Crawford R

Purpose: Palliative care is essential to oncology. The purpose of this project was to characterize the interface between VA oncologists and palliative care specialists in the outpatient setting and to identify barriers to outpatient palliative oncology care in the VA.

Background: The American Society of Clinical Oncology (ASCO) recommends palliative care for all patients with metastatic lung cancer and other symptomatic advanced malignancies. The VA mandates palliative care inpatient consult teams for all medical facilities. It is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. The 2016 VHA Cancer Care Survey was a comprehensive assessment of 140 VA facilities regarding their cancer care infrastructure. On this survey, 23% of sites (N=32) reported that they were not able to provide adequate palliative oncology care in the outpatient setting.

Methods: We contacted clinicians at each of these 32 sites to characterize the outpatient oncology/palliative care interface and identify potential barriers.

Results: Of the 32 sites, 17 reported that they provided limited oncologic care and generally referred patients to other facilities for cancer treatment. The remaining 15 sites reported providing full oncology services. These 15 sites employed a variety of methods to engage palliative care specialists. These included referring patients to a separate outpatient palliative care clinic or a home-based provider; consulting the inpatient palliative care team to evaluate the patient while in the cancer clinic; working with an oncology social worker; or arranging a tele-consult with a remote palliative care specialist. Barriers to providing outpatient palliative care included not enough palliative care staff, not enough clinic space, and patients or oncologists declining a palliative care referral. Clinicians expressed that they would provide more outpatient palliative care if they
had more palliative care staff, more clinic space, and more palliative care training for oncologists.

Conclusions: This project identified that some sites have found creative approaches to providing outpatient palliative oncology care. In addition, clinicians emphasized the ongoing need for additional specialty palliative care staff, primary palliative care training for oncologists, and clinic space in order to provide optimal outpatient palliative oncology care for VA patients.

Purpose: Palliative care is essential to oncology. The purpose of this project was to characterize the interface between VA oncologists and palliative care specialists in the outpatient setting and to identify barriers to outpatient palliative oncology care in the VA.

Background: The American Society of Clinical Oncology (ASCO) recommends palliative care for all patients with metastatic lung cancer and other symptomatic advanced malignancies. The VA mandates palliative care inpatient consult teams for all medical facilities. It is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. The 2016 VHA Cancer Care Survey was a comprehensive assessment of 140 VA facilities regarding their cancer care infrastructure. On this survey, 23% of sites (N=32) reported that they were not able to provide adequate palliative oncology care in the outpatient setting.

Methods: We contacted clinicians at each of these 32 sites to characterize the outpatient oncology/palliative care interface and identify potential barriers.

Results: Of the 32 sites, 17 reported that they provided limited oncologic care and generally referred patients to other facilities for cancer treatment. The remaining 15 sites reported providing full oncology services. These 15 sites employed a variety of methods to engage palliative care specialists. These included referring patients to a separate outpatient palliative care clinic or a home-based provider; consulting the inpatient palliative care team to evaluate the patient while in the cancer clinic; working with an oncology social worker; or arranging a tele-consult with a remote palliative care specialist. Barriers to providing outpatient palliative care included not enough palliative care staff, not enough clinic space, and patients or oncologists declining a palliative care referral. Clinicians expressed that they would provide more outpatient palliative care if they
had more palliative care staff, more clinic space, and more palliative care training for oncologists.

Conclusions: This project identified that some sites have found creative approaches to providing outpatient palliative oncology care. In addition, clinicians emphasized the ongoing need for additional specialty palliative care staff, primary palliative care training for oncologists, and clinic space in order to provide optimal outpatient palliative oncology care for VA patients.

Purpose: Palliative care is essential to oncology. The purpose of this project was to characterize the interface between VA oncologists and palliative care specialists in the outpatient setting and to identify barriers to outpatient palliative oncology care in the VA.

Background: The American Society of Clinical Oncology (ASCO) recommends palliative care for all patients with metastatic lung cancer and other symptomatic advanced malignancies. The VA mandates palliative care inpatient consult teams for all medical facilities. It is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. The 2016 VHA Cancer Care Survey was a comprehensive assessment of 140 VA facilities regarding their cancer care infrastructure. On this survey, 23% of sites (N=32) reported that they were not able to provide adequate palliative oncology care in the outpatient setting.

Methods: We contacted clinicians at each of these 32 sites to characterize the outpatient oncology/palliative care interface and identify potential barriers.

