Study Results
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View full resultsBasic Information
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Recruitment Status
COMPLETED
Clinical Phase
PHASE2
Total Enrollment
50 participants
Study Classification
INTERVENTIONAL
Study Start Date
2020-04-10
Study Completion Date
2021-08-02
Brief Summary
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Objectives: To determine whether blockade of IL-6R is beneficial in patients with COVID-19 infection of moderate severity.
Research Design: Randomized, controlled trial. Two-arm trial comparing standard care alone to standard care with addition of sarilumab (anti-IL6R). The trial will use a randomized play-the-winner design, in which randomization becomes weighted toward the arm that was more effective in previous subjects in the trial.
Methodology Hospitalized patients meeting clinical criteria for moderate disease and testing positive for coronavirus infection. Interventions: sarilumab, 400 mg subcutaneous injection. Standard care is not pre-specified, may vary among patients, and may include agents with anti-viral activity, such as remdesivir or hydroxychloroquine, among others. Up to 120 patients, primary outcome intubation or death within 14 days. All data will be extracted remotely from the electronic health record (EHR).
Clinical Implications: The study has potential to establish IL-6R blockade, delivered subcutaneously, as standard of care in reducing progression to critical illness in patients with moderate COVID-19 disease.
Research Design: Randomized, controlled trial. Two-arm trial comparing standard care alone to standard care with addition of sarilumab (anti-IL6R). The trial will use a randomized play-the-winner design, in which randomization becomes weighted toward the arm that was more effective in previous subjects in the trial.
Methodology Hospitalized patients meeting clinical criteria for moderate disease and testing positive for coronavirus infection. Interventions: sarilumab, 400 mg subcutaneous injection. Standard care is not pre-specified, may vary among patients, and may include agents with anti-viral activity, such as remdesivir or hydroxychloroquine, among others. Up to 120 patients, primary outcome intubation or death within 14 days. All data will be extracted remotely from the electronic health record (EHR).
Clinical Implications: The study has potential to establish IL-6R blockade, delivered subcutaneously, as standard of care in reducing progression to critical illness in patients with moderate COVID-19 disease.
Detailed Description
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1. Aims/Objectives
The effectiveness of blockade of IL-6R in treating patients with COVID-19 disease of moderate severity will be tested in a pragmatic and adaptive randomized trial. The primary outcome is intubation or death within 14 days of enrollment OR administration of a rescue dose of IL-6 inhibition if the patient is do-not-resuscitate (DNR)/do-not-intubate (DNI) and the primary team determines it is appropriate based on clinical deterioration. Secondary outcomes include time to hospital discharge if alive, time to clinical recovery as was defined in a recent study, ICU length of stay, time to return to normal or baseline oxygen saturation, and changes in laboratory biomarkers.
2. Background Information
SARS-COV-2 is a novel human pathogen that emerged at the end of 2019 and rapidly spread worldwide. Clinical disease caused by this novel infection has a high mortality rate, particularly in older adults and in patients with underlying cardiopulmonary disease, populations that are highly prevalent within the VA healthcare system. This creates an urgent need for the VA to quickly and efficiently identify effective therapies to reduce mortality and spread of the disease. Based on in vitro and in vivo data, potential treatment options include anti-viral drugs (such as antimalarials or medications originally developed to treat HIV infection (e.g., lopinavir/ritonavir, remdesivir)), anti-inflammatory drugs, including IL-6 inhibition, and innovations in supportive care, such as placing patients in prone positioning while awake and not intubated. Importantly, in the context of the global pandemic and exponential spread of the disease, clinical trials must be designed in a manner that 1) optimizes outcomes for Veterans, and 2) produces rapid answers, so that effective treatments can be deployed quickly to reduce unnecessary deaths. Based on a review of 384 ongoing clinical trials by the Centre for Evidence-Based Medicine, and a daily search of open clinical trials, many conventional controlled clinical trials of antiviral drugs and cytokine-blocking drugs are in progress and are likely to be completed within a few months; however, it is possible that these trials, which may take months to implement and report results, will not yield any information about how to treat patients until after the peak of the pandemic is over. A secondary challenge is that it is important to identify what works and what does not work quickly, so that manufacturers can understand what medications need to be produced so that supply chains are adequate for treating all patients who might benefit from an intervention. Thus, innovative clinical trial methodologies are needed in order to produce answers in a highly compressed time frame to inform medical decision-making and supply chain management.
