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The direct oral anticoagulants (DOACs) apixaban and rivaroxaban are now among the options for thromboprophylaxis in high-risk cancer outpatients with low risk for bleeding and drug interactions, according to a practice guideline update from the American Society of Clinical Oncology.
Rivaroxaban also has been added as an option for initial anticoagulation for venous thromboembolism (VTE), and both rivaroxaban and edoxaban are now options for long-term anticoagulation, Nigel S. Key, MB ChB, and colleagues wrote in the updated guideline on the prophylaxis and treatment of VTE – including deep vein thrombosis (DVT) and pulmonary embolism (PE) – in cancer patients (J Clin Oncol. 2019 Aug 5. doi: 10.1200/JCO.19.19.01461).
The addition of DOACs as options for VTE prophylaxis and treatment represents the most notable change to the guideline.
“Oral anticoagulants that target thrombin (direct thrombin inhibitor, dabigatran) or activated factor X (antifactor Xa inhibitors, rivaroxaban, apixaban, and edoxaban) are now approved for treatment of DVT or PE as well as for DVT prophylaxis following orthopedic surgery and for reducing the risk of stroke and systemic embolism in patients with nonvalvular atrial fibrillation,” the guideline panel wrote.
A systematic review of PubMed and the Cochrane Library for randomized controlled trials (RCTs) and meta-analyses of RCTs published from Aug. 1, 2014, through Dec. 4, 2018, identified 35 publications on VTE prophylaxis and treatment, including 2 RCTs of DOACs for prophylaxis and 2 others of DOAC treatment, as well as 8 publications on VTE risk assessment. A multidisciplinary expert panel appointed by ASCO and cochaired by Dr. Key of the University of North Carolina, Chapel Hill, used this evidence to develop the updated guideline.
The work was guided by “the ‘signals’ approach that is designed to identify only new, potentially practice-changing data – signals – that might translate into revised practice recommendations,” the authors explained.
DOAC-related updates
VTE prophylaxis. Based in part on findings from the recently published AVERT trial of apixaban in patients initiating a new course of chemotherapy and from the CASSINI trial of rivaroxaban in patients with solid tumors or lymphoma starting systemic antineoplastic therapy, the panel added both agents as thromboprophylactic options that can be offered to high-risk cancer outpatients with no significant risk factors for bleeding or drug interactions (N Engl J Med. 2019;380:711-19; N Engl J Med. 2019;380:720-8).
Low-molecular-weight heparin (LMWH) also remains an option in such patients; consideration of therapy should involve discussion with the patient about relative benefits and harms, drug costs, and “the uncertainty surrounding duration of prophylaxis in this setting,” they wrote.
Anticoagulation for VTE. Options for initial anticoagulation include LMWH, unfractionated heparin (UFH), fondaparinux, and now rivaroxaban, with the latter added based on findings from two RCTs – the SELECT-D trial and the Hokusai VTE-Cancer study – and multiple meta-analyses (J Clin Oncol. 2018;36:2017-23; N Engl J Med. 2018;378:615-24).
Long-term anticoagulation can involve treatment with LMWH, edoxaban, or rivaroxaban for at least 6 months, all of which have improved efficacy versus vitamin K agonists (VKAs), the panel noted. However, VKAs may be used if LMWH and DOACs are not accessible.
Importantly, the literature indicates an increased risk of major bleeding with DOACs, particularly in patients with gastrointestinal malignancies and potentially in those with genitourinary malignancies. “Caution with DOACs is also warranted in other settings with high risk for mucosal bleeding,” the panel wrote.
Additional updates
CNS metastases. The anticoagulation recommendations were also updated to include patients with metastatic central nervous system malignancies (those with primary CNS malignancies were included previously). Both those with primary and metastatic CNS malignancy should be offered anticoagulation for established VTE as described for patients with other types of cancer. However, the panel stressed that “uncertainties remain about choice of agents and selection of patients most likely to benefit.”
“Patients with intracranial tumors are at increased risk for thrombotic complications and intracranial hemorrhage (ICH), but the presence of a stable or active primary intracranial malignancy or brain metastases is not an absolute contraindication to anticoagulation,” they wrote.
Limited evidence suggests that therapeutic anticoagulation does not increase ICH risk in patients with brain metastases, but it may increase risk in those with primary brain tumors, the panel added.
