Your search keyword '"van Bentum-Puijk W"' showing total 18 results

1. A 5-day course of oral antibiotics followed by faecal transplantation to eradicate carriage of multidrug-resistant Enterobacteriaceae: a randomized clinical trial

Author

Colle, L., Kloosterman, F., van Bentum-Puijk, W., Vlooswijk, J., Andremont, A., Ben Hayoun, M., Canoui, E., Chabrol, A., Gamany, N., Lafaurie, M., Lefort, A., Lepeule, R., Louis, Z., Rondinaud, E., Sadou Yayé, H., Sarfati, L., Zarrouk, V., Brossier, C., Carrez, L., Lazarevic, V., Renzi, G., von Dach, E., Cohen Percia, S., Shvartz, R., Lellouche, J., Huttner, B.D., de Lastours, V., Wassenberg, M., Maharshak, N., Mauris, A., Galperine, T., Zanichelli, V., Kapel, N., Bellanger, A., Olearo, F., Duval, X., Armand-Lefevre, L., Carmeli, Y., Bonten, M., Fantin, B., and Harbarth, S.

Published

2019

2. Effect of angiotensin-converting enzyme inhibitor and angiotensin receptor blocker initiation on organ support–free days in patients hospitalized with COVID-19

Author

Writing Committee for the REMAP-CAP Investigators, Lawler, PR, Derde, LPG, Van de Veerdonk, FL, McVerry, BJ, Huang, DT, Berry, LR, Lorenzi, E, Van Kimmenade, R, Gommans, F, Vaduganathan, M, Leaf, DE, Baron, RM, Kim, EY, Frankfurter, C, Epelman, S, Kwan, Y, Grieve, R, O'Neill, S, Sadique, Z, Puskarich, M, Marshall, JC, Higgins, AM, Mouncey, PR, Rowan, KM, Al-Beidh, F, Annane, D, Arabi, YM, Au, C, Beane, A, Van Bentum-Puijk, W, Bonten, MJM, Bradbury, CA, Brunkhorst, FM, Burrell, A, Buzgau, A, Buxton, M, Cecconi, M, Cheng, AC, Cove, M, Detry, MA, Estcourt, LJ, Ezekowitz, J, Fitzgerald, M, Gattas, D, Godoy, LC, Goossens, H, Haniffa, R, Harrison, DA, Hills, T, Horvat, CM, Ichihara, N, Lamontagne, F, Linstrum, KM, McAuley, DF, McGlothlin, A, McGuinness, SP, McQuilten, Z, Murthy, S, Nichol, AD, Owen, DRJ, Parke, RL, Parker, JC, Pollock, KM, Reyes, LF, Saito, H, Santos, MS, Saunders, CT, Seymour, CW, Shankar-Hari, M, Singh, V, Turgeon, AF, Turner, AM, Zarychanski, R, Green, C, Lewis, RJ, Angus, DC, Berry, S, Gordon, AC, McArthur, CJ, and Webb, SA