This novel and innovative proposal concerns use and comparison an existing drug (sarilumab) that blocks the receptor for the inflammatory cytokine IL-6. Most studies of IL-6 pathway blockade are using IV medications and include restrictive eligibility criteria and are directed towards patients with severe disease. The investigators hypothesize that patients earlier in the disease course - prior to severe respiratory decompensation - might benefit the most from IL-6 inhibition, and thus are the population included in this pragmatic trial. This study will expand our knowledge and understanding about how IL-6 inhibition can be used to prevent disease progression in patients with moderate disease. It will use a more readily available subcutaneous, longer-acting formulation directed towards patients with moderate disease, of whom 25-35% can progress to severe disease, often rapidly. Eligibility criteria allow for a broad range of underlying choices of other medications, including antiviral medications such as remdesivir and hydroxychloroquine, among others, baseline laboratory values, and comorbidities, reflecting likely real-world clinical use. Thus, this pragmatic project would fill a major gap in research about the clinical care of patients with COVID-19.
Release of preliminary results to the popular press already necessitated revision of this protocol after only 9 subjects had been enrolled. Interim analysis of a study of sarilumab by its manufacturer has led to revision of the study population and treatment arms. Originally, two doses (200 mg and 400 mg) were tested, and patients with either severe (oxygen requirement and other poor prognostic features) or critical (mechanical ventilation) disease were included. Interim analysis indicated benefit only with 400 mg in critical disease, so that will be the design of the remainder of that trial. In contrast, a study of of a relatively high dose of tocilizumab (8 mg/kg) was reported to be beneficial in a controlled trial of patients varying in severity from critical illness to merely requiring supplementary oxygen. In response, the current study has been modified to allow routine escalation of dosing among a broad range of "moderate" severity short of critical illness. For patients who are critically ill, it is expected that off-label use of a wide range of "heroic" therapies will be tried, including but not limited to cytokine blocking therapies, so exclusion of such patients from this trial does not limit the therapeutic options for such patients, and from a research perspective, such patients have become the focus of the largest ongoing study of sarilumab.
3. Rationale and Purpose
Severe COVID-19 disease is characterized by a severe acute respiratory distress syndrome (ARDS) followed by a severe cardiomyopathy in many cases. Based on currently available data, it is unclear how much of the respiratory damage in COVID-19 is due to direct effects of SARS-COV-2, or if the primary driver of severe disease is the inflammatory response generated in response to the virus. The key role of inflammation in the progression of the disease is highlighted by recent studies, which demonstrate that patients who progress to requiring ICU-level care no longer have detectable virus present in their respiratory tract. Thus, identifying drugs that could dampen the inflammatory response prior to severe clinical decompensation without adversely affecting clearance of virus would be clinically useful and lead to improved outcomes. Elevated biomarkers of severe inflammation (such as IL-6, CRP, ferritin, and lymphopenia) have been strongly associated with severe disease and increased mortality in patients with COVID-19, and early development of a strong IgG response may paradoxically be a poor prognostic sign during the acute phase of the disease. In contrast, viral load in upper respiratory secretions at baseline is only modestly associated with clinical outcomes, and viral load declines in most patients after presentation, independent of the clinical course of the disease. Severe disease typically arises more than 2 weeks after symptom onset, a time at which virus is usually no longer detectable. These findings suggest that progression to severe disease may be driven more by the inflammatory response to the disease than a direct viral effect, and point to anti-inflammatory drugs as potentially critical therapeutic options. Importantly, high dose glucocorticoids have been found to be ineffective in severe COVID-19 and are associated with somewhat worse outcomes, so other more targeted anti-inflammatory options are urgently needed.
