The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design

Derek C Angus; Scott Berry; Roger J Lewis; Farah Al-Beidh; Yaseen Arabi; Wilma van Bentum-Puijk; Zahra Bhimani; Marc Bonten; Kristine Broglio; Frank Brunkhorst; Allen C Cheng; Jean-Daniel Chiche; Menno De Jong; Michelle Detry; Herman Goossens; Anthony Gordon; Cameron Green; Alisa M Higgins; Sebastiaan J Hullegie; Peter Kruger; Francois Lamontagne; Edward Litton; John Marshall; Anna McGlothlin; Shay McGuinness; Paul Mouncey; Srinivas Murthy; Alistair Nichol; Genevieve K O'Neill; Rachael Parke; Jane Parker; Gernot Rohde; Kathryn Rowan; Anne Turner; Paul Young; Lennie Derde; Colin McArthur; Steven A Webb

doi:10.1513/AnnalsATS.202003-192SD

The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design

Derek C Angus, Scott Berry, Roger J Lewis, Farah Al-Beidh, Yaseen Arabi, Wilma van Bentum-Puijk, Zahra Bhimani, Marc Bonten, Kristine Broglio, Frank Brunkhorst, Allen C Cheng, Jean-Daniel Chiche, Menno De Jong, Michelle Detry, Herman Goossens, Anthony Gordon, Cameron Green, Alisa M Higgins, Sebastiaan J Hullegie, Peter KrugerFrancois Lamontagne, Edward Litton, John Marshall, Anna McGlothlin, Shay McGuinness, Paul Mouncey, Srinivas Murthy, Alistair Nichol, Genevieve K O'Neill, Rachael Parke, Jane Parker, Gernot Rohde, Kathryn Rowan, Anne Turner, Paul Young, Lennie Derde, Colin McArthur, Steven A Webb

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Abstract

There is broad interest in improved methods to generate robust evidence regarding best practice, especially in settings where patient conditions are heterogenous and require multiple concomitant therapies. Here, we present the rationale and design of a large, international trial that combines features of adaptive platform trials with pragmatic point-of-care trials to determine best treatment strategies for patients admitted to an intensive care unit with severe community-acquired pneumonia. The trial uses a novel design, entitled "a randomized embedded multifactorial adaptive platform." The design has five key features: 1) randomization, allowing robust causal inference; 2) embedding of study procedures into routine care processes, facilitating enrollment, trial efficiency, and generalizability; 3) a multifactorial statistical model comparing multiple interventions across multiple patient subgroups; 4) response-adaptive randomization with preferential assignment to those interventions that appear most favorable; and 5) a platform structured to permit continuous, potentially perpetual enrollment beyond the evaluation of the initial treatments. The trial randomizes patients to multiple interventions within four treatment domains: antibiotics, antiviral therapy for influenza, host immunomodulation with extended macrolide therapy, and alternative corticosteroid regimens, representing 240 treatment regimens. The trial generates estimates of superiority, inferiority, and equivalence between regimens on the primary outcome of 90-day mortality, stratified by presence or absence of concomitant shock and proven or suspected influenza infection. The trial will also compare ventilatory and oxygenation strategies, and has capacity to address additional questions rapidly during pandemic respiratory infections. As of January 2020, REMAP-CAP (Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia) was approved and enrolling patients in 52 intensive care units in 13 countries on 3 continents. In February, it transitioned into pandemic mode with several design adaptations for coronavirus disease 2019. Lessons learned from the design and conduct of this trial should aid in dissemination of similar platform initiatives in other disease areas.Clinical trial registered with www.clinicaltrials.gov (NCT02735707).

Original language	English
Pages (from-to)	879-891
Number of pages	13
Journal	Annals of the American Thoracic Society
Volume	17
Issue number	7
Early online date	8 Apr 2020
DOIs	https://doi.org/10.1513/AnnalsATS.202003-192SD
Publication status	Published - Jul 2020

Keywords

Bayesian adaptive platform trial
Community-acquired pneumonia
Coronavirus disease 2019
Master protocol
Randomized clinical trial
Pandemics
Humans
Community-Acquired Infections/therapy
Pneumonia/therapy
Evidence-Based Medicine
COVID-19
SARS-CoV-2
Point-of-Care Systems
Antiviral Agents/therapeutic use
Betacoronavirus
Pneumonia, Viral/therapy
Influenza, Human/therapy
Anti-Bacterial Agents/therapeutic use
Coronavirus Infections/therapy
master protocol
randomized clinical trial
community-acquired pneumonia
coronavirus disease 2019

