Extended-duration thromboprophylaxis looks promising
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– Thromboprophylaxis for 35-42 days with the new oral anticoagulant betrixaban led to a significant reduction in all-cause and ischemic strokes in medically ill patients who required hospitalization as compared with conventional prophylaxis for 10 days, based on a post-hoc analysis of data from a randomized trial with more than 7,500 patients.

But the trial’s unusual design left it unclear whether the incremental benefit seen from prolonged prophylaxis with a NOAC resulted primarily from a longer period of treatment, the drug used, or both.

Dr. C. Michael Gibson,  professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center
Mitchel L. Zoler/Frontline Medical News
Dr. C. Michael Gibson
The Kaplan-Meier analysis showed that stroke incidence in the two intervention arms began to diverge during the first 10 days when all patients received an anticoagulant, suggesting that betrixaban surpassed enoxaparin when the two therapies went head-to-head, C. Michael Gibson, MD, said at the American Heart Association scientific sessions. Beyond the first 10 days and out to 77 days of follow up – during the period when standard enoxaparin prophylaxis in the control patients had ended but the novel regimen with betrixaban continued – the curve of strokes in the betrixaban group continued to separate sharply from that of the control group, indicating extended prophylaxis offered substantial benefit, said Dr. Gibson, a professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center, both in Boston.

The safety analysis showed that prolonged treatment with betrixaban roughly doubled the rate of major or clinically relevant nonmajor bleeding events during the period of treatment and for the first 7 days after treatment stopped. The incidence of these bleeds was 1.6% among control patients on 10 days of enoxaparin treatment and 3.1% among patients who received extended treatment with betrixaban, a statistically significant difference. The rates of fatal bleeds and intracranial hemorrhages in the two study groups did not significantly differ.

The data Dr. Gibson reported came from the Multicenter, Randomized, Active-Controlled Efficacy And Safety Study Comparing Extended Duration Betrixaban With Standard Of Care Enoxaparin For The Prevention Of Venous Thromboembolism In Acute Medically Ill Patients (APEX). The study’s primary aim was testing in 7,513 hospitalized medically ill patients the safety and efficacy of prolonged prophylaxis with the oral, factor Xa inhibitor betrixaban, compared with 10 days of prophylaxis with the low molecular weight heparin enoxaparin. The primary endpoint was the rate of venous thromboembolic events and deaths from venous thromboembolism (VTE) out to 47 days after the start of treatment.

APEX enrolled patients hospitalized for acute decompensated heart failure, chronic respiratory failure, acute infection without septic shock, acute rheumatic disorders or acute ischemic stroke. All enrolled patients had to be expected to be immobilized for at least 24 hours following randomization and to be hospitalized for at least 3 days. Patients also had to have an additional risk marker for high thrombotic risk: They had to be at least 75 years old, or 60-74 years old with a D-dimer level at least twice the upper limit of normal, or 40-59 years old with a D-dimer level at least twice the upper limit of normal and a history of either VTE or cancer.

Results for the primary endpoint, reported in 2016, showed that prolonged betrixaban prophylaxis linked with an absolute 1.6% reduction in the combined endpoint, which resulted in a 19% relative risk reduction that fell just short of the trial’s prespecified definition of statistical significance. The study’s primary safety endpoint was the occurrence of major bleeding events through 7 days after the stop of treatment, which occurred in 0.7% of the betrixaban patients and in 0.6% of those on enoxaparin (N Engl J Med. 2016 Aug 11;375[6]:534-44).

Even thought the primary results from this pivotal trial failed to meet the prespecified threshold for statistical significance, the company developing betrixaban, Portola, submitted an application to the Food and Drug Administration to approve marketing of extended-duration betrixaban for VTE prophylaxis in acute medically-ill patients with VTE risk factors. In December 2016, Portola announced that the FDA had given the application priority status for a decision.

The post-hoc analysis that Dr. Gibson presented at the meeting looked at the impact of betrixaban compared with enoxaparin on the incidence of all-cause and ischemic stroke during 77 days of follow-up after the start of treatment in the 7,432 patients who received at least one dose of their assigned drug, two endpoints that weren’t even secondary outcomes in APEX’s original design.

Among the 3,716 treated with betrixaban, the all-cause stroke incidence was 0.54%; among the 3,716 patients treated with enoxaparin, the all-cause stroke incidence was 0.97%. The 56% relative risk reduction was statistically significant. The incidence of ischemic strokes was 0.48% with betrixaban and 0.91% with enoxaparin, a 53% relative risk reduction that was also statistically significant.

