed to biopsy, one in seven thyroid nodule biopsies will not produce a definitive diagnosis, he said.

“We are doing millions of thyroid biopsies based on very subjective criteria to find thyroid cancer in a very small percentage of the population, with an invasive technique that may not be diagnostic one out of seven times,” Dr. Thomas said in summing up the current medical situation as he sees it.

Dr. Thomas, who writes his own computer code, said he was searching for a reliable and explainable noninvasive technique, and one that lacked subjective room for error, to address the thyroid nodule problem.

The question was whether an artificial intelligence (AI) algorithm could match radiologist performance in classifying thyroid nodules according to the characteristics of their ultrasound images.

Other algorithms use AI to predict which nodules are malignant, but they function as “black boxes” – a common criticism of AI. The outside observer cannot ordinarily see how the AI algorithm “knows” what it knows. This characteristic of AI poses at least a theoretical problem when such algorithms are used for diagnosis or medical decision making.

Dr. Thomas’s* approach was to use a set of training data to allow the algorithm he constructed to see 2,025 images from a total of 482 nodules. The thyroid nodules used for training had been subjected to biopsy or excised in surgery, so they all had a definitive status of being benign or malignant.

Then, after the algorithm was refined, a set of 103 nodules with known malignancy status was used to test the algorithm’s sensitivity and specificity.

The algorithm, dubbed AiBx, used a convolutional neural network to build a unique image vector for each nodule. The AiBx algorithm then looked at the training database to find the “nearest neighbors,” or the images it found to be the most similar to those of the nodule being examined.

For example, said Dr. Thomas, a test image of a benign nodule would have an output from the AiBx analysis of three similar images from the database – all benign. Hence, rather than making a black-box call of whether a nodule is benign or malignant, the algorithm merely says: “This nodule resembles a benign nodule in our database.” The interpreting physician can then use the algorithm as a decision aid with confidence.

The overall accuracy of AiBx was 81.5%, sensitivity was 87.8%, and specificity was 78.5%. Positive predictive value was 65.9%.

As more images are added to the database, AiBx can easily be retrained and refined, said Dr. Thomas.

“It’s intuitive and explainable,” he added, noting that the algorithm is also a good teaching tool for residents and fellows.

“This AI model can be deployed as an app, integrated with [medical imaging systems] or hosted as a website. By using image-similarity AI models we can eliminate subjectivity and decrease the number of unnecessary biopsies,” he explained in the abstract accompanying the presentation.

However, he said that the algorithm as it currently stands has limitations: It has been tested on only 103 images thus far, and there’s the potential for selection bias.

Dr. Thomas* reported that, although he developed the AiBx algorithm, he has not drawn income or royalties from it. He reported no other relevant conflicts of interest.
 

SOURCE: Thomas* J et al. ATA 2019, Oral Abstract 27.

*Correction, 21/11/2019: An earlier version of this story misstated Dr. Thomas's last name.

CHICAGO – Many patients with thyroid cancer can be sent home after lateral neck dissections with few or no opioids, in the experience of an institution that made a sea change in opioid prescribing practices.

Kari Oakes/MDedge News

Between 2012 to mid-2019, Oregon Health & Science University (OHSU), Portland, saw 243 patients who received lateral neck dissections for thyroid cancer and were opioid naive. Before a shift in prescribing practices in early 2017, 5.3% of patients were discharged without opioids after lateral neck dissections for thyroid cancer, whereas after the shift, 41.7% of patients went home on an opioid-free regimen, James Y. Lim, MD, an endocrine surgeon and assistant professor at the university, said during a poster presentation at the annual meeting of the American Thyroid Association.

The initiative, led by Maisie L. Shindo, MD, was started at the OHSU Thyroid and Parathyroid Center in late 2016 in an effort to reduce the number of opioid prescriptions in postoperative patients, Dr. Lim explained in an interview after his presentation. Dr. Shindo, coauthor of the study, directs the thyroid and parathyroid surgery department at the university.

“Before the initiative, standard postoperative pain control consisted of opioids. However, it was common for patients to mention that they did not need them at all,” said Dr. Lim. “Our prescribing practices today reflect the ability to maintain patient comfort without having to resort to opioids. We are able to keep more than 90% of our patients comfortable with a multimodal approach to pain,” he said.

Dr. Lim and colleagues used a retrospective record review to tally how many opioids were initially prescribed at discharge after lateral neck dissections for thyroid cancer, along with the number and quantity of refills for opioids after discharge. Opioid doses were converted to morphine milligram equivalents (MME), and dosing patterns were compared for the periods before and after Feb. 1, 2017, when operating surgeons changed opioid prescribing patterns. These two subgroups were termed group 1 and group 2, respectively.

In all, 143 of the total 243 patients included in the study were women, and the mean age at the time of surgery was 47 years. Patients in group 1 had 170 surgeries, and those in group 2 had 103 surgeries.

Group 1 patients received a mean 295.4 MME after surgery, and group 2 patients received a mean 85.89 MME, though there was wide variation in discharge prescribing within each group. The absolute difference between the pre- and postinitiative groups was 209.51 MME (95% confidence interval, 157.8-261.2), for an effect size of 1.08. The MME figures for each group reflected both discharge medication and any refills or rescue prescriptions that were required.

“Decreasing the volume of opioids prescribed at discharge will decrease waste and reduce potential for addiction,” the authors noted.

As far as is known, “this is the first study that seeks to identify the extent of opioid needs after an extensive neck dissection for thyroid cancer operation,” said Dr. Lim, who added that he has been surprised at how well patients do after surgery. He said he and other surgeons had expected patients to have more pain from lateral neck dissections than they seem to experience.