Additionally, preliminary data from a retrospective cohort of patients with metastatic brain disease and venous thrombosis suggest that DOACs may be associated with a lower risk of ICH than is LMWH in this population.
Long-term postoperative LMWH. Extended prophylaxis with LMWH for up to 4 weeks is recommended after major open or laparoscopic abdominal or pelvic surgery in cancer patients with high-risk features, such as restricted mobility, obesity, history of VTE, or with additional risk factors. Lower-risk surgical settings require case-by-case decision making about appropriate thromboprophylaxis duration, according to the update.
A 2014 RCT looking at thromboprophylaxis duration in 225 patients undergoing laparoscopic surgery for colorectal cancer prompted the addition of laparoscopic surgery to this recommendation. In that study, VTE occurred by 4 weeks in nearly 10% of patients receiving 1 week of prophylaxis and in no patients in the 4-week arm. Major bleeding occurred in one versus zero patients in the thromboprophylaxis arms, respectively (Ann Surg. April 2014;259[4]:665-9).
Reaffirmed recommendations
Based on the latest available data, the panel reaffirmed that most hospitalized patients with cancer and an acute medical condition require thromboprophylaxis for the duration of their hospitalization and that thromboprophylaxis should not be routinely recommended for all outpatients with cancer.
The panel also reaffirmed the need for thromboprophylaxis starting preoperatively and continuing for at least 7-10 days in patients undergoing major cancer surgery, the need for periodic assessment of VTE risk in cancer patients, and the importance of patient education about the signs and symptoms of VTE.
Perspective and future directions
In an interview, David H. Henry, MD, said he was pleased to see ASCO incorporate the latest DOAC data into the VTE guideline.
The AVERT and CASSINI studies, in particular, highlight the value of using the Khorana Risk Score, which considers cancer type, blood counts, and body mass index to predict the risk of thrombosis in cancer patients and to guide decisions regarding prophylaxis, said Dr. Henry, vice chair of the department of medicine and clinical professor of medicine at Penn Medicine’s Abramson Cancer Center, Philadelphia.
The DOACs also represent “a nice new development in the treatment setting,” he said, adding that it’s been long known – since the 2003 CLOT trial – that cancer patients with VTE had much lower recurrence rates with LMWH versus warfarin (Coumadin).
“Now fast forward to the modern era ... and DOACs now appear to be a good idea,” he said.
Dr. Henry also addressed the recommendation for expanded postoperative LMWH use.
“That I found interesting; I’m not sure what took them so long,” he said, explaining that National Comprehensive Cancer Network and European Society of Medical Oncology recommendations have long stated that, for patients with abdominal cancers who undergo abdominopelvic surgery, DVT prophylaxis should continue for 4 weeks.
Dr. Henry said that a survey at his center showed that those recommendations were “very poorly followed,” with surgeons giving 4 weeks of prophylaxis in just 5% of cases.
“The good news from our survey was that not many people had a VTE, despite not many people following the recommendations, but I must say I think our surgeons are catching on,” he said.
Overall, the updated guideline highlights the importance of considering the “cancer variable” when it comes to VTE prevention and treatment.
“We’ve known forever that when we diagnose a DVT or PE in the outpatient setting – and this is independent of cancer – that you should treat it. Add the cancer variable and we now know that we should worry and try to prevent the VTE in certain high-risk patients, and there are some drugs to do it with,” he said, adding that “you should worry about the person you’ve just provoked [with surgery] as well.”
An important question not addressed in the guideline update is the indefinite use of DOACs in cancer patients with ongoing risk, he said.
“When we see DVT or PE, we usually treat for 3 months – that’s the industry standard – and at the end of 3 months ... you do a time out and you say to yourself, ‘Was this person provoked?’ ” he said.
For example, if they took a long flight or if pregnancy was a factor, treatment can usually be safely stopped. However, in a cancer patient who still has cancer, the provocation continues, and the patient may require indefinite treatment.
Questions that remain involve defining “indefinite” and include whether (and which of) these drugs can be used indefinitely in such patients, Dr. Henry said.
Dr. Key reported receiving honoraria from Novo Nordisk, research funding to his institution from Baxter Biosciences, Grifols, and Pfizer, and serving as a consultant or advisor for Genentech, Roche, Uniqure, Seattle Genetics, and Shire Human Genetic Therapies. Numerous disclosures were also reported by other expert panel members.