The post-hoc analysis also looked specifically at the comparison between betrixaban and enoxaparin for stroke prevention in a subgroup of patients who had the highest stroke rate, the patients who were hospitalized because of an index stroke or an index heart failure episode. In this high-risk subgroup, prophylaxis with betrixaban cut the all-cause stroke rate compared with enoxaparin by 49% and the ischemic stroke rate by 45%, both statistically significant effects. When the high-risk subgroup also included patients hospitalized for an index episode of atrial fibrillation, betrixaban cut the rate of all-cause strokes by a relative 48% and ischemic strokes by a relative 44%.

Concurrently with Dr. Gibson’s report at the meeting, the results also appeared online (Circulation. 2016 Nov 14. doi: 10.1161/CIRCULATIONAHA.116.025427).

APEX was sponsored by Portola, the company developing betrixaban. Dr. Gibson has been a consultant to Eli Lilly, Gilead, The Medicines Company, Novo Nordisk, Pfizer, and St. Jude. He has received research support from Portola and several other companies.

 

 

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The APEX study identified a group of patients hospitalized for medical reasons who were at high risk for both venous thromboembolism and for stroke. We are comfortable with the concept of thromboprophylaxis for hospitalized patients who are at high risk for venous thromboembolism, but we have generally not paid attention to prophylaxis against stroke during and immediately after hospitalization.

The results suggest that extending thromboprophylaxis beyond the standard period of 10 days may be a good idea. Because patients in the two treatment arms of the study differed in both the drugs they received and in the duration of prophylaxis, the results cannot distinguish which of these two variables was more important. Treating patients with enoxaparin for 35-42 days may provide a similar benefit to what was seen with extended-duration betrixaban.

Dr. Steven R. Lentz, professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City
Dr. Steven R. Lentz
Although daily treatment at home with injected enoxaparin is less convenient than outpatient treatment with an oral drug like betrixaban, extended-duration enoxaparin is a feasible option. The Kaplan-Meier curves that Dr. Gibson presented indicate that most of the incremental benefit from betrixaban occurred after 10 days, once it was compared with no prophylaxis at all in the control arm with short-duration enoxaparin.

The findings are a wake-up call to the high thromboembolic risk faced by the types of patients enrolled in APEX, and they point to a new way to manage these patients. Guidelines already call for putting high-risk patients, such as those with heart failure, on anticoagulant prophylaxis if they have no contraindications. These new data suggest that thromboprophylaxis in appropriate patients should extend beyond 10 days and beyond acute hospitalization.

Steven R. Lentz, MD, is a professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City. He has been a consultant to Novo Nordisk and Opko, has an ownership interest in Celgene, and has received research grants from Novo Nordisk. He made these comments in an interview.

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The APEX study identified a group of patients hospitalized for medical reasons who were at high risk for both venous thromboembolism and for stroke. We are comfortable with the concept of thromboprophylaxis for hospitalized patients who are at high risk for venous thromboembolism, but we have generally not paid attention to prophylaxis against stroke during and immediately after hospitalization.

The results suggest that extending thromboprophylaxis beyond the standard period of 10 days may be a good idea. Because patients in the two treatment arms of the study differed in both the drugs they received and in the duration of prophylaxis, the results cannot distinguish which of these two variables was more important. Treating patients with enoxaparin for 35-42 days may provide a similar benefit to what was seen with extended-duration betrixaban.

Dr. Steven R. Lentz, professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City
Dr. Steven R. Lentz
Although daily treatment at home with injected enoxaparin is less convenient than outpatient treatment with an oral drug like betrixaban, extended-duration enoxaparin is a feasible option. The Kaplan-Meier curves that Dr. Gibson presented indicate that most of the incremental benefit from betrixaban occurred after 10 days, once it was compared with no prophylaxis at all in the control arm with short-duration enoxaparin.

The findings are a wake-up call to the high thromboembolic risk faced by the types of patients enrolled in APEX, and they point to a new way to manage these patients. Guidelines already call for putting high-risk patients, such as those with heart failure, on anticoagulant prophylaxis if they have no contraindications. These new data suggest that thromboprophylaxis in appropriate patients should extend beyond 10 days and beyond acute hospitalization.

Steven R. Lentz, MD, is a professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City. He has been a consultant to Novo Nordisk and Opko, has an ownership interest in Celgene, and has received research grants from Novo Nordisk. He made these comments in an interview.