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Angus, D. C., Berry, S., Lewis, R. J., Al-Beidh, F., Arabi, Y., van Bentum-Puijk, W., Bhimani, Z., Bonten, M., Broglio, K., Brunkhorst, F., Cheng, A. C., Chiche, J.-D., De Jong, M., Detry, M., Goossens, H., Gordon, A., Green, C., Higgins, A. M., Hullegie, S. J., ... Webb, S. A. (2020). The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design. Annals of the American Thoracic Society, 17(7), 879-891. https://doi.org/10.1513/AnnalsATS.202003-192SD

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title = "The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design",

abstract = "There is broad interest in improved methods to generate robust evidence regarding best practice, especially in settings where patient conditions are heterogenous and require multiple concomitant therapies. Here, we present the rationale and design of a large, international trial that combines features of adaptive platform trials with pragmatic point-of-care trials to determine best treatment strategies for patients admitted to an intensive care unit with severe community-acquired pneumonia. The trial uses a novel design, entitled {"}a randomized embedded multifactorial adaptive platform.{"} The design has five key features: 1) randomization, allowing robust causal inference; 2) embedding of study procedures into routine care processes, facilitating enrollment, trial efficiency, and generalizability; 3) a multifactorial statistical model comparing multiple interventions across multiple patient subgroups; 4) response-adaptive randomization with preferential assignment to those interventions that appear most favorable; and 5) a platform structured to permit continuous, potentially perpetual enrollment beyond the evaluation of the initial treatments. The trial randomizes patients to multiple interventions within four treatment domains: antibiotics, antiviral therapy for influenza, host immunomodulation with extended macrolide therapy, and alternative corticosteroid regimens, representing 240 treatment regimens. The trial generates estimates of superiority, inferiority, and equivalence between regimens on the primary outcome of 90-day mortality, stratified by presence or absence of concomitant shock and proven or suspected influenza infection. The trial will also compare ventilatory and oxygenation strategies, and has capacity to address additional questions rapidly during pandemic respiratory infections. As of January 2020, REMAP-CAP (Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia) was approved and enrolling patients in 52 intensive care units in 13 countries on 3 continents. In February, it transitioned into pandemic mode with several design adaptations for coronavirus disease 2019. Lessons learned from the design and conduct of this trial should aid in dissemination of similar platform initiatives in other disease areas.Clinical trial registered with www.clinicaltrials.gov (NCT02735707). ",

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author = "Angus, {Derek C} and Scott Berry and Lewis, {Roger J} and Farah Al-Beidh and Yaseen Arabi and {van Bentum-Puijk}, Wilma and Zahra Bhimani and Marc Bonten and Kristine Broglio and Frank Brunkhorst and Cheng, {Allen C} and Jean-Daniel Chiche and {De Jong}, Menno and Michelle Detry and Herman Goossens and Anthony Gordon and Cameron Green and Higgins, {Alisa M} and Hullegie, {Sebastiaan J} and Peter Kruger and Francois Lamontagne and Edward Litton and John Marshall and Anna McGlothlin and Shay McGuinness and Paul Mouncey and Srinivas Murthy and Alistair Nichol and O'Neill, {Genevieve K} and Rachael Parke and Jane Parker and Gernot Rohde and Kathryn Rowan and Anne Turner and Paul Young and Lennie Derde and Colin McArthur and Webb, {Steven A}",

note = "Funding Information: Supported by the European Union, FP7-HEALTH-2013-INNOVATION-1 grant 602525 to the PREPARE (Platform for European Preparedness Against [Re-] emerging Epidemics) Consortium, Australian National Health and Medical Research Council grant APP1101719, New Zealand Health Research Council grant 16/631, and Canadian Institute of Health Research Strategy for Patient-Oriented Research Innovative Clinical Trials Program Grant 158584; the original design was supported by a development grant from the British Embassy. Funding Information: Table 1 summarizes key trial features. REMAP-CAP is a global program intended to enroll critically ill patients with CAP worldwide (clinical trials registration no. NCT02735707; universal trial no. U1111-1189-1653). The trial was launched in Europe under the PREPARE (Platform for European Preparedness against (Re-) emerging Epidemics) consortium (https:// www.prepare-europe.eu/about-us/ workpackages/workpackage-5) with funding from the European Union. REMAP-CAP has also launched in Australia and New Zealand, supported by the Australian and New Zealand Intensive Care Society Clinical Trials Group and in Canada supported by the Canadian Critical Care Clinical Trials Group, with funding from the respective national governments. Together, these programs fund the first 4,000 patients, and are anticipated to recruit in 50 sites in Europe, 35 sites in Australia and New Zealand, and 15 sites in Canada. Other regions of the world will join as funding becomes available. Over 500 patients were enrolled as of March 2020. The trial is overseen by an international trial steering committee. An overview of trial structure is provided in Figure 2B. Publisher Copyright: Copyright {\textcopyright} 2020 by the American Thoracic Society Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",

year = "2020",

month = jul,

doi = "10.1513/AnnalsATS.202003-192SD",

language = "English",

volume = "17",

pages = "879--891",

journal = "Annals of the American Thoracic Society",

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publisher = "American Thoracic Society",