Results: Of the 32 sites, 17 reported that they provided limited oncologic care and generally referred patients to other facilities for cancer treatment. The remaining 15 sites reported providing full oncology services. These 15 sites employed a variety of methods to engage palliative care specialists. These included referring patients to a separate outpatient palliative care clinic or a home-based provider; consulting the inpatient palliative care team to evaluate the patient while in the cancer clinic; working with an oncology social worker; or arranging a tele-consult with a remote palliative care specialist. Barriers to providing outpatient palliative care included not enough palliative care staff, not enough clinic space, and patients or oncologists declining a palliative care referral. Clinicians expressed that they would provide more outpatient palliative care if they
had more palliative care staff, more clinic space, and more palliative care training for oncologists.

Conclusions: This project identified that some sites have found creative approaches to providing outpatient palliative oncology care. In addition, clinicians emphasized the ongoing need for additional specialty palliative care staff, primary palliative care training for oncologists, and clinic space in order to provide optimal outpatient palliative oncology care for VA patients.

Background: This case describes severe transaminitis resulting 21 days after administration of the first dose of nivolumab 480 mg for non-small cell lung cancer (NSCLC) adenocarcinoma. The patient was an 81-year-old male whose disease had progressed after 3 cycles of carboplatin/pemetrexed. Molecular tumor marker testing did not reveal any actionable mutations prior to treatment.

Case Report: The patient initially presented with headaches, worsening shortness of breath and Grade 4 transaminitis (AST/ALT > 10x ULN). During hospitalization, he was treated with PO prednisone and IV methylprednisolone with a decrease in transaminases. Due to ongoing psychoses and worsening myopathies, the steroid doses were reduced. On day 14 of hospitalization, mycophenolate mofetil (MMF) 500 mg PO BID was initiated due to steroid refractory transaminitis. The patient was put on infection prophylaxis with sulfamethoxazole/trimethoprim and fluconazole at the time of MMF initiation. Valacyclovir was initiated when MMF was increased to 1,000 mg PO BID after three days without a response to lower doses. Ultimately the patient expired from cardiac failure 18 days after
hospitalization.

Discussion: Nivolumab recently received US Food and Drug Administration approval for every 4-week dosing based on pharmacokinetic data. Without clinical evidence, it was concluded that this increased dosing would not differ in safety or efficacy from previously approved doses, despite steady-state peak and average time concentrations predicted to be higher than the every 2-week dosing regimen. Both the National Comprehensive Cancer Network and American Society of Clinical Oncology recommend initiation of MMF for steroid refractory irAE transaminitis. These recommendations are based on case reports in patients receiving ipilimumab or nivolumab. The specific dosing and timing of initiation is not well elucidated. Additionally, there are case reports of use of antithymocyte globulin for management of irAEs.

Conclusions: Administration of 480-mg nivolumab may lead to more rapid onset of severe transaminitis. Administration of this dosing should be delayed until a patient demonstrates tolerability to the 240-mg dosing. High-dose steroids, in combination with MMF may provide more rapid clinical improvement. All patients on increased doses of immunosuppressive agents should receive opportunistic infection prophylaxis.

Background: This case describes severe transaminitis resulting 21 days after administration of the first dose of nivolumab 480 mg for non-small cell lung cancer (NSCLC) adenocarcinoma. The patient was an 81-year-old male whose disease had progressed after 3 cycles of carboplatin/pemetrexed. Molecular tumor marker testing did not reveal any actionable mutations prior to treatment.

Case Report: The patient initially presented with headaches, worsening shortness of breath and Grade 4 transaminitis (AST/ALT > 10x ULN). During hospitalization, he was treated with PO prednisone and IV methylprednisolone with a decrease in transaminases. Due to ongoing psychoses and worsening myopathies, the steroid doses were reduced. On day 14 of hospitalization, mycophenolate mofetil (MMF) 500 mg PO BID was initiated due to steroid refractory transaminitis. The patient was put on infection prophylaxis with sulfamethoxazole/trimethoprim and fluconazole at the time of MMF initiation. Valacyclovir was initiated when MMF was increased to 1,000 mg PO BID after three days without a response to lower doses. Ultimately the patient expired from cardiac failure 18 days after
hospitalization.

Discussion: Nivolumab recently received US Food and Drug Administration approval for every 4-week dosing based on pharmacokinetic data. Without clinical evidence, it was concluded that this increased dosing would not differ in safety or efficacy from previously approved doses, despite steady-state peak and average time concentrations predicted to be higher than the every 2-week dosing regimen. Both the National Comprehensive Cancer Network and American Society of Clinical Oncology recommend initiation of MMF for steroid refractory irAE transaminitis. These recommendations are based on case reports in patients receiving ipilimumab or nivolumab. The specific dosing and timing of initiation is not well elucidated. Additionally, there are case reports of use of antithymocyte globulin for management of irAEs.