Abstract

IMPORTANCE: Overactivation of the renin-angiotensin system (RAS) may contribute to poor clinical outcomes in patients with COVID-19. OBJECTIVE: To determine whether angiotensin-converting enzyme (ACE) inhibitor or angiotensin receptor blocker (ARB) initiation improves outcomes in patients hospitalized for COVID-19. DESIGN, SETTING, AND PARTICIPANTS: In an ongoing, adaptive platform randomized clinical trial, 721 critically ill and 58 non-critically ill hospitalized adults were randomized to receive an RAS inhibitor or control between March 16, 2021, and February 25, 2022, at 69 sites in 7 countries (final follow-up on June 1, 2022). INTERVENTIONS: Patients were randomized to receive open-label initiation of an ACE inhibitor (n = 257), ARB (n = 248), ARB in combination with DMX-200 (a chemokine receptor-2 inhibitor; n = 10), or no RAS inhibitor (control; n = 264) for up to 10 days. MAIN OUTCOMES AND MEASURES: The primary outcome was organ support-free days, a composite of hospital survival and days alive without cardiovascular or respiratory organ support through 21 days. The primary analysis was a bayesian cumulative logistic model. Odds ratios (ORs) greater than 1 represent improved outcomes. RESULTS: On February 25, 2022, enrollment was discontinued due to safety concerns. Among 679 critically ill patients with available primary outcome data, the median age was 56 years and 239 participants (35.2%) were women. Median (IQR) organ support-free days among critically ill patients was 10 (-1 to 16) in the ACE inhibitor group (n = 231), 8 (-1 to 17) in the ARB group (n = 217), and 12 (0 to 17) in the control group (n = 231) (median adjusted odds ratios of 0.77 [95% bayesian credible interval, 0.58-1.06] for improvement for ACE inhibitor and 0.76 [95% credible interval, 0.56-1.05] for ARB compared with control). The posterior probabilities that ACE inhibitors and ARBs worsened organ support-free days compared with control were 94.9% and 95.4%, respectively. Hospital survival occurred in 166 of 231 critically ill participants (71.9%) in the ACE inhibitor group, 152 of 217 (70.0%) in the ARB group, and 182 of 231 (78.8%) in the control group (posterior probabilities that ACE inhibitor and ARB worsened hospital survival compared with control were 95.3% and 98.1%, respectively). CONCLUSIONS AND RELEVANCE: In this trial, among critically ill adults with COVID-19, initiation of an ACE inhibitor or ARB did not improve, and likely worsened, clinical outcomes. TRIAL REGISTRATION: ClinicalTrials.gov Identifier: NCT02735707.

Published

2023

3. Heterogeneous treatment effects of therapeutic-dose heparin in patients hospitalized for COVID-19

Author

Goligher, EC, Lawler, PR, Jensen, TP, Talisa, V, Berry, LR, Lorenzi, E, McVerry, BJ, Chang, C-CH, Leifer, E, Bradbury, C, Berger, J, Hunt, BJ, Castellucci, LA, Kornblith, LZ, Gordon, AC, McArthur, C, Webb, S, Hochman, J, Neal, MD, Zarychanski, R, Berry, S, Angus, DC, Aday, A, Ahuja, T, Al-Beidh, F, Annane, D, Arabi, YM, Aryal, D, Baumann Kreuziger, L, Beane, A, Berger, JS, Berry, SM, Bhimani, Z, Bihari, S, Billett, HH, Bond, L, Bonten, M, Bradbury, CA, Brooks, MM, Brunkhorst, F, Buxton, M, Buzgau, A, Carrier, M, Castelucci, LA, Chekuri, S, Chen, J-T, Cheng, AC, Chkhikvadze, T, Coiffard, B, Contreras, A, Costantini, TW, Cushman, M, De Brouwer, S, Derde, LPG, Detry, MA, Duggal, A, Džavík, V, Effron, MB, Eng, HF, Escobedo, J, Estcourt, LJ, Everett, BM, Farkough, ME, Fergusson, DA, Fitzgerald, M, Fowler, RA, Froess, JD, Fu, Z, Galanaud, J-P, Galen, BT, Gandotra, S, Girard, TD, Godoy, LD, Gong, MN, Goodman, AL, Goossens, H, Green, C, Greenstein, YY, Gross, PL, Guerrero, RM, Hamburg, N, Haniffa, R, Hanna, G, Hanna, N, Hedge, SM, Hendrickson, CM, Higgins, AM, Hindenburg, AA, Hite, RD, Hochman, JS, Hope, AA, Horowitz, JM, Horvat, CM, Houston, BL, Huang, DT, Hudock, K, Husain, M, Hyzy, RC, Iyer, V, Jacobson, JR, Jayakumar, D, Kahn, SR, Keller, NM, Khan, A, Kim, Y, Kim, KS, Kindzelski, A, King, AJ, Kirwan, B-A, Knudson, MM, Kornblith, AE, Krishnan, V, Kumar, A, Kutcher, ME, Laffan, MA, Lamontagne, F, Le Gal, G, Leeper, CM, Leifer, ES, Lewis, RJ, Lim, G, Lima, FG, Linstrum, K, Litton, E, Lopez-Sendon, J, Lopez-Sendon Moreno, JL, Lother, SA, Madrona, SG, Malhotra, S, Marcos Martin, M, Marshall, JC, Marten, N, Martinez, AS, Martinez, M, Mateos Garcia, E, Matthay, MA, Mavromichalis, S, McArthur, CJ, McAuley, DF, McDonald, EG, McGlothlin, A, McGuinness, SP, McQuilten, ZK, Middeldorp, S, Montgomery, SK, Moore, SC, Mouncey, PR, Murthy, S, Nair, GB, Nair, R, Nichol, AD, Nicolau, JC, Nunez-Garcia, B, Pandey, A, Park, JJ, Park, PK, Parke, RL, Parker, JC, Parnia, S, Paul, JD, Pompilio, M, Prekker, M, Quigley, JG, Reynolds, HR, Rosenson, RS, Rost, NS, Rowan, K, Santos, MO, Santos, FO, Santos, M, Satterwhite, L, Saunders, CT, Schreiber, J, Schutgens, REG, Seymour, CW, Shankar Hari, M, Sheehan, JP, Siegal, DM, Silva Jr., DG, Singhal, AB, Slutsky, AS, Solvason, D, Stanworth, SJ, Tritschler, T, Turgeon, AF, Turner, AM, Van Bentum-Puijk, W, Van de Veerdonk, FL, Van Diepen, S, Vazquez Grande, G, Wahid, L, Wareham, V, Webb, SA, Wells, B, Widmer, RJ, Wilson, JG, Yuriditsky, E, Zampieri, F, and Zhong, Y