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Angus, DC, Berry, S, Lewis, RJ, Al-Beidh, F, Arabi, Y, van Bentum-Puijk, W, Bhimani, Z, Bonten, M, Broglio, K, Brunkhorst, F, Cheng, AC, Chiche, J-D, De Jong, M, Detry, M, Goossens, H, Gordon, A, Green, C, Higgins, AM, Hullegie, SJ, Kruger, P, Lamontagne, F, Litton, E, Marshall, J, McGlothlin, A, McGuinness, S, Mouncey, P, Murthy, S, Nichol, A, O'Neill, GK, Parke, R, Parker, J, Rohde, G, Rowan, K, Turner, A, Young, P, Derde, L, McArthur, C & Webb, SA 2020, 'The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design', Annals of the American Thoracic Society, vol. 17, no. 7, pp. 879-891. https://doi.org/10.1513/AnnalsATS.202003-192SD

TY - JOUR

T1 - The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design

T2 - Rationale and Design

AU - Angus, Derek C

AU - Berry, Scott

AU - Lewis, Roger J

AU - Al-Beidh, Farah

AU - Arabi, Yaseen

AU - van Bentum-Puijk, Wilma

AU - Bhimani, Zahra

AU - Bonten, Marc

AU - Broglio, Kristine

AU - Brunkhorst, Frank

AU - Cheng, Allen C

AU - Chiche, Jean-Daniel

AU - De Jong, Menno

AU - Detry, Michelle

AU - Goossens, Herman

AU - Gordon, Anthony

AU - Green, Cameron

AU - Higgins, Alisa M

AU - Hullegie, Sebastiaan J

AU - Kruger, Peter

AU - Lamontagne, Francois

AU - Litton, Edward

AU - Marshall, John

AU - McGlothlin, Anna

AU - McGuinness, Shay

AU - Mouncey, Paul

AU - Murthy, Srinivas

AU - Nichol, Alistair

AU - O'Neill, Genevieve K

AU - Parke, Rachael

AU - Parker, Jane

AU - Rohde, Gernot

AU - Rowan, Kathryn

AU - Turner, Anne

AU - Young, Paul

AU - Derde, Lennie

AU - McArthur, Colin

AU - Webb, Steven A

N1 - Funding Information: Supported by the European Union, FP7-HEALTH-2013-INNOVATION-1 grant 602525 to the PREPARE (Platform for European Preparedness Against [Re-] emerging Epidemics) Consortium, Australian National Health and Medical Research Council grant APP1101719, New Zealand Health Research Council grant 16/631, and Canadian Institute of Health Research Strategy for Patient-Oriented Research Innovative Clinical Trials Program Grant 158584; the original design was supported by a development grant from the British Embassy. Funding Information: Table 1 summarizes key trial features. REMAP-CAP is a global program intended to enroll critically ill patients with CAP worldwide (clinical trials registration no. NCT02735707; universal trial no. U1111-1189-1653). The trial was launched in Europe under the PREPARE (Platform for European Preparedness against (Re-) emerging Epidemics) consortium (https:// www.prepare-europe.eu/about-us/ workpackages/workpackage-5) with funding from the European Union. REMAP-CAP has also launched in Australia and New Zealand, supported by the Australian and New Zealand Intensive Care Society Clinical Trials Group and in Canada supported by the Canadian Critical Care Clinical Trials Group, with funding from the respective national governments. Together, these programs fund the first 4,000 patients, and are anticipated to recruit in 50 sites in Europe, 35 sites in Australia and New Zealand, and 15 sites in Canada. Other regions of the world will join as funding becomes available. Over 500 patients were enrolled as of March 2020. The trial is overseen by an international trial steering committee. An overview of trial structure is provided in Figure 2B. Publisher Copyright: Copyright © 2020 by the American Thoracic Society Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020/7