Conclusions: Administration of 480-mg nivolumab may lead to more rapid onset of severe transaminitis. Administration of this dosing should be delayed until a patient demonstrates tolerability to the 240-mg dosing. High-dose steroids, in combination with MMF may provide more rapid clinical improvement. All patients on increased doses of immunosuppressive agents should receive opportunistic infection prophylaxis.

Background: This case describes severe transaminitis resulting 21 days after administration of the first dose of nivolumab 480 mg for non-small cell lung cancer (NSCLC) adenocarcinoma. The patient was an 81-year-old male whose disease had progressed after 3 cycles of carboplatin/pemetrexed. Molecular tumor marker testing did not reveal any actionable mutations prior to treatment.

Case Report: The patient initially presented with headaches, worsening shortness of breath and Grade 4 transaminitis (AST/ALT > 10x ULN). During hospitalization, he was treated with PO prednisone and IV methylprednisolone with a decrease in transaminases. Due to ongoing psychoses and worsening myopathies, the steroid doses were reduced. On day 14 of hospitalization, mycophenolate mofetil (MMF) 500 mg PO BID was initiated due to steroid refractory transaminitis. The patient was put on infection prophylaxis with sulfamethoxazole/trimethoprim and fluconazole at the time of MMF initiation. Valacyclovir was initiated when MMF was increased to 1,000 mg PO BID after three days without a response to lower doses. Ultimately the patient expired from cardiac failure 18 days after
hospitalization.

Discussion: Nivolumab recently received US Food and Drug Administration approval for every 4-week dosing based on pharmacokinetic data. Without clinical evidence, it was concluded that this increased dosing would not differ in safety or efficacy from previously approved doses, despite steady-state peak and average time concentrations predicted to be higher than the every 2-week dosing regimen. Both the National Comprehensive Cancer Network and American Society of Clinical Oncology recommend initiation of MMF for steroid refractory irAE transaminitis. These recommendations are based on case reports in patients receiving ipilimumab or nivolumab. The specific dosing and timing of initiation is not well elucidated. Additionally, there are case reports of use of antithymocyte globulin for management of irAEs.

Conclusions: Administration of 480-mg nivolumab may lead to more rapid onset of severe transaminitis. Administration of this dosing should be delayed until a patient demonstrates tolerability to the 240-mg dosing. High-dose steroids, in combination with MMF may provide more rapid clinical improvement. All patients on increased doses of immunosuppressive agents should receive opportunistic infection prophylaxis.

Purpose: To determine the efficacy and toxicity of fluorouracil/leucovorin/oxaliplatin (FOLFOX) vs capecitabine/oxaliplatin (XELOX or CAPOX) in the treatment of colorectal cancer (CRC) in both the adjuvant (aCRC) and metastatic (mCRC) setting in Veterans at the Southern Arizona Veteran Affairs Health Care System (SAVAHCS).

Methods: A retrospective chart review was conducted to collect efficacy and toxicity data. Subjects were included based on age, treatment setting, and regimen in the preset 5-year period, and appropriate diagnosis via International Classification of Diseases-Revision 9 (ICD-9) codes. Efficacy was measured via 1-year disease-free survival (DFS) for aCRC, progression-free survival (PFS) for mCRC, and overall survival (OS) for both settings.

Results: A total of 79 subjects were initially evaluatedwith 51 and 54 all-male subjects included in the efficacy and toxicity analysis, respectively. Mean range of age was 63-72 years old. Subjects were divided into four groups: FOLFOX aCRC (N = 17) and mCRC (N = 19), XELOX aCRC (N = 10) and mCRC (N = 8). No difference was found in 1-year DFS and OS between aCRC treatment groups, and PFS between mCRC groups. A higher incidence of 1-year OS with FOLFOX in the mCRC setting was noted (P = .03). No difference was found in the incidence of most of the toxicities between FOLFOX and XELOX, except a higher incidence of hand-foot syndrome was seen in XELOX (P = .0007) treated patients.

Conclusions: In this patient population, the efficacy between FOLFOX and XELOX in aCRC and mCRC was similar, while toxicity was slightly more prevalent with XELOX treatment due to increased hand-foot syndrome incidence. These findings are consistent with the results reported by previous larger prospective clinical trials.