Abstract

Importance Randomized clinical trials (RCTs) of therapeutic-dose heparin in patients hospitalized with COVID-19 produced conflicting results, possibly due to heterogeneity of treatment effect (HTE) across individuals. Better understanding of HTE could facilitate individualized clinical decision-making. Objective To evaluate HTE of therapeutic-dose heparin for patients hospitalized for COVID-19 and to compare approaches to assessing HTE. Design, Setting, and Participants Exploratory analysis of a multiplatform adaptive RCT of therapeutic-dose heparin vs usual care pharmacologic thromboprophylaxis in 3320 patients hospitalized for COVID-19 enrolled in North America, South America, Europe, Asia, and Australia between April 2020 and January 2021. Heterogeneity of treatment effect was assessed 3 ways: using (1) conventional subgroup analyses of baseline characteristics, (2) a multivariable outcome prediction model (risk-based approach), and (3) a multivariable causal forest model (effect-based approach). Analyses primarily used bayesian statistics, consistent with the original trial. Exposures Participants were randomized to therapeutic-dose heparin or usual care pharmacologic thromboprophylaxis. Main Outcomes and Measures Organ support–free days, assigning a value of −1 to those who died in the hospital and the number of days free of cardiovascular or respiratory organ support up to day 21 for those who survived to hospital discharge; and hospital survival. Results Baseline demographic characteristics were similar between patients randomized to therapeutic-dose heparin or usual care (median age, 60 years; 38% female; 32% known non-White race; 45% Hispanic). In the overall multiplatform RCT population, therapeutic-dose heparin was not associated with an increase in organ support–free days (median value for the posterior distribution of the OR, 1.05; 95% credible interval, 0.91-1.22). In conventional subgroup analyses, the effect of therapeutic-dose heparin on organ support–free days differed between patients requiring organ support at baseline or not (median OR, 0.85 vs 1.30; posterior probability of difference in OR, 99.8%), between females and males (median OR, 0.87 vs 1.16; posterior probability of difference in OR, 96.4%), and between patients with lower body mass index (BMI 90% for all comparisons). In risk-based analysis, patients at lowest risk of poor outcome had the highest propensity for benefit from heparin (lowest risk decile: posterior probability of OR >1, 92%) while those at highest risk were most likely to be harmed (highest risk decile: posterior probability of OR