The direct oral anticoagulants (DOACs) apixaban and rivaroxaban are now among the options for thromboprophylaxis in high-risk cancer outpatients with low risk for bleeding and drug interactions, according to a practice guideline update from the American Society of Clinical Oncology.
Rivaroxaban also has been added as an option for initial anticoagulation for venous thromboembolism (VTE), and both rivaroxaban and edoxaban are now options for long-term anticoagulation, Nigel S. Key, MB ChB, and colleagues wrote in the updated guideline on the prophylaxis and treatment of VTE – including deep vein thrombosis (DVT) and pulmonary embolism (PE) – in cancer patients (J Clin Oncol. 2019 Aug 5. doi: 10.1200/JCO.19.19.01461).
The addition of DOACs as options for VTE prophylaxis and treatment represents the most notable change to the guideline.
“Oral anticoagulants that target thrombin (direct thrombin inhibitor, dabigatran) or activated factor X (antifactor Xa inhibitors, rivaroxaban, apixaban, and edoxaban) are now approved for treatment of DVT or PE as well as for DVT prophylaxis following orthopedic surgery and for reducing the risk of stroke and systemic embolism in patients with nonvalvular atrial fibrillation,” the guideline panel wrote.
A systematic review of PubMed and the Cochrane Library for randomized controlled trials (RCTs) and meta-analyses of RCTs published from Aug. 1, 2014, through Dec. 4, 2018, identified 35 publications on VTE prophylaxis and treatment, including 2 RCTs of DOACs for prophylaxis and 2 others of DOAC treatment, as well as 8 publications on VTE risk assessment. A multidisciplinary expert panel appointed by ASCO and cochaired by Dr. Key of the University of North Carolina, Chapel Hill, used this evidence to develop the updated guideline.
The work was guided by “the ‘signals’ approach that is designed to identify only new, potentially practice-changing data – signals – that might translate into revised practice recommendations,” the authors explained.
DOAC-related updates
VTE prophylaxis. Based in part on findings from the recently published AVERT trial of apixaban in patients initiating a new course of chemotherapy and from the CASSINI trial of rivaroxaban in patients with solid tumors or lymphoma starting systemic antineoplastic therapy, the panel added both agents as thromboprophylactic options that can be offered to high-risk cancer outpatients with no significant risk factors for bleeding or drug interactions (N Engl J Med. 2019;380:711-19; N Engl J Med. 2019;380:720-8).
Low-molecular-weight heparin (LMWH) also remains an option in such patients; consideration of therapy should involve discussion with the patient about relative benefits and harms, drug costs, and “the uncertainty surrounding duration of prophylaxis in this setting,” they wrote.
Anticoagulation for VTE. Options for initial anticoagulation include LMWH, unfractionated heparin (UFH), fondaparinux, and now rivaroxaban, with the latter added based on findings from two RCTs – the SELECT-D trial and the Hokusai VTE-Cancer study – and multiple meta-analyses (J Clin Oncol. 2018;36:2017-23; N Engl J Med. 2018;378:615-24).
Long-term anticoagulation can involve treatment with LMWH, edoxaban, or rivaroxaban for at least 6 months, all of which have improved efficacy versus vitamin K agonists (VKAs), the panel noted. However, VKAs may be used if LMWH and DOACs are not accessible.
Importantly, the literature indicates an increased risk of major bleeding with DOACs, particularly in patients with gastrointestinal malignancies and potentially in those with genitourinary malignancies. “Caution with DOACs is also warranted in other settings with high risk for mucosal bleeding,” the panel wrote.
Additional updates
CNS metastases. The anticoagulation recommendations were also updated to include patients with metastatic central nervous system malignancies (those with primary CNS malignancies were included previously). Both those with primary and metastatic CNS malignancy should be offered anticoagulation for established VTE as described for patients with other types of cancer. However, the panel stressed that “uncertainties remain about choice of agents and selection of patients most likely to benefit.”
“Patients with intracranial tumors are at increased risk for thrombotic complications and intracranial hemorrhage (ICH), but the presence of a stable or active primary intracranial malignancy or brain metastases is not an absolute contraindication to anticoagulation,” they wrote.
Limited evidence suggests that therapeutic anticoagulation does not increase ICH risk in patients with brain metastases, but it may increase risk in those with primary brain tumors, the panel added.