Purpose: To determine the efficacy and toxicity of fluorouracil/leucovorin/oxaliplatin (FOLFOX) vs capecitabine/oxaliplatin (XELOX or CAPOX) in the treatment of colorectal cancer (CRC) in both the adjuvant (aCRC) and metastatic (mCRC) setting in Veterans at the Southern Arizona Veteran Affairs Health Care System (SAVAHCS).

Methods: A retrospective chart review was conducted to collect efficacy and toxicity data. Subjects were included based on age, treatment setting, and regimen in the preset 5-year period, and appropriate diagnosis via International Classification of Diseases-Revision 9 (ICD-9) codes. Efficacy was measured via 1-year disease-free survival (DFS) for aCRC, progression-free survival (PFS) for mCRC, and overall survival (OS) for both settings.

Results: A total of 79 subjects were initially evaluatedwith 51 and 54 all-male subjects included in the efficacy and toxicity analysis, respectively. Mean range of age was 63-72 years old. Subjects were divided into four groups: FOLFOX aCRC (N = 17) and mCRC (N = 19), XELOX aCRC (N = 10) and mCRC (N = 8). No difference was found in 1-year DFS and OS between aCRC treatment groups, and PFS between mCRC groups. A higher incidence of 1-year OS with FOLFOX in the mCRC setting was noted (P = .03). No difference was found in the incidence of most of the toxicities between FOLFOX and XELOX, except a higher incidence of hand-foot syndrome was seen in XELOX (P = .0007) treated patients.

Conclusions: In this patient population, the efficacy between FOLFOX and XELOX in aCRC and mCRC was similar, while toxicity was slightly more prevalent with XELOX treatment due to increased hand-foot syndrome incidence. These findings are consistent with the results reported by previous larger prospective clinical trials.

Purpose: To determine the efficacy and toxicity of fluorouracil/leucovorin/oxaliplatin (FOLFOX) vs capecitabine/oxaliplatin (XELOX or CAPOX) in the treatment of colorectal cancer (CRC) in both the adjuvant (aCRC) and metastatic (mCRC) setting in Veterans at the Southern Arizona Veteran Affairs Health Care System (SAVAHCS).

Methods: A retrospective chart review was conducted to collect efficacy and toxicity data. Subjects were included based on age, treatment setting, and regimen in the preset 5-year period, and appropriate diagnosis via International Classification of Diseases-Revision 9 (ICD-9) codes. Efficacy was measured via 1-year disease-free survival (DFS) for aCRC, progression-free survival (PFS) for mCRC, and overall survival (OS) for both settings.

Results: A total of 79 subjects were initially evaluatedwith 51 and 54 all-male subjects included in the efficacy and toxicity analysis, respectively. Mean range of age was 63-72 years old. Subjects were divided into four groups: FOLFOX aCRC (N = 17) and mCRC (N = 19), XELOX aCRC (N = 10) and mCRC (N = 8). No difference was found in 1-year DFS and OS between aCRC treatment groups, and PFS between mCRC groups. A higher incidence of 1-year OS with FOLFOX in the mCRC setting was noted (P = .03). No difference was found in the incidence of most of the toxicities between FOLFOX and XELOX, except a higher incidence of hand-foot syndrome was seen in XELOX (P = .0007) treated patients.

Conclusions: In this patient population, the efficacy between FOLFOX and XELOX in aCRC and mCRC was similar, while toxicity was slightly more prevalent with XELOX treatment due to increased hand-foot syndrome incidence. These findings are consistent with the results reported by previous larger prospective clinical trials.

Purpose: Palliative care is essential to oncology. This abstract describes the AVAHO Palliative Care Research Committee, its objectives, and ongoing projects that highlight the committee’s productive multidisciplinary and interinstitutional collaboration.

Background: The American Society of Clinical Oncology recommends palliative care for patients with metastatic lung cancer and other symptomatic advanced malignancies. VA mandates inpatient palliative care services for all medical facilities. However, it is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. In addition, questions remain regarding the optimal way(s) to provide palliative oncology care. Established in 2015, the AVAHO Palliative Care Research Committee currently has over a dozen members from different VA institutions. The Committee’s mission is to develop partnerships among clinicians, pharmacists, social workers, researchers, and VA leadership with the shared goal of providing optimal palliative oncology care within the VA.

Methods: Last year, we identified 2 initial approaches to address these questions, and this year we will report on our progress. First, we submitted a proposal to the VA Evidence-Based Synthesis Program (ESP) to review the evidence regarding optimal palliative care delivery methods and the feasibility of providing on-site palliative care embedded into VA oncology clinics. The ESP accepted our proposal and plans to complete their review July 2017. Second, we proposed a project to assess on-site palliative care availability in VA oncology clinics. With the support of the 2017 AVAHO Research Scholarship, we are moving forward with this project to work with VA oncology providers to understand their referral patterns, available palliative care resources, and barriers to providing optimal palliative care.