Published

2023

4. Long-term (180-day) outcomes in critically ill patients with COVID-19 in the REMAP-CAP randomized clinical trial

Author

Florescu, S, Stanciu, D, Zaharia, M, Kosa, A, Codreanu, D, Kidwai, A, Masood, S, Kaye, C, Coutts, A, MacKay, L, Summers, C, Polgarova, P, Farahi, N, Fox, E, McWilliam, S, Hawcutt, D, Rad, L, O’Malley, L, Whitbread, J, Jones, D, Dore, R, Saunderson, P, Kelsall, O, Cowley, N, Wild, L, Thrush, J, Wood, H, Austin, K, Bélteczki, J, Magyar, I, Fazekas, Á, Kovács, S, Szőke, V, Donnelly, A, Kelly, M, Smyth, N, O’Kane, S, McClintock, D, Warnock, M, Campbell, R, McCallion, E, Azaiz, A, Charron, C, Godement, M, Geri, G, Vieillard-Baron, A, Johnson, P, McKenna, S, Hanley, J, Currie, A, Allen, B, McGoldrick, C, McMaster, M, Mani, A, Mathew, M, Kandeepan, R, Vignesh, C, TV, B, Ramakrishnan, N, James, A, Elvira, E, Jayakumar, D, Pratheema, R, Babu, S, Ebenezer, R, Krishnaoorthy, S, Ranganathan, L, Ganesan, M, Shree, M, Guilder, E, Butler, M, Cowdrey, K-A, Robertson, M, Ali, F, McMahon, E, Duffy, E, Chen, Y, Simmonds, C, McConnochie, R, O’Connor, C, El-Khawas, K, Richardson, A, Hill, D, Commons, R, Abdelkharim, H, Saxena, M, Muteithia, M, Dobell-Brown, K, Jha, R, Kalogirou, M, Ellis, C, Krishnamurthy, V, O’Connor, A, Thurairatnam, S, Mukherjee, D, Kaliappan, A, Vertue, M, Nicholson, A, Riches, J, Maloney, G, Kittridge, L, Solesbury, A, Ramos, A, Collins, D, Brickell, K, Reid, L, Smyth, M, Breen, P, Spain, S, Curley, G, McEvoy, N, Geoghegan, P, Clarke, J, Silversides, J, McGuigan, P, Ward, K, O’Neill, A, Finn, S, Wright, C, Green, J, Collins, É, Knott, C, Smith, J, Boschert, C, Slieker, K, Ewalds, E, Sanders, A, Wittenberg, W, Geurts, H, Poojara, L, Sara, T, Nand, K, Reeve, B, Dechert, W, Phillips, B, Oritz-Ruiz de Gordoa, L, Affleck, J, Shaikh, A, Murray, A, Ramanan, M, Frakking, T, Pinnell, J, Robinson, M, Gledhill, L, Wood, T, Sanghavi, R, Bhonagiri, D, Ford, M, Parikh, HG, Avard, B, Nourse, M, McDonald, B, Edmunds, N, Hoiting, O, Peters, M, Rengers, E, Evers, M, Prinssen, A, Morgan, M, Cole, J, Hill, H, Davies, M, Williams, A, Thomas, E, Davies, R, Wise, M, Grimm, P, Soukup, J, Wetzold, R, Löbel, M, Starke, L, Lellouche, F, Lizotte, P, Declerq, P, Antoine, M, Stephanie, G, Jean-Pierre, E, François, B, Marion, B, Philippe, R, Pourcine, F, Monchi, M, Luis, D, Mercier, R, Sagnier, A, Verrier, N, Caplin, C, Richecoeu, J, Combaux, D, Siami, S, Aparicio, C, Vautier, S, Jeblaoui, A, Lemaire-Brunel, D, D'Aragon, F, Carbonneau, E, Leblond, J, Plantefeve, G, Leparco, C, Contou, D, Fartoukh, M, Courtin, L, Labbe, V, Voiriot, G, Salhi, S, Chassé, M, Carrier, F, Boumahni, D, Benettaib, F, Ghamraoui, A, Sement, A, Gachet, A, Hanisch, A, Haffiane, A, Boivin, A-H, Barreau, A, Guerineau, E, Poupblanc, S, Egreteau, P, Lefevre, M, Bocher, S, Le Loup, G, Le