“There have been studies, including from our own institution, that reported the relatively small need for opioids after a central neck procedure, such as a total thyroidectomy,” Dr. Lim said. “Our study showed that those requirements remain low even with more extensive lateral neck dissections. In the last 8 months of the study, more than 70% of patients with lateral neck dissections did not require opioids on discharge.”

Dr. Lim said that he and the rest of the care team advise patients to ramp up nonpharmacologic options, including ibuprofen, acetaminophen, ice packs, and throat lozenges – all of which can make a big difference in postoperative comfort.

Paying attention to how patients fare during an inpatient stay or even same-day procedures can help physicians estimate postdischarge needs, said Dr. Lim: “For our lateral neck dissections, patients usually stay overnight, and we can get a pretty good estimate of how their pain is being managed off opioids. For same-day procedures, it requires evaluating the patient before discharge and reassessing the pain needs at that time.”

Helping patients and their families understand the postoperative course and what level of discomfort they can expect has helped in the effort to minimize opioid use, Dr. Lim said. Overall, patients, family, and staff have received the changes “very well,” he added.

Practices that are considering a move toward opioid-free or opioid-sparing regimens after surgery should know that “it does require buy-in from all members of the medical team as well as the patients,” Dr. Lim emphasized.

“It starts at the initial surgical consultation, with surgeons educating patients on what to expect in terms of postoperative discomfort and pain. Patients are informed that they will have some discomfort and mild pain that is generally controlled with nonopioid, over-the-counter medications and cold therapy to the surgical site,” he explained.

“It requires education of the nurses and residents to encourage moving away from using opioids as a first-line therapy,” but it’s worth the hard work to get to a point where patients are going home with few, or no, opioids, said Dr. Lim. “Ultimately, patients are happier and are often relieved that their pain can be controlled without opioids,” he said.

Dr. Shindo is the senior author of a related study examining opioid reduction in neck dissection for a variety of head and neck cancers. In that study, she and her coauthors found that opioid requirements vary by cancer type. In an upcoming manuscript, the researchers are aiming to characterize typical opioid requirements for commonly performed procedures, to provide surgeons with evidence-based baselines for appropriate, but not excessive, opioid prescribing.

Dr. Lim reported no outside sources of funding. He, Dr. Shindo, and a third author reported that they had no conflicts of interest.

koakes@mdedge.com

SOURCE: Lim J et al. ATA 2019, Poster 401.

CHICAGO – Many patients with thyroid cancer can be sent home after lateral neck dissections with few or no opioids, in the experience of an institution that made a sea change in opioid prescribing practices.

Kari Oakes/MDedge News

Between 2012 to mid-2019, Oregon Health & Science University (OHSU), Portland, saw 243 patients who received lateral neck dissections for thyroid cancer and were opioid naive. Before a shift in prescribing practices in early 2017, 5.3% of patients were discharged without opioids after lateral neck dissections for thyroid cancer, whereas after the shift, 41.7% of patients went home on an opioid-free regimen, James Y. Lim, MD, an endocrine surgeon and assistant professor at the university, said during a poster presentation at the annual meeting of the American Thyroid Association.

The initiative, led by Maisie L. Shindo, MD, was started at the OHSU Thyroid and Parathyroid Center in late 2016 in an effort to reduce the number of opioid prescriptions in postoperative patients, Dr. Lim explained in an interview after his presentation. Dr. Shindo, coauthor of the study, directs the thyroid and parathyroid surgery department at the university.

“Before the initiative, standard postoperative pain control consisted of opioids. However, it was common for patients to mention that they did not need them at all,” said Dr. Lim. “Our prescribing practices today reflect the ability to maintain patient comfort without having to resort to opioids. We are able to keep more than 90% of our patients comfortable with a multimodal approach to pain,” he said.

Dr. Lim and colleagues used a retrospective record review to tally how many opioids were initially prescribed at discharge after lateral neck dissections for thyroid cancer, along with the number and quantity of refills for opioids after discharge. Opioid doses were converted to morphine milligram equivalents (MME), and dosing patterns were compared for the periods before and after Feb. 1, 2017, when operating surgeons changed opioid prescribing patterns. These two subgroups were termed group 1 and group 2, respectively.

In all, 143 of the total 243 patients included in the study were women, and the mean age at the time of surgery was 47 years. Patients in group 1 had 170 surgeries, and those in group 2 had 103 surgeries.

Group 1 patients received a mean 295.4 MME after surgery, and group 2 patients received a mean 85.89 MME, though there was wide variation in discharge prescribing within each group. The absolute difference between the pre- and postinitiative groups was 209.51 MME (95% confidence interval, 157.8-261.2), for an effect size of 1.08. The MME figures for each group reflected both discharge medication and any refills or rescue prescriptions that were required.

“Decreasing the volume of opioids prescribed at discharge will decrease waste and reduce potential for addiction,” the authors noted.

As far as is known, “this is the first study that seeks to identify the extent of opioid needs after an extensive neck dissection for thyroid cancer operation,” said Dr. Lim, who added that he has been surprised at how well patients do after surgery. He said he and other surgeons had expected patients to have more pain from lateral neck dissections than they seem to experience.

“There have been studies, including from our own institution, that reported the relatively small need for opioids after a central neck procedure, such as a total thyroidectomy,” Dr. Lim said. “Our study showed that those requirements remain low even with more extensive lateral neck dissections. In the last 8 months of the study, more than 70% of patients with lateral neck dissections did not require opioids on discharge.”