Results: At the AVAHO 2017 meeting, we will review the VA ESP results on optimal palliative oncology care delivery. In addition, we will share the progress on our ongoing project to better understand VA oncologist’s referral patterns, resources, and barriers to providing optimal palliative oncology care.

Conclusions: The AVAHO Palliative Care Research Committee represents a multidisciplinary and inter-institutional collaboration with a common goal of optimizing VA palliative oncology care. This committee is a model of how AVAHO can foster productive collaborations.

Purpose: Palliative care is essential to oncology. This abstract describes the AVAHO Palliative Care Research Committee, its objectives, and ongoing projects that highlight the committee’s productive multidisciplinary and interinstitutional collaboration.

Background: The American Society of Clinical Oncology recommends palliative care for patients with metastatic lung cancer and other symptomatic advanced malignancies. VA mandates inpatient palliative care services for all medical facilities. However, it is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. In addition, questions remain regarding the optimal way(s) to provide palliative oncology care. Established in 2015, the AVAHO Palliative Care Research Committee currently has over a dozen members from different VA institutions. The Committee’s mission is to develop partnerships among clinicians, pharmacists, social workers, researchers, and VA leadership with the shared goal of providing optimal palliative oncology care within the VA.

Methods: Last year, we identified 2 initial approaches to address these questions, and this year we will report on our progress. First, we submitted a proposal to the VA Evidence-Based Synthesis Program (ESP) to review the evidence regarding optimal palliative care delivery methods and the feasibility of providing on-site palliative care embedded into VA oncology clinics. The ESP accepted our proposal and plans to complete their review July 2017. Second, we proposed a project to assess on-site palliative care availability in VA oncology clinics. With the support of the 2017 AVAHO Research Scholarship, we are moving forward with this project to work with VA oncology providers to understand their referral patterns, available palliative care resources, and barriers to providing optimal palliative care.

Results: At the AVAHO 2017 meeting, we will review the VA ESP results on optimal palliative oncology care delivery. In addition, we will share the progress on our ongoing project to better understand VA oncologist’s referral patterns, resources, and barriers to providing optimal palliative oncology care.

Conclusions: The AVAHO Palliative Care Research Committee represents a multidisciplinary and inter-institutional collaboration with a common goal of optimizing VA palliative oncology care. This committee is a model of how AVAHO can foster productive collaborations.

Purpose: Palliative care is essential to oncology. This abstract describes the AVAHO Palliative Care Research Committee, its objectives, and ongoing projects that highlight the committee’s productive multidisciplinary and interinstitutional collaboration.

Background: The American Society of Clinical Oncology recommends palliative care for patients with metastatic lung cancer and other symptomatic advanced malignancies. VA mandates inpatient palliative care services for all medical facilities. However, it is not clearly known how palliative care is integrated into standard VA outpatient oncology practice. In addition, questions remain regarding the optimal way(s) to provide palliative oncology care. Established in 2015, the AVAHO Palliative Care Research Committee currently has over a dozen members from different VA institutions. The Committee’s mission is to develop partnerships among clinicians, pharmacists, social workers, researchers, and VA leadership with the shared goal of providing optimal palliative oncology care within the VA.

Methods: Last year, we identified 2 initial approaches to address these questions, and this year we will report on our progress. First, we submitted a proposal to the VA Evidence-Based Synthesis Program (ESP) to review the evidence regarding optimal palliative care delivery methods and the feasibility of providing on-site palliative care embedded into VA oncology clinics. The ESP accepted our proposal and plans to complete their review July 2017. Second, we proposed a project to assess on-site palliative care availability in VA oncology clinics. With the support of the 2017 AVAHO Research Scholarship, we are moving forward with this project to work with VA oncology providers to understand their referral patterns, available palliative care resources, and barriers to providing optimal palliative care.

Results: At the AVAHO 2017 meeting, we will review the VA ESP results on optimal palliative oncology care delivery. In addition, we will share the progress on our ongoing project to better understand VA oncologist’s referral patterns, resources, and barriers to providing optimal palliative oncology care.

Conclusions: The AVAHO Palliative Care Research Committee represents a multidisciplinary and inter-institutional collaboration with a common goal of optimizing VA palliative oncology care. This committee is a model of how AVAHO can foster productive collaborations.