Y1 - 2020/7

N2 - There is broad interest in improved methods to generate robust evidence regarding best practice, especially in settings where patient conditions are heterogenous and require multiple concomitant therapies. Here, we present the rationale and design of a large, international trial that combines features of adaptive platform trials with pragmatic point-of-care trials to determine best treatment strategies for patients admitted to an intensive care unit with severe community-acquired pneumonia. The trial uses a novel design, entitled "a randomized embedded multifactorial adaptive platform." The design has five key features: 1) randomization, allowing robust causal inference; 2) embedding of study procedures into routine care processes, facilitating enrollment, trial efficiency, and generalizability; 3) a multifactorial statistical model comparing multiple interventions across multiple patient subgroups; 4) response-adaptive randomization with preferential assignment to those interventions that appear most favorable; and 5) a platform structured to permit continuous, potentially perpetual enrollment beyond the evaluation of the initial treatments. The trial randomizes patients to multiple interventions within four treatment domains: antibiotics, antiviral therapy for influenza, host immunomodulation with extended macrolide therapy, and alternative corticosteroid regimens, representing 240 treatment regimens. The trial generates estimates of superiority, inferiority, and equivalence between regimens on the primary outcome of 90-day mortality, stratified by presence or absence of concomitant shock and proven or suspected influenza infection. The trial will also compare ventilatory and oxygenation strategies, and has capacity to address additional questions rapidly during pandemic respiratory infections. As of January 2020, REMAP-CAP (Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia) was approved and enrolling patients in 52 intensive care units in 13 countries on 3 continents. In February, it transitioned into pandemic mode with several design adaptations for coronavirus disease 2019. Lessons learned from the design and conduct of this trial should aid in dissemination of similar platform initiatives in other disease areas.Clinical trial registered with www.clinicaltrials.gov (NCT02735707).

AB - There is broad interest in improved methods to generate robust evidence regarding best practice, especially in settings where patient conditions are heterogenous and require multiple concomitant therapies. Here, we present the rationale and design of a large, international trial that combines features of adaptive platform trials with pragmatic point-of-care trials to determine best treatment strategies for patients admitted to an intensive care unit with severe community-acquired pneumonia. The trial uses a novel design, entitled "a randomized embedded multifactorial adaptive platform." The design has five key features: 1) randomization, allowing robust causal inference; 2) embedding of study procedures into routine care processes, facilitating enrollment, trial efficiency, and generalizability; 3) a multifactorial statistical model comparing multiple interventions across multiple patient subgroups; 4) response-adaptive randomization with preferential assignment to those interventions that appear most favorable; and 5) a platform structured to permit continuous, potentially perpetual enrollment beyond the evaluation of the initial treatments. The trial randomizes patients to multiple interventions within four treatment domains: antibiotics, antiviral therapy for influenza, host immunomodulation with extended macrolide therapy, and alternative corticosteroid regimens, representing 240 treatment regimens. The trial generates estimates of superiority, inferiority, and equivalence between regimens on the primary outcome of 90-day mortality, stratified by presence or absence of concomitant shock and proven or suspected influenza infection. The trial will also compare ventilatory and oxygenation strategies, and has capacity to address additional questions rapidly during pandemic respiratory infections. As of January 2020, REMAP-CAP (Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia) was approved and enrolling patients in 52 intensive care units in 13 countries on 3 continents. In February, it transitioned into pandemic mode with several design adaptations for coronavirus disease 2019. Lessons learned from the design and conduct of this trial should aid in dissemination of similar platform initiatives in other disease areas.Clinical trial registered with www.clinicaltrials.gov (NCT02735707).

KW - Bayesian adaptive platform trial

KW - Community-acquired pneumonia

KW - Coronavirus disease 2019

KW - Master protocol

KW - Randomized clinical trial

KW - Pandemics

KW - Humans

KW - Community-Acquired Infections/therapy

KW - Pneumonia/therapy

KW - Evidence-Based Medicine

KW - COVID-19

KW - SARS-CoV-2

KW - Point-of-Care Systems

KW - Antiviral Agents/therapeutic use

KW - Betacoronavirus

KW - Pneumonia, Viral/therapy

KW - Influenza, Human/therapy

KW - Anti-Bacterial Agents/therapeutic use

KW - Coronavirus Infections/therapy

KW - master protocol

KW - randomized clinical trial

KW - community-acquired pneumonia

KW - coronavirus disease 2019

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DO - 10.1513/AnnalsATS.202003-192SD

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JO - Annals of the American Thoracic Society

JF - Annals of the American Thoracic Society

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The remap-cap (Randomized embedded multifactorial adaptive platform for community-acquired pneumonia) Study rationale and design: Rationale and Design

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