Guen, L, Carn, V, Bertel, M, Antcliffe, D, Templeton, M, Rojo, R, Coghlan, P, Smee, J, Barker, G, Finn, A, Kreb, G, Hoff, U, Hinrichs, C, Nee, J, Mackay, E, Cort, J, Whileman, A, Spencer, T, Spittle, N, Beavis, S, Padmakumar, A, Dale, K, Hawes, J, Moakes, E, Gascoyne, R, Pritchard, K, Stevenson, L, Cooke, J, Nemeth-Roszpopa, K, Gauli, B, Bastola, S, Muller, G, Nay, M-A, Kamel, T, Benzekri, D, Jacquier, S, Runge, I, Mathonnet, A, Barbier, F, Bretagnol, A, Carter, J, Van Der Heyden, K, Mehrtens, J, Morris, A, Morgan, S, Burke, T, Mercier, E, Chartier, D, Salmon, C, Dequin, P-F, Garot, D, Bellemare, D, Cloutier, È, Daher, R, Costerousse, O, Boulanger, M-C, Couillard-Chénard, É, Lauzier, F, Francoeur, C, Francois, B, Gay, A, Anne-Laure, F, Ramali, M, HC, O, Ghosh, A, Osagie, R, Arachchige, M, Hartley, M, Cheung, W, Wong, H, Seigne, P, Eustace, J, O'Callaghan, A-M, O'Brien, F, Bamford, P, Reid, A, Cawley, K, Faulkner, M, Pickering, C, Raj, A, Tsinaslanidis, G, Khade, R, Agha, G, Sekiwala, R, Smith, T, Brewer, C, Gregory, J, Limb, J, Cowton, A, O’Brien, J, Postlethwaite, K, Malakouti, S, Music, E, Ricketts, D, King, A, Clermont, G, Bart, R, Mayr, F, Schoenling, A, Andreae, M, Shetty, V, Brant, E, Malley, B, Donadee, C, Sackrowitz, R, Weissman, A, Yealy, D, Barton, D, Talia, N, Nikitas, N, Wells, C, Lankester, L, McMillan, H, Van den Oever, H, Kruisdijk-Gerritsen, A, Haidar, G, Bain, W, Barbash, I, Fitzpatrick, M, Franz, C, Kitsios, G, Moghbeli, K, Rosborough, B, Shah, F, Suber, T, Pulletz, M, Williams, P, Birch, J, Wiseman, S, Horton, S, Alegria, A, Turki, S, Elsefi, T, Crisp, N, Allen, L, Truman, N, Smith, M, Chukkambotla, S, Goddard, W, Duberley, S, Khan, M, Kazi, A, Simpson, J, Duke, G, Chan, P, Carter, B, Hunter, S, Voigt, I, Schueler, R, Blank, E, Hüning, V, Steffen, M, Goralski, P, Litton, E, Regli, A, Pellicano, S, Palermo, A, Eroglu, E, Bihari, S, Laver, RD, Jin, X, Brown, J, McIntyre, J, French, C, Bates, S, Towns, M, Yang, Y, McGain, F, McCullagh, I, Cairns, T, Hanson, H, Patel, B, Clement, I, Evetts, G, Touma, O, Holland, S, Hodge, C, Taylor, H, Alderman, M, Barnes, N, Da Rocha, J, Smith, C, Brooks, N, Weerasinghe, T, Sinclair, J-A, Abusamra, Y, Doherty, R, Cudlipp, J, Singh, R, Yu, H, Daebis, A, Ng, C, Kendrick, S, Saran, A, Makky, A, Greener, D, Rowe-Leete, L, Edwards, A, Bland, Y, Dolman, R, Foster, T, Laffey, J, McNicholas, B, Scully, M, Casey, S, Kernan, M, Brennan, A, Rangan, R, Tully, R, Corbett, S, McCarthy, A, Duffy, O, Burke, D, Linnett, V, Sanderson, A, Ritzema, J, Wild, H, Lucas, R, Marriott, Y, Andric, Z, Cviljevic, S, Br, R, Zapalac, M, Mirković, G, Khare, D, Pinder, M, Gopinath, A, Kannan, T, Dean, S, Vanmali, P, Depuydt, P, De Waele, J, De