Additionally, preliminary data from a retrospective cohort of patients with metastatic brain disease and venous thrombosis suggest that DOACs may be associated with a lower risk of ICH than is LMWH in this population.
Long-term postoperative LMWH. Extended prophylaxis with LMWH for up to 4 weeks is recommended after major open or laparoscopic abdominal or pelvic surgery in cancer patients with high-risk features, such as restricted mobility, obesity, history of VTE, or with additional risk factors. Lower-risk surgical settings require case-by-case decision making about appropriate thromboprophylaxis duration, according to the update.
A 2014 RCT looking at thromboprophylaxis duration in 225 patients undergoing laparoscopic surgery for colorectal cancer prompted the addition of laparoscopic surgery to this recommendation. In that study, VTE occurred by 4 weeks in nearly 10% of patients receiving 1 week of prophylaxis and in no patients in the 4-week arm. Major bleeding occurred in one versus zero patients in the thromboprophylaxis arms, respectively (Ann Surg. April 2014;259[4]:665-9).
Reaffirmed recommendations
Based on the latest available data, the panel reaffirmed that most hospitalized patients with cancer and an acute medical condition require thromboprophylaxis for the duration of their hospitalization and that thromboprophylaxis should not be routinely recommended for all outpatients with cancer.
The panel also reaffirmed the need for thromboprophylaxis starting preoperatively and continuing for at least 7-10 days in patients undergoing major cancer surgery, the need for periodic assessment of VTE risk in cancer patients, and the importance of patient education about the signs and symptoms of VTE.
Perspective and future directions
In an interview, David H. Henry, MD, said he was pleased to see ASCO incorporate the latest DOAC data into the VTE guideline.
The AVERT and CASSINI studies, in particular, highlight the value of using the Khorana Risk Score, which considers cancer type, blood counts, and body mass index to predict the risk of thrombosis in cancer patients and to guide decisions regarding prophylaxis, said Dr. Henry, vice chair of the department of medicine and clinical professor of medicine at Penn Medicine’s Abramson Cancer Center, Philadelphia.
The DOACs also represent “a nice new development in the treatment setting,” he said, adding that it’s been long known – since the 2003 CLOT trial – that cancer patients with VTE had much lower recurrence rates with LMWH versus warfarin (Coumadin).
“Now fast forward to the modern era ... and DOACs now appear to be a good idea,” he said.
Dr. Henry also addressed the recommendation for expanded postoperative LMWH use.
“That I found interesting; I’m not sure what took them so long,” he said, explaining that National Comprehensive Cancer Network and European Society of Medical Oncology recommendations have long stated that, for patients with abdominal cancers who undergo abdominopelvic surgery, DVT prophylaxis should continue for 4 weeks.
Dr. Henry said that a survey at his center showed that those recommendations were “very poorly followed,” with surgeons giving 4 weeks of prophylaxis in just 5% of cases.
“The good news from our survey was that not many people had a VTE, despite not many people following the recommendations, but I must say I think our surgeons are catching on,” he said.
Overall, the updated guideline highlights the importance of considering the “cancer variable” when it comes to VTE prevention and treatment.
“We’ve known forever that when we diagnose a DVT or PE in the outpatient setting – and this is independent of cancer – that you should treat it. Add the cancer variable and we now know that we should worry and try to prevent the VTE in certain high-risk patients, and there are some drugs to do it with,” he said, adding that “you should worry about the person you’ve just provoked [with surgery] as well.”
An important question not addressed in the guideline update is the indefinite use of DOACs in cancer patients with ongoing risk, he said.
“When we see DVT or PE, we usually treat for 3 months – that’s the industry standard – and at the end of 3 months ... you do a time out and you say to yourself, ‘Was this person provoked?’ ” he said.
For example, if they took a long flight or if pregnancy was a factor, treatment can usually be safely stopped. However, in a cancer patient who still has cancer, the provocation continues, and the patient may require indefinite treatment.
Questions that remain involve defining “indefinite” and include whether (and which of) these drugs can be used indefinitely in such patients, Dr. Henry said.
Dr. Key reported receiving honoraria from Novo Nordisk, research funding to his institution from Baxter Biosciences, Grifols, and Pfizer, and serving as a consultant or advisor for Genentech, Roche, Uniqure, Seattle Genetics, and Shire Human Genetic Therapies. Numerous disclosures were also reported by other expert panel members.