Blockade of IL-6 signaling is a particularly attractive approach. Sarilumab and tocilizumab are antibodies to the IL-6 receptor (IL-6R), FDA-approved for long-term treatment of rheumatoid arthritis. Tocilizumab has been used open-label with enough anecdotal success in enough patients in China that the manufacturers of sarilumab and tocilizumab have rapidly opened clinical trials in multiple countries at assess efficacy in patients with severe COVID-19 disease. Tocilizumab has also demonstrated efficacy in reducing mortality associated with the cytokine release syndrome in patients receiving CAR-T treatment for cancer, in which the pathogenic pathway is widespread T-cell activation, which leads to production of pleiotropic inflammatory cytokines such as IL-6 by monocytes. Although trials attempting to rescue patients with severe COVID-19 with ARDS and/or cardiomyopathy are essential and are in progress, the ideal population for clinical use may be patients who are not yet critically ill but are at high risk of clinical deterioration due to secondary inflammation.
4. Relevance to Veterans Health
COVID-19 has a high mortality rate of 2-3% among symptomatic patients. It is expected to have a particularly high mortality in Veterans, because age \>60, underlying cardiovascular or lung disease, and obesity are significant risk factors for mortality and clinical deterioration. Thus, advances in care of patients sick enough to be hospitalized yet prior to intubation are expected to have particular benefit for Veterans.
5. Study Design
Design. Prospective, randomized, unblinded interventional clinical trial.
Two arms: standard care, based on established practices within the medical center, or standard care plus subcutaneous sarilumab.
Assignment Strategy: Randomized play-the-winner design, such that randomization becomes weighted toward the arm that was more effective in previous enrolled subjects. The probability of randomization to a specific arm (standard of care or standard of care plus intervention) will be updated based on outcomes in blocks of 10-20 subjects (see Planned Statistical Analyses). The protocol does not include administration of sarilumab or tocilizumab as a "rescue" medication if a patient randomized to standard of care alone deteriorates to the point that the primary outcome (intubation) is met, or if the patient is DNR/DNI and the patient's primary clinical team determines intubation would be performed if the patient's goals of care included intubation. Such patients may receive any treatment per the judgment of their treating physician, and such treatment might include sarilumab or tocilizumab. Use of sarilumab or tocilizumab in this setting will simply be regarded as a treatment failure and not as a protocol deviation.
Data will be extracted remotely from the EHR. No data will be generated specifically for study purposes.
The effectiveness of blockade of IL-6R in treating patients with COVID-19 disease of moderate severity will be tested in a pragmatic and adaptive randomized trial. The primary outcome is intubation or death within 14 days of enrollment OR administration of a rescue dose of IL-6 inhibition if the patient is do-not-resuscitate (DNR)/do-not-intubate (DNI) and the primary team determines it is appropriate based on clinical deterioration. Secondary outcomes include time to hospital discharge if alive, time to clinical recovery as was defined in a recent study, ICU length of stay, time to return to normal or baseline oxygen saturation, and changes in laboratory biomarkers.
2. Background Information
SARS-COV-2 is a novel human pathogen that emerged at the end of 2019 and rapidly spread worldwide. Clinical disease caused by this novel infection has a high mortality rate, particularly in older adults and in patients with underlying cardiopulmonary disease, populations that are highly prevalent within the VA healthcare system. This creates an urgent need for the VA to quickly and efficiently identify effective therapies to reduce mortality and spread of the disease. Based on in vitro and in vivo data, potential treatment options include anti-viral drugs (such as antimalarials or medications originally developed to treat HIV infection (e.g., lopinavir/ritonavir, remdesivir)), anti-inflammatory drugs, including IL-6 inhibition, and innovations in supportive care, such as placing patients in prone positioning while awake and not intubated. Importantly, in the context of the global pandemic and exponential spread of the disease, clinical trials must be designed in a manner that 1) optimizes outcomes for Veterans, and 2) produces rapid answers, so that effective treatments can be deployed quickly to reduce unnecessary deaths. Based on a review of 384 ongoing clinical trials by the Centre for Evidence-Based Medicine, and a daily search of open clinical trials, many conventional controlled clinical trials of antiviral drugs and cytokine-blocking drugs are in progress and are likely to be completed within a few months; however, it is possible that these trials, which may take months to implement and report results, will not yield any information about how to treat patients until after the peak of the pandemic is over. A secondary challenge is that it is important to identify what works and what does not work quickly, so that manufacturers can understand what medications need to be produced so that supply chains are adequate for treating all patients who might benefit from an intervention. Thus, innovative clinical trial methodologies are needed in order to produce answers in a highly compressed time frame to inform medical decision-making and supply chain management.