Bus, L, Fierens, J, Bracke, S, Vermassen, J, Vermeiren, D, Pugh, R, Lean, R, Qiu, X, Scanlan, J, Evans, A, Davies, G, Lewis, J, Plesnikova, Y, Khoud, A, Coetzee, S, Puxty, K, Cathcart, S, Rimmer, D, Bagot, C, Scott, K, Martin, L, Yusuff, H, Isgro, G, Brightling, C, Bourne, M, Craner, M, Boyles, R, Alexander, B, Roberts, T, Nelli, A, Rosenstein-Sisson, R, Speyer, R, Pech, Y, McCullough, J, Tallott, M, Vazquez-Grande, G, Marten, N, Liu, T, Siddiqui, A, Khanal, S, Amatya, S, Szakmany, T, Cherian, S, Williams, G, James, C, Waters, A, Prout, R, Stedman, R, Davies, L, Pegler, S, Kyeremeh, L, Moorhouse, L, Arbane, G, Marotti, M, Bociek, A, Campos, S, Van Nieuwkoop, K, Ottens, T, Visser, Y, Van den Berg, L, Van der Kraan-Donker, A, Brett, S, Arias, S, Hall, R, Paneru, H, Koirala, S, Paudel, P, Wilson, M, Vaara, S, Pettilä, L, Heinonen, J, Pettilä, V, Jain, S, Gupta, A, Holbrook, C, Antoine, P, Meziani, F, Allam, H, Cattelan, J, Clere-Jehl, R, Helms, J, Kummerlen, C, Merdji, H, Monnier, A, Rahmani, H, Studer, A, Schneider, F, Castelain, V, Morel, G, L’Hotellier, S, Ochin, E, Vanjak, C, Rouge, P, Bendjemar, L, Albert, M, Serri, K, Cavayas, A, Duplaix, M, Williams, V, Catorze, NJTADS, Pereira, TNAL, Ferreira, RMC, Bastos, JMPS, Batista, TMO, Badie, J, Berdaguer, F, Malfroy, S, Mezher, C, Bourgoin, C, Moneger, G, Bouvier, E, Muñoz-Bermúdez, R, Marin-Corral, J, Degracia, A, Gómez, F, López, M, Aceto, R, Aghemo, A, Badalamenti, S, Brunetta, E, Cecconi, M, Ciccarelli, M, Constantini, E, Greco, M, Folci, M, Selmi, C, Voza, A, Henning, J, Bonner, S, Hugill, K, Cirstea, E, Wilkinson, D, Jones, J, Altomy, M, Karlikowski, M, Sutherland, H, Wilhelmsen, E, Woods, J, North, J, Pletz, M, Hagel, S, Ankert, J, Kolanos, S, Bloos, F, Simons, K, Van Zuylen, T, Bouman, A, Kumar, N, Panwar, R, Poulter, A-L, Sunkara, K, Szigligeti, G, Leszkoven, J, Rochwerg, B, Karachi, T, Oczkowski, S, Centofanti, J, Millen, T, Sundaran, D, Hollos, L, Turns, M, Walsh, J, Al Qasim, E, Alswaidan, L, Hegazy, M, Arishi, H, Al Amri, A, AlQahtani, S, Naidu, B, Tlayjeh, H, Hussain, S, Al Enezi, F, Abdukahil, SA, Hopkins, P, Noble, H, O’Reilly, K, Mehta, R, Wong, O, Makanju, E, Rao, D, Sikondari, N, Saha, S, Corcoran, E, Pappa, E, Cockrell, M, Donegan, C, Balaie, M, Nickoleit-Bitzenberger, D, Schaaf, B, Meermeier, W, Prebeg, K, Azzaui, H, Hower, M, Brieger, K-G, Elender, C, Sabelhaus, T, Riepe, A, Akamp, C, Kremling, J, Klein, D, Landsiedel-Mechenbier, E, Laha, S, Verlander, M, Jha, A, Megarbane, B, Voicu, S, Deye, N, Malissin, I, Sutterlin, L, Mrad, A, Lehalleur, A, Naim, G, Nguyen, P, Ekhérian, J-M, Boué, Y, Sidéris, G, Vodovar, D, Guérin, E, Grant, C, Brain, M, Mineall, S, Paramasivam, E, Wilby, E, Ogg, B, Howcroft, C, Aspinwall, A, Charlton, S, Gould, R, Mistry, D, Awan, S, Bedford, C, Carr-Wilkinson, J, Hall, A, Gardiner-Hill, C, Maloney, C, Brunskill, N, Watchorn, O, Hardy, C, Qureshi, H, Flint, N, Nicholson, S, Southin, S, Ghattaoraya, A, Harding, D, O’Halloran, S, Collins, A, Smith, E, Trues, E, Borgatta, B, Turner-Bone, I, Reddy, A, Wilding, L, Wilson, C, Surti, Z, Aneman, A, Miller, J, White, H, Estensen, K, Morrison, L, Sutton, J, Cooper, M, Warnapura, L, Agno, R, Sathianathan, P, Shaw, D, Ijaz, N, Spong, A, Sabaretnam, S, Burns, D, Lang, E, Tate, M, Fischer, R, Biradar, V, Soar, N, Golden, D, Davey, M, Seaman, R, Osborne, A, Bannard-Smith, J, Clark, R, Birchall, K, Henry, J, Pomeroy, F, Quayle, R, Wylie, K, Sukuraman, A, John, M, Sibin, S, Leditschke, A, Finnis, M, Jongebloed, K, Khwaja, K, Campisi, J, Van Vonderen, M, Pietersma, M, Vrolijk, L, Kampschreur, L, Van Gulik, L, Makowski, A, Misztal, B, Haider, S, Liao, A, Squires, R, Oborska, A, Kayani, A, Kalchko-Veyssal, S, Prabakaran, R, Hadebe, B, KalchkoVeyssal, S, Williams, T, Song, R, Morpeth, S, Lai, V, Habraken, H, Stewart, R, Mwaura, E, Mew, L, Wren, L, Willams, F, Sutherland, S-B, Rebello, R, Shehabi, Y, Al-Bassam, W, Hulley, A, Kadam, U, Sathianathan, K, Innes, R, Doble, P, Graham, L, Shovelton, C, Dean, T, Salahuddin, N, Aryal, D, Koirala, K, Rai, N, Luitel, S, Seppelt, I, Whitehead, C, Lowrey, J, Gresham, R, Masters, K, Hamlyn, V, Hawkins, N, Roynon-Reed, A, Cutler, S, Lewis, S, Lazaro, J, Newman, T, Aravindan, L, Asghar, A, Bartholomew, J, Bayne, M, Beddows, S, Birch, C, Brend, M, Byrne, R, Campbell, D, Campbell, H, Chambers, E, Clinton, A, Collins, J, Crawshaw, S, Dawson, LA, Donaldson, K, Drake, C, Dyas, S, Ellis, Y, Gilmour, K, Goodwin, J, Halden, S, Hall, AS, Hanson, J, Harper, H, Harrison, S, Hayes, A, Hodgson, H, Hurford, S-A, Jackson, S, Levett, C, Lock, S, Lockett, T, Logan, M, Lomme, K, Luo, J, Marsh, E, Mguni, N, Monaghan, H, Murphy, S, Muzengi, N, Naz, M, O'Kell, E, Oliver, A, O'Reilly, J, Pearson, K, Porter, D, Potter, A, Rook, C, Rounds, C, Sheffield, J, Shirley, K, Siewersk, C, Skinner, T, Speight, H, Sutu, M, Unsworth, A, Van’t Hoff, W, Walker, S, Williams, H, Williamson, D, Williamson, JD, Duan, E, Tsang, J, Patterson, L, Austin, P, Chapman, S, Cabrelli, L, Fletcher, S, Nortje, J, Fottrell-Gould, D, Randell, G, Stammers, K, Healey, G, Pinto, M, Borrill, Z, Duncan, T, Ustianowski, A, Uriel, A, Eltayeb, A, Alfonso, J, Hey, S, Shaw, J, Fox, C, Lindergard, G, Charles, B, Blackledge, B, Connolly, K, Harris, J, Cuesta, J, Xavier, K, Purohit, D, Elhassan, M, Haldeos, A, Vincent, R, Abdelrazik, M, Jenkins, S, Ganesan, A, Kumar, R, Carter, D, Bakthavatsalam, D, Frater, A, Saleem, M, Everitt, R, Hacking, D, Zaman, M, Elmahi, E, Jones, A, Hall, K, Phillips, M, Terrill, L, Mills, G, Raithatha, A, Bauchmuller, K, Ryalls, K, Harrington, K, Bowler, H, Sall, J, 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McIntyre, L, Brady, K, Vale, C, Shekar, K, Lavana, J, Parmar, D, Peake, S, Kurenda, C, Hormis, A, Walker, R, Collier, D, Kimpton, S, Oakley, S, Bhagani, S, De