The direct oral anticoagulants (DOACs) apixaban and rivaroxaban are now among the options for thromboprophylaxis in high-risk cancer outpatients with low risk for bleeding and drug interactions, according to a practice guideline update from the American Society of Clinical Oncology.
Rivaroxaban also has been added as an option for initial anticoagulation for venous thromboembolism (VTE), and both rivaroxaban and edoxaban are now options for long-term anticoagulation, Nigel S. Key, MB ChB, and colleagues wrote in the updated guideline on the prophylaxis and treatment of VTE – including deep vein thrombosis (DVT) and pulmonary embolism (PE) – in cancer patients (J Clin Oncol. 2019 Aug 5. doi: 10.1200/JCO.19.19.01461).
The addition of DOACs as options for VTE prophylaxis and treatment represents the most notable change to the guideline.
“Oral anticoagulants that target thrombin (direct thrombin inhibitor, dabigatran) or activated factor X (antifactor Xa inhibitors, rivaroxaban, apixaban, and edoxaban) are now approved for treatment of DVT or PE as well as for DVT prophylaxis following orthopedic surgery and for reducing the risk of stroke and systemic embolism in patients with nonvalvular atrial fibrillation,” the guideline panel wrote.
A systematic review of PubMed and the Cochrane Library for randomized controlled trials (RCTs) and meta-analyses of RCTs published from Aug. 1, 2014, through Dec. 4, 2018, identified 35 publications on VTE prophylaxis and treatment, including 2 RCTs of DOACs for prophylaxis and 2 others of DOAC treatment, as well as 8 publications on VTE risk assessment. A multidisciplinary expert panel appointed by ASCO and cochaired by Dr. Key of the University of North Carolina, Chapel Hill, used this evidence to develop the updated guideline.
The work was guided by “the ‘signals’ approach that is designed to identify only new, potentially practice-changing data – signals – that might translate into revised practice recommendations,” the authors explained.
DOAC-related updates
VTE prophylaxis. Based in part on findings from the recently published AVERT trial of apixaban in patients initiating a new course of chemotherapy and from the CASSINI trial of rivaroxaban in patients with solid tumors or lymphoma starting systemic antineoplastic therapy, the panel added both agents as thromboprophylactic options that can be offered to high-risk cancer outpatients with no significant risk factors for bleeding or drug interactions (N Engl J Med. 2019;380:711-19; N Engl J Med. 2019;380:720-8).
Low-molecular-weight heparin (LMWH) also remains an option in such patients; consideration of therapy should involve discussion with the patient about relative benefits and harms, drug costs, and “the uncertainty surrounding duration of prophylaxis in this setting,” they wrote.
Anticoagulation for VTE. Options for initial anticoagulation include LMWH, unfractionated heparin (UFH), fondaparinux, and now rivaroxaban, with the latter added based on findings from two RCTs – the SELECT-D trial and the Hokusai VTE-Cancer study – and multiple meta-analyses (J Clin Oncol. 2018;36:2017-23; N Engl J Med. 2018;378:615-24).
Long-term anticoagulation can involve treatment with LMWH, edoxaban, or rivaroxaban for at least 6 months, all of which have improved efficacy versus vitamin K agonists (VKAs), the panel noted. However, VKAs may be used if LMWH and DOACs are not accessible.
Importantly, the literature indicates an increased risk of major bleeding with DOACs, particularly in patients with gastrointestinal malignancies and potentially in those with genitourinary malignancies. “Caution with DOACs is also warranted in other settings with high risk for mucosal bleeding,” the panel wrote.
Additional updates
CNS metastases. The anticoagulation recommendations were also updated to include patients with metastatic central nervous system malignancies (those with primary CNS malignancies were included previously). Both those with primary and metastatic CNS malignancy should be offered anticoagulation for established VTE as described for patients with other types of cancer. However, the panel stressed that “uncertainties remain about choice of agents and selection of patients most likely to benefit.”
“Patients with intracranial tumors are at increased risk for thrombotic complications and intracranial hemorrhage (ICH), but the presence of a stable or active primary intracranial malignancy or brain metastases is not an absolute contraindication to anticoagulation,” they wrote.
Limited evidence suggests that therapeutic anticoagulation does not increase ICH risk in patients with brain metastases, but it may increase risk in those with primary brain tumors, the panel added.