Body

 

The APEX study identified a group of patients hospitalized for medical reasons who were at high risk for both venous thromboembolism and for stroke. We are comfortable with the concept of thromboprophylaxis for hospitalized patients who are at high risk for venous thromboembolism, but we have generally not paid attention to prophylaxis against stroke during and immediately after hospitalization.

The results suggest that extending thromboprophylaxis beyond the standard period of 10 days may be a good idea. Because patients in the two treatment arms of the study differed in both the drugs they received and in the duration of prophylaxis, the results cannot distinguish which of these two variables was more important. Treating patients with enoxaparin for 35-42 days may provide a similar benefit to what was seen with extended-duration betrixaban.

Dr. Steven R. Lentz, professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City
Dr. Steven R. Lentz
Although daily treatment at home with injected enoxaparin is less convenient than outpatient treatment with an oral drug like betrixaban, extended-duration enoxaparin is a feasible option. The Kaplan-Meier curves that Dr. Gibson presented indicate that most of the incremental benefit from betrixaban occurred after 10 days, once it was compared with no prophylaxis at all in the control arm with short-duration enoxaparin.

The findings are a wake-up call to the high thromboembolic risk faced by the types of patients enrolled in APEX, and they point to a new way to manage these patients. Guidelines already call for putting high-risk patients, such as those with heart failure, on anticoagulant prophylaxis if they have no contraindications. These new data suggest that thromboprophylaxis in appropriate patients should extend beyond 10 days and beyond acute hospitalization.

Steven R. Lentz, MD, is a professor of medicine and a hematologist oncologist at the University of Iowa in Iowa City. He has been a consultant to Novo Nordisk and Opko, has an ownership interest in Celgene, and has received research grants from Novo Nordisk. He made these comments in an interview.

Title
Extended-duration thromboprophylaxis looks promising
Extended-duration thromboprophylaxis looks promising

 

– Thromboprophylaxis for 35-42 days with the new oral anticoagulant betrixaban led to a significant reduction in all-cause and ischemic strokes in medically ill patients who required hospitalization as compared with conventional prophylaxis for 10 days, based on a post-hoc analysis of data from a randomized trial with more than 7,500 patients.

But the trial’s unusual design left it unclear whether the incremental benefit seen from prolonged prophylaxis with a NOAC resulted primarily from a longer period of treatment, the drug used, or both.

Dr. C. Michael Gibson,  professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center
Mitchel L. Zoler/Frontline Medical News
Dr. C. Michael Gibson
The Kaplan-Meier analysis showed that stroke incidence in the two intervention arms began to diverge during the first 10 days when all patients received an anticoagulant, suggesting that betrixaban surpassed enoxaparin when the two therapies went head-to-head, C. Michael Gibson, MD, said at the American Heart Association scientific sessions. Beyond the first 10 days and out to 77 days of follow up – during the period when standard enoxaparin prophylaxis in the control patients had ended but the novel regimen with betrixaban continued – the curve of strokes in the betrixaban group continued to separate sharply from that of the control group, indicating extended prophylaxis offered substantial benefit, said Dr. Gibson, a professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center, both in Boston.

The safety analysis showed that prolonged treatment with betrixaban roughly doubled the rate of major or clinically relevant nonmajor bleeding events during the period of treatment and for the first 7 days after treatment stopped. The incidence of these bleeds was 1.6% among control patients on 10 days of enoxaparin treatment and 3.1% among patients who received extended treatment with betrixaban, a statistically significant difference. The rates of fatal bleeds and intracranial hemorrhages in the two study groups did not significantly differ.

The data Dr. Gibson reported came from the Multicenter, Randomized, Active-Controlled Efficacy And Safety Study Comparing Extended Duration Betrixaban With Standard Of Care Enoxaparin For The Prevention Of Venous Thromboembolism In Acute Medically Ill Patients (APEX). The study’s primary aim was testing in 7,513 hospitalized medically ill patients the safety and efficacy of prolonged prophylaxis with the oral, factor Xa inhibitor betrixaban, compared with 10 days of prophylaxis with the low molecular weight heparin enoxaparin. The primary endpoint was the rate of venous thromboembolic events and deaths from venous thromboembolism (VTE) out to 47 days after the start of treatment.

APEX enrolled patients hospitalized for acute decompensated heart failure, chronic respiratory failure, acute infection without septic shock, acute rheumatic disorders or acute ischemic stroke. All enrolled patients had to be expected to be immobilized for at least 24 hours following randomization and to be hospitalized for at least 3 days. Patients also had to have an additional risk marker for high thrombotic risk: They had to be at least 75 years old, or 60-74 years old with a D-dimer level at least twice the upper limit of normal, or 40-59 years old with a D-dimer level at least twice the upper limit of normal and a history of either VTE or cancer.