Dr. Lim said that he and the rest of the care team advise patients to ramp up nonpharmacologic options, including ibuprofen, acetaminophen, ice packs, and throat lozenges – all of which can make a big difference in postoperative comfort.

Paying attention to how patients fare during an inpatient stay or even same-day procedures can help physicians estimate postdischarge needs, said Dr. Lim: “For our lateral neck dissections, patients usually stay overnight, and we can get a pretty good estimate of how their pain is being managed off opioids. For same-day procedures, it requires evaluating the patient before discharge and reassessing the pain needs at that time.”

Helping patients and their families understand the postoperative course and what level of discomfort they can expect has helped in the effort to minimize opioid use, Dr. Lim said. Overall, patients, family, and staff have received the changes “very well,” he added.

Practices that are considering a move toward opioid-free or opioid-sparing regimens after surgery should know that “it does require buy-in from all members of the medical team as well as the patients,” Dr. Lim emphasized.

“It starts at the initial surgical consultation, with surgeons educating patients on what to expect in terms of postoperative discomfort and pain. Patients are informed that they will have some discomfort and mild pain that is generally controlled with nonopioid, over-the-counter medications and cold therapy to the surgical site,” he explained.

“It requires education of the nurses and residents to encourage moving away from using opioids as a first-line therapy,” but it’s worth the hard work to get to a point where patients are going home with few, or no, opioids, said Dr. Lim. “Ultimately, patients are happier and are often relieved that their pain can be controlled without opioids,” he said.

Dr. Shindo is the senior author of a related study examining opioid reduction in neck dissection for a variety of head and neck cancers. In that study, she and her coauthors found that opioid requirements vary by cancer type. In an upcoming manuscript, the researchers are aiming to characterize typical opioid requirements for commonly performed procedures, to provide surgeons with evidence-based baselines for appropriate, but not excessive, opioid prescribing.

Dr. Lim reported no outside sources of funding. He, Dr. Shindo, and a third author reported that they had no conflicts of interest.

koakes@mdedge.com

SOURCE: Lim J et al. ATA 2019, Poster 401.

CHICAGO – Many patients with thyroid cancer can be sent home after lateral neck dissections with few or no opioids, in the experience of an institution that made a sea change in opioid prescribing practices.

Kari Oakes/MDedge News

Between 2012 to mid-2019, Oregon Health & Science University (OHSU), Portland, saw 243 patients who received lateral neck dissections for thyroid cancer and were opioid naive. Before a shift in prescribing practices in early 2017, 5.3% of patients were discharged without opioids after lateral neck dissections for thyroid cancer, whereas after the shift, 41.7% of patients went home on an opioid-free regimen, James Y. Lim, MD, an endocrine surgeon and assistant professor at the university, said during a poster presentation at the annual meeting of the American Thyroid Association.

The initiative, led by Maisie L. Shindo, MD, was started at the OHSU Thyroid and Parathyroid Center in late 2016 in an effort to reduce the number of opioid prescriptions in postoperative patients, Dr. Lim explained in an interview after his presentation. Dr. Shindo, coauthor of the study, directs the thyroid and parathyroid surgery department at the university.

“Before the initiative, standard postoperative pain control consisted of opioids. However, it was common for patients to mention that they did not need them at all,” said Dr. Lim. “Our prescribing practices today reflect the ability to maintain patient comfort without having to resort to opioids. We are able to keep more than 90% of our patients comfortable with a multimodal approach to pain,” he said.

Dr. Lim and colleagues used a retrospective record review to tally how many opioids were initially prescribed at discharge after lateral neck dissections for thyroid cancer, along with the number and quantity of refills for opioids after discharge. Opioid doses were converted to morphine milligram equivalents (MME), and dosing patterns were compared for the periods before and after Feb. 1, 2017, when operating surgeons changed opioid prescribing patterns. These two subgroups were termed group 1 and group 2, respectively.

In all, 143 of the total 243 patients included in the study were women, and the mean age at the time of surgery was 47 years. Patients in group 1 had 170 surgeries, and those in group 2 had 103 surgeries.

Group 1 patients received a mean 295.4 MME after surgery, and group 2 patients received a mean 85.89 MME, though there was wide variation in discharge prescribing within each group. The absolute difference between the pre- and postinitiative groups was 209.51 MME (95% confidence interval, 157.8-261.2), for an effect size of 1.08. The MME figures for each group reflected both discharge medication and any refills or rescue prescriptions that were required.

“Decreasing the volume of opioids prescribed at discharge will decrease waste and reduce potential for addiction,” the authors noted.

As far as is known, “this is the first study that seeks to identify the extent of opioid needs after an extensive neck dissection for thyroid cancer operation,” said Dr. Lim, who added that he has been surprised at how well patients do after surgery. He said he and other surgeons had expected patients to have more pain from lateral neck dissections than they seem to experience.

“There have been studies, including from our own institution, that reported the relatively small need for opioids after a central neck procedure, such as a total thyroidectomy,” Dr. Lim said. “Our study showed that those requirements remain low even with more extensive lateral neck dissections. In the last 8 months of the study, more than 70% of patients with lateral neck dissections did not require opioids on discharge.”

Dr. Lim said that he and the rest of the care team advise patients to ramp up nonpharmacologic options, including ibuprofen, acetaminophen, ice packs, and throat lozenges – all of which can make a big difference in postoperative comfort.