This novel and innovative proposal concerns use and comparison an existing drug (sarilumab) that blocks the receptor for the inflammatory cytokine IL-6. Most studies of IL-6 pathway blockade are using IV medications and include restrictive eligibility criteria and are directed towards patients with severe disease. The investigators hypothesize that patients earlier in the disease course - prior to severe respiratory decompensation - might benefit the most from IL-6 inhibition, and thus are the population included in this pragmatic trial. This study will expand our knowledge and understanding about how IL-6 inhibition can be used to prevent disease progression in patients with moderate disease. It will use a more readily available subcutaneous, longer-acting formulation directed towards patients with moderate disease, of whom 25-35% can progress to severe disease, often rapidly. Eligibility criteria allow for a broad range of underlying choices of other medications, including antiviral medications such as remdesivir and hydroxychloroquine, among others, baseline laboratory values, and comorbidities, reflecting likely real-world clinical use. Thus, this pragmatic project would fill a major gap in research about the clinical care of patients with COVID-19.
Release of preliminary results to the popular press already necessitated revision of this protocol after only 9 subjects had been enrolled. Interim analysis of a study of sarilumab by its manufacturer has led to revision of the study population and treatment arms. Originally, two doses (200 mg and 400 mg) were tested, and patients with either severe (oxygen requirement and other poor prognostic features) or critical (mechanical ventilation) disease were included. Interim analysis indicated benefit only with 400 mg in critical disease, so that will be the design of the remainder of that trial. In contrast, a study of of a relatively high dose of tocilizumab (8 mg/kg) was reported to be beneficial in a controlled trial of patients varying in severity from critical illness to merely requiring supplementary oxygen. In response, the current study has been modified to allow routine escalation of dosing among a broad range of "moderate" severity short of critical illness. For patients who are critically ill, it is expected that off-label use of a wide range of "heroic" therapies will be tried, including but not limited to cytokine blocking therapies, so exclusion of such patients from this trial does not limit the therapeutic options for such patients, and from a research perspective, such patients have become the focus of the largest ongoing study of sarilumab.
3. Rationale and Purpose
Severe COVID-19 disease is characterized by a severe acute respiratory distress syndrome (ARDS) followed by a severe cardiomyopathy in many cases. Based on currently available data, it is unclear how much of the respiratory damage in COVID-19 is due to direct effects of SARS-COV-2, or if the primary driver of severe disease is the inflammatory response generated in response to the virus. The key role of inflammation in the progression of the disease is highlighted by recent studies, which demonstrate that patients who progress to requiring ICU-level care no longer have detectable virus present in their respiratory tract. Thus, identifying drugs that could dampen the inflammatory response prior to severe clinical decompensation without adversely affecting clearance of virus would be clinically useful and lead to improved outcomes. Elevated biomarkers of severe inflammation (such as IL-6, CRP, ferritin, and lymphopenia) have been strongly associated with severe disease and increased mortality in patients with COVID-19, and early development of a strong IgG response may paradoxically be a poor prognostic sign during the acute phase of the disease. In contrast, viral load in upper respiratory secretions at baseline is only modestly associated with clinical outcomes, and viral load declines in most patients after presentation, independent of the clinical course of the disease. Severe disease typically arises more than 2 weeks after symptom onset, a time at which virus is usually no longer detectable. These findings suggest that progression to severe disease may be driven more by the inflammatory response to the disease than a direct viral effect, and point to anti-inflammatory drugs as potentially critical therapeutic options. Importantly, high dose glucocorticoids have been found to be ineffective in severe COVID-19 and are associated with somewhat worse outcomes, so other more targeted anti-inflammatory options are urgently needed.