Results for the primary endpoint, reported in 2016, showed that prolonged betrixaban prophylaxis linked with an absolute 1.6% reduction in the combined endpoint, which resulted in a 19% relative risk reduction that fell just short of the trial’s prespecified definition of statistical significance. The study’s primary safety endpoint was the occurrence of major bleeding events through 7 days after the stop of treatment, which occurred in 0.7% of the betrixaban patients and in 0.6% of those on enoxaparin (N Engl J Med. 2016 Aug 11;375[6]:534-44).

Even thought the primary results from this pivotal trial failed to meet the prespecified threshold for statistical significance, the company developing betrixaban, Portola, submitted an application to the Food and Drug Administration to approve marketing of extended-duration betrixaban for VTE prophylaxis in acute medically-ill patients with VTE risk factors. In December 2016, Portola announced that the FDA had given the application priority status for a decision.

The post-hoc analysis that Dr. Gibson presented at the meeting looked at the impact of betrixaban compared with enoxaparin on the incidence of all-cause and ischemic stroke during 77 days of follow-up after the start of treatment in the 7,432 patients who received at least one dose of their assigned drug, two endpoints that weren’t even secondary outcomes in APEX’s original design.

Among the 3,716 treated with betrixaban, the all-cause stroke incidence was 0.54%; among the 3,716 patients treated with enoxaparin, the all-cause stroke incidence was 0.97%. The 56% relative risk reduction was statistically significant. The incidence of ischemic strokes was 0.48% with betrixaban and 0.91% with enoxaparin, a 53% relative risk reduction that was also statistically significant.

The post-hoc analysis also looked specifically at the comparison between betrixaban and enoxaparin for stroke prevention in a subgroup of patients who had the highest stroke rate, the patients who were hospitalized because of an index stroke or an index heart failure episode. In this high-risk subgroup, prophylaxis with betrixaban cut the all-cause stroke rate compared with enoxaparin by 49% and the ischemic stroke rate by 45%, both statistically significant effects. When the high-risk subgroup also included patients hospitalized for an index episode of atrial fibrillation, betrixaban cut the rate of all-cause strokes by a relative 48% and ischemic strokes by a relative 44%.

Concurrently with Dr. Gibson’s report at the meeting, the results also appeared online (Circulation. 2016 Nov 14. doi: 10.1161/CIRCULATIONAHA.116.025427).

APEX was sponsored by Portola, the company developing betrixaban. Dr. Gibson has been a consultant to Eli Lilly, Gilead, The Medicines Company, Novo Nordisk, Pfizer, and St. Jude. He has received research support from Portola and several other companies.

 

 

 

– Thromboprophylaxis for 35-42 days with the new oral anticoagulant betrixaban led to a significant reduction in all-cause and ischemic strokes in medically ill patients who required hospitalization as compared with conventional prophylaxis for 10 days, based on a post-hoc analysis of data from a randomized trial with more than 7,500 patients.

But the trial’s unusual design left it unclear whether the incremental benefit seen from prolonged prophylaxis with a NOAC resulted primarily from a longer period of treatment, the drug used, or both.

Dr. C. Michael Gibson,  professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center
Mitchel L. Zoler/Frontline Medical News
Dr. C. Michael Gibson
The Kaplan-Meier analysis showed that stroke incidence in the two intervention arms began to diverge during the first 10 days when all patients received an anticoagulant, suggesting that betrixaban surpassed enoxaparin when the two therapies went head-to-head, C. Michael Gibson, MD, said at the American Heart Association scientific sessions. Beyond the first 10 days and out to 77 days of follow up – during the period when standard enoxaparin prophylaxis in the control patients had ended but the novel regimen with betrixaban continued – the curve of strokes in the betrixaban group continued to separate sharply from that of the control group, indicating extended prophylaxis offered substantial benefit, said Dr. Gibson, a professor of medicine at Harvard Medical School and an interventional cardiologist at Beth Israel Deaconess Medical Center, both in Boston.

The safety analysis showed that prolonged treatment with betrixaban roughly doubled the rate of major or clinically relevant nonmajor bleeding events during the period of treatment and for the first 7 days after treatment stopped. The incidence of these bleeds was 1.6% among control patients on 10 days of enoxaparin treatment and 3.1% among patients who received extended treatment with betrixaban, a statistically significant difference. The rates of fatal bleeds and intracranial hemorrhages in the two study groups did not significantly differ.