Paying attention to how patients fare during an inpatient stay or even same-day procedures can help physicians estimate postdischarge needs, said Dr. Lim: “For our lateral neck dissections, patients usually stay overnight, and we can get a pretty good estimate of how their pain is being managed off opioids. For same-day procedures, it requires evaluating the patient before discharge and reassessing the pain needs at that time.”

Helping patients and their families understand the postoperative course and what level of discomfort they can expect has helped in the effort to minimize opioid use, Dr. Lim said. Overall, patients, family, and staff have received the changes “very well,” he added.

Practices that are considering a move toward opioid-free or opioid-sparing regimens after surgery should know that “it does require buy-in from all members of the medical team as well as the patients,” Dr. Lim emphasized.

“It starts at the initial surgical consultation, with surgeons educating patients on what to expect in terms of postoperative discomfort and pain. Patients are informed that they will have some discomfort and mild pain that is generally controlled with nonopioid, over-the-counter medications and cold therapy to the surgical site,” he explained.

“It requires education of the nurses and residents to encourage moving away from using opioids as a first-line therapy,” but it’s worth the hard work to get to a point where patients are going home with few, or no, opioids, said Dr. Lim. “Ultimately, patients are happier and are often relieved that their pain can be controlled without opioids,” he said.

Dr. Shindo is the senior author of a related study examining opioid reduction in neck dissection for a variety of head and neck cancers. In that study, she and her coauthors found that opioid requirements vary by cancer type. In an upcoming manuscript, the researchers are aiming to characterize typical opioid requirements for commonly performed procedures, to provide surgeons with evidence-based baselines for appropriate, but not excessive, opioid prescribing.

Dr. Lim reported no outside sources of funding. He, Dr. Shindo, and a third author reported that they had no conflicts of interest.

koakes@mdedge.com

SOURCE: Lim J et al. ATA 2019, Poster 401.

CHICAGO – Current dosing recommendations for thyroid replacement during immune checkpoint inhibitor therapy may overshoot the mark, both for patients with preexisting and de novo hypothyroidism.

Kari Oakes/MDedge News

The real-world data, presented by Megan Kristan, MD, at the annual meeting of the American Thyroid Association, refine recommendations for dosing by body weight for levothyroxine in patients receiving checkpoint inhibitor therapy.

Immune checkpoint inhibitors stand a good chance of turning the tide against melanoma, some lung cancers, and other malignancies that have long been considered lethal. However, as more patients are exposed to the therapies, endocrinologists are seeing a wave of thyroid abnormalities, and must decide when, and at what doses, to treat hypothyroidism, said Dr. Kristan, a diabetes, endocrinology, and nutrition fellow at the University of Maryland, Baltimore.

Six checkpoint inhibitors are currently approved to hit a variety of molecular targets, and the prevalence of thyroid toxicity and hypothyroidism across the drug class ranges from a reported 9% to 40%, said Dr. Kristan.

The acknowledged thyroid toxicity of these drugs led the American Society for Clinical Oncology (ASCO) to issue guidelines advising that oncologists obtain baseline thyroid function tests before initiating checkpoint inhibitors, and that values be rechecked frequently – every 4-6 weeks – during therapy.

The guidelines advise dosing levothyroxine at approximately 1.6 mcg/kg per day, based on ideal patient body weight. The recommendation is limited to patients without risk factors, and approximates full levothyroxine replacement.

However, some patients enter cancer treatment with hypothyroidism, and some develop it de novo after beginning checkpoint inhibitor therapy. It is not known how best to treat each group, said Dr. Kristan.

To help answer that question, she and her collaborators at Georgetown University Hospital, McLean, Va., made use of a database drawn from five hospitals to perform a retrospective chart review. They looked at 822 patients who had received checkpoint inhibitor therapy, and from those patients, they selected 118 who had a diagnosis of hypothyroidism, or who received a prescription for levothyroxine during the 8-year study period.

The investigators assembled all available relevant data for each patient, including thyroid function tests, levothyroxine dosing, type of cancer, and type of therapy. They sorted participants into those who had received a diagnosis of hypothyroidism before or after receiving the first dose of checkpoint inhibitor therapy.

At baseline, 81 patients had preexisting hypothyroidism and were receiving a mean levothyroxine dose of 88.2 mcg. After treatment, the mean dose was 94.3 mcg, a nonsignificant difference. The median dose for this group remained at 88 mcg through treatment.

For the 37 patients who developed hypothyroidism de novo during checkpoint inhibitor therapy, the final observed levothyroxine dose was 71.2 mcg.

The mean age of the patients at baseline was 69 years. About half were women, and 91% were white. Either nivolumab or pembrolizumab was used in 72% of patients, making them the most commonly used checkpoint inhibitors, though 90% of patients received combination therapy. Taken together, melanoma and lung cancer accounted for about two-thirds of the cancers seen.

For both groups, the on-treatment levothyroxine dose was considerably lower than the ASCO-recommended, weight-based dosing, which would have been 122.9 mcg for those with preexisting hypothyroidism and 115.7 mcg for those who developed hypothyroidism on treatment (P less than .001 for both).

Dr. Kristan noted that thyroid stimulating hormone (TSH) values for patients with pretreatment hypothyroidism peaked between weeks 12 and 20, though there was no preemptive adjustment of levothyroxine dosing.

For those who developed on-treatment hypothyroidism, TSH values peaked at a series of times, at about weeks 8, 16, and 32. These waves of TSH elevation, she said, support the 4- to 6-week follow-up interval recommended in the ASCO guidelines.