Additionally, preliminary data from a retrospective cohort of patients with metastatic brain disease and venous thrombosis suggest that DOACs may be associated with a lower risk of ICH than is LMWH in this population.
Long-term postoperative LMWH. Extended prophylaxis with LMWH for up to 4 weeks is recommended after major open or laparoscopic abdominal or pelvic surgery in cancer patients with high-risk features, such as restricted mobility, obesity, history of VTE, or with additional risk factors. Lower-risk surgical settings require case-by-case decision making about appropriate thromboprophylaxis duration, according to the update.
A 2014 RCT looking at thromboprophylaxis duration in 225 patients undergoing laparoscopic surgery for colorectal cancer prompted the addition of laparoscopic surgery to this recommendation. In that study, VTE occurred by 4 weeks in nearly 10% of patients receiving 1 week of prophylaxis and in no patients in the 4-week arm. Major bleeding occurred in one versus zero patients in the thromboprophylaxis arms, respectively (Ann Surg. April 2014;259[4]:665-9).
Reaffirmed recommendations
Based on the latest available data, the panel reaffirmed that most hospitalized patients with cancer and an acute medical condition require thromboprophylaxis for the duration of their hospitalization and that thromboprophylaxis should not be routinely recommended for all outpatients with cancer.
The panel also reaffirmed the need for thromboprophylaxis starting preoperatively and continuing for at least 7-10 days in patients undergoing major cancer surgery, the need for periodic assessment of VTE risk in cancer patients, and the importance of patient education about the signs and symptoms of VTE.
Perspective and future directions
In an interview, David H. Henry, MD, said he was pleased to see ASCO incorporate the latest DOAC data into the VTE guideline.
The AVERT and CASSINI studies, in particular, highlight the value of using the Khorana Risk Score, which considers cancer type, blood counts, and body mass index to predict the risk of thrombosis in cancer patients and to guide decisions regarding prophylaxis, said Dr. Henry, vice chair of the department of medicine and clinical professor of medicine at Penn Medicine’s Abramson Cancer Center, Philadelphia.
The DOACs also represent “a nice new development in the treatment setting,” he said, adding that it’s been long known – since the 2003 CLOT trial – that cancer patients with VTE had much lower recurrence rates with LMWH versus warfarin (Coumadin).
“Now fast forward to the modern era ... and DOACs now appear to be a good idea,” he said.
Dr. Henry also addressed the recommendation for expanded postoperative LMWH use.
“That I found interesting; I’m not sure what took them so long,” he said, explaining that National Comprehensive Cancer Network and European Society of Medical Oncology recommendations have long stated that, for patients with abdominal cancers who undergo abdominopelvic surgery, DVT prophylaxis should continue for 4 weeks.
Dr. Henry said that a survey at his center showed that those recommendations were “very poorly followed,” with surgeons giving 4 weeks of prophylaxis in just 5% of cases.
“The good news from our survey was that not many people had a VTE, despite not many people following the recommendations, but I must say I think our surgeons are catching on,” he said.
Overall, the updated guideline highlights the importance of considering the “cancer variable” when it comes to VTE prevention and treatment.
“We’ve known forever that when we diagnose a DVT or PE in the outpatient setting – and this is independent of cancer – that you should treat it. Add the cancer variable and we now know that we should worry and try to prevent the VTE in certain high-risk patients, and there are some drugs to do it with,” he said, adding that “you should worry about the person you’ve just provoked [with surgery] as well.”
An important question not addressed in the guideline update is the indefinite use of DOACs in cancer patients with ongoing risk, he said.
“When we see DVT or PE, we usually treat for 3 months – that’s the industry standard – and at the end of 3 months ... you do a time out and you say to yourself, ‘Was this person provoked?’ ” he said.
For example, if they took a long flight or if pregnancy was a factor, treatment can usually be safely stopped. However, in a cancer patient who still has cancer, the provocation continues, and the patient may require indefinite treatment.
Questions that remain involve defining “indefinite” and include whether (and which of) these drugs can be used indefinitely in such patients, Dr. Henry said.
Dr. Key reported receiving honoraria from Novo Nordisk, research funding to his institution from Baxter Biosciences, Grifols, and Pfizer, and serving as a consultant or advisor for Genentech, Roche, Uniqure, Seattle Genetics, and Shire Human Genetic Therapies. Numerous disclosures were also reported by other expert panel members.