The data Dr. Gibson reported came from the Multicenter, Randomized, Active-Controlled Efficacy And Safety Study Comparing Extended Duration Betrixaban With Standard Of Care Enoxaparin For The Prevention Of Venous Thromboembolism In Acute Medically Ill Patients (APEX). The study’s primary aim was testing in 7,513 hospitalized medically ill patients the safety and efficacy of prolonged prophylaxis with the oral, factor Xa inhibitor betrixaban, compared with 10 days of prophylaxis with the low molecular weight heparin enoxaparin. The primary endpoint was the rate of venous thromboembolic events and deaths from venous thromboembolism (VTE) out to 47 days after the start of treatment.

APEX enrolled patients hospitalized for acute decompensated heart failure, chronic respiratory failure, acute infection without septic shock, acute rheumatic disorders or acute ischemic stroke. All enrolled patients had to be expected to be immobilized for at least 24 hours following randomization and to be hospitalized for at least 3 days. Patients also had to have an additional risk marker for high thrombotic risk: They had to be at least 75 years old, or 60-74 years old with a D-dimer level at least twice the upper limit of normal, or 40-59 years old with a D-dimer level at least twice the upper limit of normal and a history of either VTE or cancer.

Results for the primary endpoint, reported in 2016, showed that prolonged betrixaban prophylaxis linked with an absolute 1.6% reduction in the combined endpoint, which resulted in a 19% relative risk reduction that fell just short of the trial’s prespecified definition of statistical significance. The study’s primary safety endpoint was the occurrence of major bleeding events through 7 days after the stop of treatment, which occurred in 0.7% of the betrixaban patients and in 0.6% of those on enoxaparin (N Engl J Med. 2016 Aug 11;375[6]:534-44).

Even thought the primary results from this pivotal trial failed to meet the prespecified threshold for statistical significance, the company developing betrixaban, Portola, submitted an application to the Food and Drug Administration to approve marketing of extended-duration betrixaban for VTE prophylaxis in acute medically-ill patients with VTE risk factors. In December 2016, Portola announced that the FDA had given the application priority status for a decision.

The post-hoc analysis that Dr. Gibson presented at the meeting looked at the impact of betrixaban compared with enoxaparin on the incidence of all-cause and ischemic stroke during 77 days of follow-up after the start of treatment in the 7,432 patients who received at least one dose of their assigned drug, two endpoints that weren’t even secondary outcomes in APEX’s original design.

Among the 3,716 treated with betrixaban, the all-cause stroke incidence was 0.54%; among the 3,716 patients treated with enoxaparin, the all-cause stroke incidence was 0.97%. The 56% relative risk reduction was statistically significant. The incidence of ischemic strokes was 0.48% with betrixaban and 0.91% with enoxaparin, a 53% relative risk reduction that was also statistically significant.

The post-hoc analysis also looked specifically at the comparison between betrixaban and enoxaparin for stroke prevention in a subgroup of patients who had the highest stroke rate, the patients who were hospitalized because of an index stroke or an index heart failure episode. In this high-risk subgroup, prophylaxis with betrixaban cut the all-cause stroke rate compared with enoxaparin by 49% and the ischemic stroke rate by 45%, both statistically significant effects. When the high-risk subgroup also included patients hospitalized for an index episode of atrial fibrillation, betrixaban cut the rate of all-cause strokes by a relative 48% and ischemic strokes by a relative 44%.

Concurrently with Dr. Gibson’s report at the meeting, the results also appeared online (Circulation. 2016 Nov 14. doi: 10.1161/CIRCULATIONAHA.116.025427).

APEX was sponsored by Portola, the company developing betrixaban. Dr. Gibson has been a consultant to Eli Lilly, Gilead, The Medicines Company, Novo Nordisk, Pfizer, and St. Jude. He has received research support from Portola and several other companies.

 

 

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Key clinical point: Hospitalized medically ill patients who received extended-duration thromboprophylaxis with a new oral anticoagulant, betrixaban, had substantially fewer strokes than control patients on standard-duration enoxaparin.

Major finding: Strokes occurred in 0.54% of patients on extended-duration betrixaban prophylaxis and in 0.97% of patients on standard-duration enoxaparin.

Data source: APEX, a multicenter randomized trial with 7,513 patients.

Disclosures: APEX was sponsored by Portola, the company developing betrixaban. Dr. Gibson has been a consultant to Eli Lilly, Gilead, The Medicines Company, Novo Nordisk, Pfizer and St. Jude. He has received research support from Portola and several other companies.