However, she said, patients with de novo hypothyroidism “should not be started on the 1.6-mcg/kg-a-day weight-based dosing.” The cohort with de novo hypothyroidism in Dr. Kristan’s analysis required a daily dose of about 1 mcg/kg, she said. These real-world results support the idea that many patients on checkpoint inhibitors retain some thyroid reserve.

Dr. Kristan said that based on these findings, she and her collaborators recommend monitoring thyroid function every 4-6 weeks for patients taking immune checkpoint inhibitors. Patients with preexisting thyroid disease should not have an empiric adjustment of levothyroxine dose on checkpoint inhibitor initiation. For patients who develop thyroiditis after starting therapy, initiating a dose at 1 mcg/kg per day of ideal body weight is a good place to start, and treatment response should be monitored.

The study was limited by its retrospective nature and the small sample size, acknowledged Dr. Kristan. In addition, there were confounding variables and different frequencies of testing across institutions, and antibody status was not available and may have affected the results. Testing was performable for all participants.

Dr. Kristan said that the analysis opens up areas for further study, such as which patient populations are at risk for developing thyroid toxicity, what baseline characteristics can help predict which patients develop toxicity, and whether particular checkpoint inhibitors are more likely to cause toxicity. In addition, she said, a subset of patients will develop hyperthyroidism on checkpoint inhibitor therapy, and little is known about how to treat that complication.

Dr. Kristan reported no conflicts of interest. The research she presented was completed during her residency at Georgetown University.
 

SOURCE: Kristan M et al. ATA 2019, Oral Abstract 25.

CHICAGO – Current dosing recommendations for thyroid replacement during immune checkpoint inhibitor therapy may overshoot the mark, both for patients with preexisting and de novo hypothyroidism.

Kari Oakes/MDedge News

The real-world data, presented by Megan Kristan, MD, at the annual meeting of the American Thyroid Association, refine recommendations for dosing by body weight for levothyroxine in patients receiving checkpoint inhibitor therapy.

Immune checkpoint inhibitors stand a good chance of turning the tide against melanoma, some lung cancers, and other malignancies that have long been considered lethal. However, as more patients are exposed to the therapies, endocrinologists are seeing a wave of thyroid abnormalities, and must decide when, and at what doses, to treat hypothyroidism, said Dr. Kristan, a diabetes, endocrinology, and nutrition fellow at the University of Maryland, Baltimore.

Six checkpoint inhibitors are currently approved to hit a variety of molecular targets, and the prevalence of thyroid toxicity and hypothyroidism across the drug class ranges from a reported 9% to 40%, said Dr. Kristan.

The acknowledged thyroid toxicity of these drugs led the American Society for Clinical Oncology (ASCO) to issue guidelines advising that oncologists obtain baseline thyroid function tests before initiating checkpoint inhibitors, and that values be rechecked frequently – every 4-6 weeks – during therapy.

The guidelines advise dosing levothyroxine at approximately 1.6 mcg/kg per day, based on ideal patient body weight. The recommendation is limited to patients without risk factors, and approximates full levothyroxine replacement.

However, some patients enter cancer treatment with hypothyroidism, and some develop it de novo after beginning checkpoint inhibitor therapy. It is not known how best to treat each group, said Dr. Kristan.

To help answer that question, she and her collaborators at Georgetown University Hospital, McLean, Va., made use of a database drawn from five hospitals to perform a retrospective chart review. They looked at 822 patients who had received checkpoint inhibitor therapy, and from those patients, they selected 118 who had a diagnosis of hypothyroidism, or who received a prescription for levothyroxine during the 8-year study period.

The investigators assembled all available relevant data for each patient, including thyroid function tests, levothyroxine dosing, type of cancer, and type of therapy. They sorted participants into those who had received a diagnosis of hypothyroidism before or after receiving the first dose of checkpoint inhibitor therapy.

At baseline, 81 patients had preexisting hypothyroidism and were receiving a mean levothyroxine dose of 88.2 mcg. After treatment, the mean dose was 94.3 mcg, a nonsignificant difference. The median dose for this group remained at 88 mcg through treatment.

For the 37 patients who developed hypothyroidism de novo during checkpoint inhibitor therapy, the final observed levothyroxine dose was 71.2 mcg.

The mean age of the patients at baseline was 69 years. About half were women, and 91% were white. Either nivolumab or pembrolizumab was used in 72% of patients, making them the most commonly used checkpoint inhibitors, though 90% of patients received combination therapy. Taken together, melanoma and lung cancer accounted for about two-thirds of the cancers seen.

For both groups, the on-treatment levothyroxine dose was considerably lower than the ASCO-recommended, weight-based dosing, which would have been 122.9 mcg for those with preexisting hypothyroidism and 115.7 mcg for those who developed hypothyroidism on treatment (P less than .001 for both).

Dr. Kristan noted that thyroid stimulating hormone (TSH) values for patients with pretreatment hypothyroidism peaked between weeks 12 and 20, though there was no preemptive adjustment of levothyroxine dosing.

For those who developed on-treatment hypothyroidism, TSH values peaked at a series of times, at about weeks 8, 16, and 32. These waves of TSH elevation, she said, support the 4- to 6-week follow-up interval recommended in the ASCO guidelines.

However, she said, patients with de novo hypothyroidism “should not be started on the 1.6-mcg/kg-a-day weight-based dosing.” The cohort with de novo hypothyroidism in Dr. Kristan’s analysis required a daily dose of about 1 mcg/kg, she said. These real-world results support the idea that many patients on checkpoint inhibitors retain some thyroid reserve.