Blockade of IL-6 signaling is a particularly attractive approach. Sarilumab and tocilizumab are antibodies to the IL-6 receptor (IL-6R), FDA-approved for long-term treatment of rheumatoid arthritis. Tocilizumab has been used open-label with enough anecdotal success in enough patients in China that the manufacturers of sarilumab and tocilizumab have rapidly opened clinical trials in multiple countries at assess efficacy in patients with severe COVID-19 disease. Tocilizumab has also demonstrated efficacy in reducing mortality associated with the cytokine release syndrome in patients receiving CAR-T treatment for cancer, in which the pathogenic pathway is widespread T-cell activation, which leads to production of pleiotropic inflammatory cytokines such as IL-6 by monocytes. Although trials attempting to rescue patients with severe COVID-19 with ARDS and/or cardiomyopathy are essential and are in progress, the ideal population for clinical use may be patients who are not yet critically ill but are at high risk of clinical deterioration due to secondary inflammation.
4. Relevance to Veterans Health
COVID-19 has a high mortality rate of 2-3% among symptomatic patients. It is expected to have a particularly high mortality in Veterans, because age \>60, underlying cardiovascular or lung disease, and obesity are significant risk factors for mortality and clinical deterioration. Thus, advances in care of patients sick enough to be hospitalized yet prior to intubation are expected to have particular benefit for Veterans.
5. Study Design
Design. Prospective, randomized, unblinded interventional clinical trial.
Two arms: standard care, based on established practices within the medical center, or standard care plus subcutaneous sarilumab.
Assignment Strategy: Randomized play-the-winner design, such that randomization becomes weighted toward the arm that was more effective in previous enrolled subjects. The probability of randomization to a specific arm (standard of care or standard of care plus intervention) will be updated based on outcomes in blocks of 10-20 subjects (see Planned Statistical Analyses). The protocol does not include administration of sarilumab or tocilizumab as a "rescue" medication if a patient randomized to standard of care alone deteriorates to the point that the primary outcome (intubation) is met, or if the patient is DNR/DNI and the patient's primary clinical team determines intubation would be performed if the patient's goals of care included intubation. Such patients may receive any treatment per the judgment of their treating physician, and such treatment might include sarilumab or tocilizumab. Use of sarilumab or tocilizumab in this setting will simply be regarded as a treatment failure and not as a protocol deviation.
Data will be extracted remotely from the EHR. No data will be generated specifically for study purposes.
Conditions
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COVID
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
NONE
Study Groups
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Standard of care plus subcutaneous sarilumab
Standard of care as directed by the treating clinicians, plus sarilumab 400 mg subcutaneous injection. Sarilumab is provided in prefilled syringes/pens containing 200 mg each as is used clinically, and both injections will be given as soon as is convenient after the patient has decided to enroll.
Group Type
ACTIVE_COMPARATOR
SARILUMAB
Intervention Type
BIOLOGICAL
Single dose of 400 mg subcutaneous sarilumab
Standard of care
Standard of care as directed by the treating clinicians.
Group Type
NO_INTERVENTION
No interventions assigned to this group
Interventions
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SARILUMAB
Single dose of 400 mg subcutaneous sarilumab
Intervention Type
BIOLOGICAL
Other Intervention Names
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KEVZARA
Eligibility Criteria
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Inclusion Criteria
1. Positive testing for novel coronavirus SARS-CoV-2019
2. Patients with moderate COVID-19 disease as defined clinically:
1. Score of 1-3 (out of 3) on a modified Brescia COVID respiratory severity score (BCRSS), elements of which include wheezing or inability to speak complete sentences without effort, respiratory rate ≥22, O2 saturation ≤ 94% with or without supplemental oxygen, or requiring ≥2L supplemental oxygen to maintain O2 Sat \>94% in patients without previously documented hypoxia or baseline oxygenation requirement; either is equal to one point on the score) all within a 24-hour period prior to enrollment, and/or any worsening of chest X-ray (CXR) findings after COVID-19 diagnosis
2. Worsening of baseline oxygenation by at least 3%, or increase in oxygen requirement by at least 2L, in patients with pre-existing hypoxemia or receiving supplemental oxygen chronically.