Dr. Kristan said that based on these findings, she and her collaborators recommend monitoring thyroid function every 4-6 weeks for patients taking immune checkpoint inhibitors. Patients with preexisting thyroid disease should not have an empiric adjustment of levothyroxine dose on checkpoint inhibitor initiation. For patients who develop thyroiditis after starting therapy, initiating a dose at 1 mcg/kg per day of ideal body weight is a good place to start, and treatment response should be monitored.

The study was limited by its retrospective nature and the small sample size, acknowledged Dr. Kristan. In addition, there were confounding variables and different frequencies of testing across institutions, and antibody status was not available and may have affected the results. Testing was performable for all participants.

Dr. Kristan said that the analysis opens up areas for further study, such as which patient populations are at risk for developing thyroid toxicity, what baseline characteristics can help predict which patients develop toxicity, and whether particular checkpoint inhibitors are more likely to cause toxicity. In addition, she said, a subset of patients will develop hyperthyroidism on checkpoint inhibitor therapy, and little is known about how to treat that complication.

Dr. Kristan reported no conflicts of interest. The research she presented was completed during her residency at Georgetown University.
 

SOURCE: Kristan M et al. ATA 2019, Oral Abstract 25.

CHICAGO – Current dosing recommendations for thyroid replacement during immune checkpoint inhibitor therapy may overshoot the mark, both for patients with preexisting and de novo hypothyroidism.

Kari Oakes/MDedge News

The real-world data, presented by Megan Kristan, MD, at the annual meeting of the American Thyroid Association, refine recommendations for dosing by body weight for levothyroxine in patients receiving checkpoint inhibitor therapy.

Immune checkpoint inhibitors stand a good chance of turning the tide against melanoma, some lung cancers, and other malignancies that have long been considered lethal. However, as more patients are exposed to the therapies, endocrinologists are seeing a wave of thyroid abnormalities, and must decide when, and at what doses, to treat hypothyroidism, said Dr. Kristan, a diabetes, endocrinology, and nutrition fellow at the University of Maryland, Baltimore.

Six checkpoint inhibitors are currently approved to hit a variety of molecular targets, and the prevalence of thyroid toxicity and hypothyroidism across the drug class ranges from a reported 9% to 40%, said Dr. Kristan.

The acknowledged thyroid toxicity of these drugs led the American Society for Clinical Oncology (ASCO) to issue guidelines advising that oncologists obtain baseline thyroid function tests before initiating checkpoint inhibitors, and that values be rechecked frequently – every 4-6 weeks – during therapy.

The guidelines advise dosing levothyroxine at approximately 1.6 mcg/kg per day, based on ideal patient body weight. The recommendation is limited to patients without risk factors, and approximates full levothyroxine replacement.

However, some patients enter cancer treatment with hypothyroidism, and some develop it de novo after beginning checkpoint inhibitor therapy. It is not known how best to treat each group, said Dr. Kristan.

To help answer that question, she and her collaborators at Georgetown University Hospital, McLean, Va., made use of a database drawn from five hospitals to perform a retrospective chart review. They looked at 822 patients who had received checkpoint inhibitor therapy, and from those patients, they selected 118 who had a diagnosis of hypothyroidism, or who received a prescription for levothyroxine during the 8-year study period.

The investigators assembled all available relevant data for each patient, including thyroid function tests, levothyroxine dosing, type of cancer, and type of therapy. They sorted participants into those who had received a diagnosis of hypothyroidism before or after receiving the first dose of checkpoint inhibitor therapy.

At baseline, 81 patients had preexisting hypothyroidism and were receiving a mean levothyroxine dose of 88.2 mcg. After treatment, the mean dose was 94.3 mcg, a nonsignificant difference. The median dose for this group remained at 88 mcg through treatment.

For the 37 patients who developed hypothyroidism de novo during checkpoint inhibitor therapy, the final observed levothyroxine dose was 71.2 mcg.

The mean age of the patients at baseline was 69 years. About half were women, and 91% were white. Either nivolumab or pembrolizumab was used in 72% of patients, making them the most commonly used checkpoint inhibitors, though 90% of patients received combination therapy. Taken together, melanoma and lung cancer accounted for about two-thirds of the cancers seen.

For both groups, the on-treatment levothyroxine dose was considerably lower than the ASCO-recommended, weight-based dosing, which would have been 122.9 mcg for those with preexisting hypothyroidism and 115.7 mcg for those who developed hypothyroidism on treatment (P less than .001 for both).

Dr. Kristan noted that thyroid stimulating hormone (TSH) values for patients with pretreatment hypothyroidism peaked between weeks 12 and 20, though there was no preemptive adjustment of levothyroxine dosing.

For those who developed on-treatment hypothyroidism, TSH values peaked at a series of times, at about weeks 8, 16, and 32. These waves of TSH elevation, she said, support the 4- to 6-week follow-up interval recommended in the ASCO guidelines.

However, she said, patients with de novo hypothyroidism “should not be started on the 1.6-mcg/kg-a-day weight-based dosing.” The cohort with de novo hypothyroidism in Dr. Kristan’s analysis required a daily dose of about 1 mcg/kg, she said. These real-world results support the idea that many patients on checkpoint inhibitors retain some thyroid reserve.

Dr. Kristan said that based on these findings, she and her collaborators recommend monitoring thyroid function every 4-6 weeks for patients taking immune checkpoint inhibitors. Patients with preexisting thyroid disease should not have an empiric adjustment of levothyroxine dose on checkpoint inhibitor initiation. For patients who develop thyroiditis after starting therapy, initiating a dose at 1 mcg/kg per day of ideal body weight is a good place to start, and treatment response should be monitored.

The study was limited by its retrospective nature and the small sample size, acknowledged Dr. Kristan. In addition, there were confounding variables and different frequencies of testing across institutions, and antibody status was not available and may have affected the results. Testing was performable for all participants.

Dr. Kristan said that the analysis opens up areas for further study, such as which patient populations are at risk for developing thyroid toxicity, what baseline characteristics can help predict which patients develop toxicity, and whether particular checkpoint inhibitors are more likely to cause toxicity. In addition, she said, a subset of patients will develop hyperthyroidism on checkpoint inhibitor therapy, and little is known about how to treat that complication.

Dr. Kristan reported no conflicts of interest. The research she presented was completed during her residency at Georgetown University.
 

SOURCE: Kristan M et al. ATA 2019, Oral Abstract 25.

CHICAGO – Higher levels of triiodothyronine (T3) were seen in combatants with PTSD, compared with patients whose PTSD arose from other adverse experiences, according to findings from a systematic review and meta-analysis.

Patients with combat-related PTSD had higher levels of free T3 and total T3, compared with control participants who had experienced childhood or sexual abuse or were a wartime refugee without PTSD (FT3, 0.36 pg/mL higher, and total T3, 31.6 ng/mL higher, respectively; P = .0004 and P less than .00001).

“We found statistically higher free T3 and total T3 levels in patients with [combat-related] PTSD, compared with controls,” said Freddy J.K. Toloza, MD, in an interview during a poster session of the annual meeting of the American Thyroid Association.

However, he noted that there were no overall differences in thyroid-stimulating hormone, free tetraiodothyronine (T4), and total T4 levels between individuals with PTSD and the non-PTSD control participants. In addition, though free and total T3 levels were significantly higher for the overall PTSD cohort than for control participants, the differences were driven by the studies that included combat-exposed individuals.

Dr. Toloza and colleagues included 10 observational studies in their final review and meta-analysis. Five studies looked at war veterans; the others examined individuals who had experienced child abuse or sexual abuse, who were refugees, or who were from the general population.

For inclusion, the studies had to report both mean values and standard deviations for standard thyroid-hormone test values in patients with PTSD, compared with a non-PTSD control group. These included 373 patients with PTSD and 301 control participants. Just under half (47%) were women. None of the studies, wrote the investigators, “compared rates of overt/subclinical thyroid disease between groups.”

There are known links between many endocrine disorders and psychiatric conditions, said Dr. Toloza, but the interplay between disordered thyroid function and neuropsychiatric problems is still being examined. Looking at PTSD is important because it’s estimated that 6%-9% of the U.S. adult population has experienced PTSD over the course of a lifetime.

Levels of thyroid hormones in the systematic review and meta-analysis were still within normal range for the participants with PTSD, acknowledged Dr. Toloza, a research fellow in the division of endocrinology and metabolism at University of Arkansas for Medical Sciences, Little Rock.

However, even though there was no sign of frank thyroid disease in the PTSD population, the elevated T3 levels seen in the analysis are consistent with other studies showing a correlation between higher T3 levels and more-severe PTSD.

It is not known exactly why significant increases in the levels of total and free T3 were seen only in the combat-exposed PTSD population, Dr. Toloza said. “The type of trauma trigger may influence the adaptive responses to stress and might result in diverse thyroid alterations.”

Elevated catecholamine levels, seen in individuals with PTSD, can increase peripheral conversion of T4 to T3, explained Dr. Toloza. Ongoing catecholamine elevation may account for the isolated elevation in T3 levels in the PTSD population. Beta1-adrenergic blockade is an accepted pharmacologic strategy to help alleviate PTSD symptoms.

Dr. Toloza and coinvestigators did not have access to data that would have allowed them to ascertain what types of injuries were sustained by individuals with combat-related PTSD, but he noted in response to a question, that it would be worthwhile to see whether combatants who were blast exposed had different thyroid hormone values than those who were not, because hypothalamic injury is common in blast. This is a future direction Dr. Toloza wishes to pursue.

“Our findings add to the growing literature suggesting that thyroid function changes may be associated with PTSD,” the investigators wrote, but “further research is needed to ascertain the role of thyroid function alterations in PTSD.”

Dr. Toloza reported no financial disclosures or conflicts of interest.

CHICAGO – Higher levels of triiodothyronine (T3) were seen in combatants with PTSD, compared with patients whose PTSD arose from other adverse experiences, according to findings from a systematic review and meta-analysis.

Patients with combat-related PTSD had higher levels of free T3 and total T3, compared with control participants who had experienced childhood or sexual abuse or were a wartime refugee without PTSD (FT3, 0.36 pg/mL higher, and total T3, 31.6 ng/mL higher, respectively; P = .0004 and P less than .00001).

“We found statistically higher free T3 and total T3 levels in patients with [combat-related] PTSD, compared with controls,” said Freddy J.K. Toloza, MD, in an interview during a poster session of the annual meeting of the American Thyroid Association.

However, he noted that there were no overall differences in thyroid-stimulating hormone, free tetraiodothyronine (T4), and total T4 levels between individuals with PTSD and the non-PTSD control participants. In addition, though free and total T3 levels were significantly higher for the overall PTSD cohort than for control participants, the differences were driven by the studies that included combat-exposed individuals.

Dr. Toloza and colleagues included 10 observational studies in their final review and meta-analysis. Five studies looked at war veterans; the others examined individuals who had experienced child abuse or sexual abuse, who were refugees, or who were from the general population.