3. The BCRSS risk calculation score is available at: https://www.mdcalc.com/brescia-covid-respiratory-severity-scale-bcrss-algorithm
2. Patients with moderate COVID-19 disease as defined clinically:
1. Score of 1-3 (out of 3) on a modified Brescia COVID respiratory severity score (BCRSS), elements of which include wheezing or inability to speak complete sentences without effort, respiratory rate ≥22, O2 saturation ≤ 94% with or without supplemental oxygen, or requiring ≥2L supplemental oxygen to maintain O2 Sat \>94% in patients without previously documented hypoxia or baseline oxygenation requirement; either is equal to one point on the score) all within a 24-hour period prior to enrollment, and/or any worsening of chest X-ray (CXR) findings after COVID-19 diagnosis
2. Worsening of baseline oxygenation by at least 3%, or increase in oxygen requirement by at least 2L, in patients with pre-existing hypoxemia or receiving supplemental oxygen chronically.
3. The BCRSS risk calculation score is available at: https://www.mdcalc.com/brescia-covid-respiratory-severity-scale-bcrss-algorithm
Exclusion Criteria
1. Critical disease, defined by need for mechanical ventilation
2. Expected death within 48 hours
3. Patients taking any of the following for chronic inflammatory diseases: glucocorticoids equivalent to prednisone \> 10 mg/day (methylprednisolone \> 8 mg/day, dexamethasone \> 2 mg/day), a JAK inhibitor (tofacitinib, baricitinib, upadacitinib), or a biologic
1. Use of chronic inhaled steroids is NOT an exclusion
2. Current or recent short-term use of glucocorticoids for chronic conditions such as COPD or gout is NOT an exclusion.
3. Current use of glucocorticoids for COVID-19 is NOT an exclusion
4. Use of biologics for non-inflammatory diseases is NOT an exclusion
4. Receipt of any IL-6 inhibitor within 3 months prior to enrollment in the trial
5. Pregnancy, due to lack of fetal monitoring capabilities
6. Patients enrolled in other interventional clinical trials, including for COVID-19. Patients enrolled in non-interventional studies or receiving non-FDA-approved drugs for compassionate use are not excluded.
7. Patients whose goal of care is comfort measures only
8. Inability to provide informed consent, or absence of a legally authorized representative to provide informed consent.
9. Severe psychiatric disease that prevents compliance with typical medical care.
10. Initial positive test for active infection with novel coronavirus SARS-CoV-2019 was \>4 weeks prior to current admission.
2. Expected death within 48 hours
3. Patients taking any of the following for chronic inflammatory diseases: glucocorticoids equivalent to prednisone \> 10 mg/day (methylprednisolone \> 8 mg/day, dexamethasone \> 2 mg/day), a JAK inhibitor (tofacitinib, baricitinib, upadacitinib), or a biologic
1. Use of chronic inhaled steroids is NOT an exclusion
2. Current or recent short-term use of glucocorticoids for chronic conditions such as COPD or gout is NOT an exclusion.
3. Current use of glucocorticoids for COVID-19 is NOT an exclusion
4. Use of biologics for non-inflammatory diseases is NOT an exclusion
4. Receipt of any IL-6 inhibitor within 3 months prior to enrollment in the trial
5. Pregnancy, due to lack of fetal monitoring capabilities
6. Patients enrolled in other interventional clinical trials, including for COVID-19. Patients enrolled in non-interventional studies or receiving non-FDA-approved drugs for compassionate use are not excluded.
7. Patients whose goal of care is comfort measures only
8. Inability to provide informed consent, or absence of a legally authorized representative to provide informed consent.
9. Severe psychiatric disease that prevents compliance with typical medical care.
10. Initial positive test for active infection with novel coronavirus SARS-CoV-2019 was \>4 weeks prior to current admission.