For inclusion, the studies had to report both mean values and standard deviations for standard thyroid-hormone test values in patients with PTSD, compared with a non-PTSD control group. These included 373 patients with PTSD and 301 control participants. Just under half (47%) were women. None of the studies, wrote the investigators, “compared rates of overt/subclinical thyroid disease between groups.”

There are known links between many endocrine disorders and psychiatric conditions, said Dr. Toloza, but the interplay between disordered thyroid function and neuropsychiatric problems is still being examined. Looking at PTSD is important because it’s estimated that 6%-9% of the U.S. adult population has experienced PTSD over the course of a lifetime.

Levels of thyroid hormones in the systematic review and meta-analysis were still within normal range for the participants with PTSD, acknowledged Dr. Toloza, a research fellow in the division of endocrinology and metabolism at University of Arkansas for Medical Sciences, Little Rock.

However, even though there was no sign of frank thyroid disease in the PTSD population, the elevated T3 levels seen in the analysis are consistent with other studies showing a correlation between higher T3 levels and more-severe PTSD.

It is not known exactly why significant increases in the levels of total and free T3 were seen only in the combat-exposed PTSD population, Dr. Toloza said. “The type of trauma trigger may influence the adaptive responses to stress and might result in diverse thyroid alterations.”

Elevated catecholamine levels, seen in individuals with PTSD, can increase peripheral conversion of T4 to T3, explained Dr. Toloza. Ongoing catecholamine elevation may account for the isolated elevation in T3 levels in the PTSD population. Beta1-adrenergic blockade is an accepted pharmacologic strategy to help alleviate PTSD symptoms.

Dr. Toloza and coinvestigators did not have access to data that would have allowed them to ascertain what types of injuries were sustained by individuals with combat-related PTSD, but he noted in response to a question, that it would be worthwhile to see whether combatants who were blast exposed had different thyroid hormone values than those who were not, because hypothalamic injury is common in blast. This is a future direction Dr. Toloza wishes to pursue.

“Our findings add to the growing literature suggesting that thyroid function changes may be associated with PTSD,” the investigators wrote, but “further research is needed to ascertain the role of thyroid function alterations in PTSD.”

Dr. Toloza reported no financial disclosures or conflicts of interest.

CHICAGO – Higher levels of triiodothyronine (T3) were seen in combatants with PTSD, compared with patients whose PTSD arose from other adverse experiences, according to findings from a systematic review and meta-analysis.

Patients with combat-related PTSD had higher levels of free T3 and total T3, compared with control participants who had experienced childhood or sexual abuse or were a wartime refugee without PTSD (FT3, 0.36 pg/mL higher, and total T3, 31.6 ng/mL higher, respectively; P = .0004 and P less than .00001).

“We found statistically higher free T3 and total T3 levels in patients with [combat-related] PTSD, compared with controls,” said Freddy J.K. Toloza, MD, in an interview during a poster session of the annual meeting of the American Thyroid Association.

However, he noted that there were no overall differences in thyroid-stimulating hormone, free tetraiodothyronine (T4), and total T4 levels between individuals with PTSD and the non-PTSD control participants. In addition, though free and total T3 levels were significantly higher for the overall PTSD cohort than for control participants, the differences were driven by the studies that included combat-exposed individuals.

Dr. Toloza and colleagues included 10 observational studies in their final review and meta-analysis. Five studies looked at war veterans; the others examined individuals who had experienced child abuse or sexual abuse, who were refugees, or who were from the general population.

For inclusion, the studies had to report both mean values and standard deviations for standard thyroid-hormone test values in patients with PTSD, compared with a non-PTSD control group. These included 373 patients with PTSD and 301 control participants. Just under half (47%) were women. None of the studies, wrote the investigators, “compared rates of overt/subclinical thyroid disease between groups.”

There are known links between many endocrine disorders and psychiatric conditions, said Dr. Toloza, but the interplay between disordered thyroid function and neuropsychiatric problems is still being examined. Looking at PTSD is important because it’s estimated that 6%-9% of the U.S. adult population has experienced PTSD over the course of a lifetime.

Levels of thyroid hormones in the systematic review and meta-analysis were still within normal range for the participants with PTSD, acknowledged Dr. Toloza, a research fellow in the division of endocrinology and metabolism at University of Arkansas for Medical Sciences, Little Rock.

However, even though there was no sign of frank thyroid disease in the PTSD population, the elevated T3 levels seen in the analysis are consistent with other studies showing a correlation between higher T3 levels and more-severe PTSD.

It is not known exactly why significant increases in the levels of total and free T3 were seen only in the combat-exposed PTSD population, Dr. Toloza said. “The type of trauma trigger may influence the adaptive responses to stress and might result in diverse thyroid alterations.”

Elevated catecholamine levels, seen in individuals with PTSD, can increase peripheral conversion of T4 to T3, explained Dr. Toloza. Ongoing catecholamine elevation may account for the isolated elevation in T3 levels in the PTSD population. Beta1-adrenergic blockade is an accepted pharmacologic strategy to help alleviate PTSD symptoms.

Dr. Toloza and coinvestigators did not have access to data that would have allowed them to ascertain what types of injuries were sustained by individuals with combat-related PTSD, but he noted in response to a question, that it would be worthwhile to see whether combatants who were blast exposed had different thyroid hormone values than those who were not, because hypothalamic injury is common in blast. This is a future direction Dr. Toloza wishes to pursue.

“Our findings add to the growing literature suggesting that thyroid function changes may be associated with PTSD,” the investigators wrote, but “further research is needed to ascertain the role of thyroid function alterations in PTSD.”

Dr. Toloza reported no financial disclosures or conflicts of interest.