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Westyn Branch-Elliman
FED
Sponsor Role
lead
Responsible Party
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Westyn Branch-Elliman
Assistant Professor of Medicine, Harvard Medical School; Investigator, VA Boston Center for Healthcare Organization and Implementation Research; Infectious Disease Consultant, VA Boston Healthcare System
Responsibility Role
SPONSOR_INVESTIGATOR
Principal Investigators
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Westyn Branch-Elliman, MD
Role: PRINCIPAL_INVESTIGATOR
VA Boston Healthcare System
Locations
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VA Connecticut Healthcare System
West Haven, Connecticut, United States
Site Status
VA Maine Healthcare System
Augusta, Maine, United States
Site Status
VA Boston Healthcare System
Boston, Massachusetts, United States
Site Status
Providence VA Medical Center
Providence, Rhode Island, United States
Site Status
VA Medical Center - White River Junction
White River Junction, Vermont, United States
Site Status
Countries
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United States
References
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Woods P, Flynn M, Monach P, Visnaw K, Schiller S, Holmberg E, Leatherman S, Ferguson R, Branch-Elliman W. Implementation of documented and written informed consent for clinical trials of communicable diseases: Lessons learned, barriers, solutions, future directions identified during the conduct of a COVID-19 clinical trial. Contemp Clin Trials Commun. 2021 Sep;23:100804. doi: 10.1016/j.conctc.2021.100804. Epub 2021 Jun 26.
Reference Type
BACKGROUND
Dassum SR, Ferguson R, Woods P, Flynn M, Visnaw K, Holmberg E, Schiller S, Shannon C, Brophy M, Monach P, Leatherman S, Branch-Elliman W; VISN-1 Clinical Trials Network COVID-19 Investigators. Patient- reported reasons for non-participation in a COVID-19 therapeutics clinical trial: Findings from a multi-center investigation. Contemp Clin Trials. 2023 Mar;126:107082. doi: 10.1016/j.cct.2023.107082. Epub 2023 Jan 9.
Reference Type
BACKGROUND
Dhond R, Acher R, Leatherman S, Page S, Sanford R, Elbers D, Meng F, Ferguson R, Brophy MT, Do NV. Rapid implementation of a modular clinical trial informatics solution for COVID-19 research. Inform Med Unlocked. 2021;27:100788. doi: 10.1016/j.imu.2021.100788. Epub 2021 Nov 12.
Reference Type
BACKGROUND
Branch-Elliman W, Lehmann LS, Boden WE, Ferguson R, Monach P. Pragmatic, adaptive clinical trials: Is 2020 the dawning of a new age? Contemp Clin Trials Commun. 2020 Jul 17;19:100614. doi: 10.1016/j.conctc.2020.100614. eCollection 2020 Sep.
Reference Type
BACKGROUND
Branch-Elliman W, Monach PA. Not What Anyone Signed up for: Unnecessary and Insurmountable Barriers Encountered in Conducting Clinical Trials in COVID-19. Narrat Inq Bioeth. 2021;11(1):8-15. doi: 10.1353/nib.2021.0003. No abstract available.
Reference Type
BACKGROUND
Branch-Elliman W, Ferguson R, Doros G, Woods P, Leatherman S, Strymish J, Datta R, Goswami R, Jankowich MD, Shah NR, Taylor TH, Page ST, Schiller SJ, Shannon C, Hau C, Flynn M, Holmberg E, Visnaw K, Dhond R, Brophy M, Monach PA. Subcutaneous sarilumab for the treatment of hospitalized patients with moderate to severe COVID19 disease: A pragmatic, embedded randomized clinical trial. PLoS One. 2022 Feb 25;17(2):e0263591. doi: 10.1371/journal.pone.0263591. eCollection 2022.
Reference Type
RESULT
Provided Documents
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Document Type: Study Protocol and Statistical Analysis Plan
Document Type: Informed Consent Form
Other Identifiers
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IRB 3305
Identifier Type: -
Identifier Source: org_study_id