Neef, M, Garcia, S, Maharajh, A, Nandani, A, Dobson, J, Fernando, G, Eastgate, C, Gomez, K, Abdi, Z, Tatham, K, Jhanji, S, Black, E, Dela Rosa, A, Howle, R, Baikady, R, Drummond, A, Dearden, J, Philbin, J, Munt, S, Gopal, S, Pooni, J-S, Ganguly, S, Smallwood, A, Metherell, S, Naeem, A, Fagan, L, Ryan, E, Mariappa, V, Foulds, A, Revill, A, Bhattarai, B, De Jonge, E, Wigbers, J, Del Prado, M, Cremer, O, Mulier, J, Peters, A, Romberg, B, Schutgens, R, Troeman, D, Van Opdorp, M, Besten, H, Brakké, K, Barber, R, Hilldrith, A, Kluge, S, Nierhaus, A, Jarczak, D, Roedl, K, Kochanek, M, Rueß-Paterno, G, Mc-Kenzie, J, Eichenauer, D, Shimabukuro-Vornhagen, A, Wilcox, E, Del Sorbo, L, Abdelhady, H, Romagnuolo, T, Simpson, S, Maiden, M, Horton, M, Trickey, J, Krajinovic, V, Kutleša, M, Kotarski, V, Brohi, F, Jagannathan, V, Clark, M, Purvis, S, Wetherill, B, Brajković, A, Babel, J, Sever, H, Dragija, L, Kušan, I, Dushianthan, A, Cusack, R, De Courcy-Golder, K, Salmon, K, Burnish, R, Smith, S, Ruiz, W, Duke, Z, Johns, M, Male, M, Gladas, K, Virdee, S, Swabe, J, Tomlinson, H, Rohde, G, Grünewaldt, A, Bojunga, J, Petros, S, Kunz, K, Schütze, B, Weismann, D, Frey, A, Drayss, M, Goebeler, ME, Flor, T, Fragner, G, Wahl, N, Totzke, J, Sayehli, C, Hakak, S, Altaf, W, O'Sullivan, M, Murphy, A, Walsh, L, Rega La Valle, A, Bewley, J, Sweet, K, Grimmer, L, Johnson, R, Wyatt, R, Morgan, K, Varghese, S, Willis, J, Stratton, E, Kyle, L, Putensen, D, Drury, K, Skorko, A, Bremmer, P, Ward, G, Bassford, C, Sligl, W, Baig, N, Rewa, O, Bagshaw, S, Basile, K, Stavor, D, Burbee, D, McNamara, A, Wunderley, R, Bensen, N, Adams, P, Vita, T, Buhay, M, Scholl, D, Gilliam, M, Winters, J, Doherty, K, Berryman, E, Ghaffari, M, Marroquin, O, Quinn, K, Garrard, W, Kalchthaler, K, Beard, G, Skrtich, A, Bagavathy, K, Drapola, D, Bryan-Morris, K, Arnold, J, Reynolds, B, Hussain, M, Dunsavage, J, Saiyed, S, Hernandez, E, Goldman, J, Brown, C, Comp, S, Raczek, J, Morris, J, Vargas Jr., J, Weiss, D, Hensley, J, Kochert, E, Wnuk, C, Nemeth, C, Mowery, B, Hutchinson, C, Winters, L, McAdams, D, Walker, G, Minnier, T, Wisniewski, M, Mayak, K, McCreary, E, Bariola, R, Viehman, A, Daley, J, Lopus, A, Schmidhofer, M, Ambrosino, R, Keen, S, Toffalo, S, Stambaugh, M, Trimmer, K, Perri, R, Casali, S, Medva, R, Massar, B, Beyerl, A, Burkey, J, Keeler, S, Lowery, M, Oncea, L, Daugherty, J, Sevilla, C, Woelke, A, Dice, J, Weber, L, Roth, J, Ferringer, C, Beer, D, Fesz, J, Carpio, L, Colin, G, Zinzoni, V, Maquigneau, N, Henri-Lagarrigue, M, Pouplet, C, Reill, L, Distler, M, Maselli, A, Martynoga, R, Trask, K, Butler, A, Attwood, B, Parsons, P, Campbell, B, Smith, A, Page, V, Zhao, X, Oza, D, Abrahamson, G, Sheath, B, Young, P, Young, C, Lesona, E, Navarra, L, Cruz, R, Delaney, K, Aguilar-Dano, A, Gojanovic, M, Rhodes, J, Anderson, T, Morris, S, Nayyar, V, 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Scheepstra-Beukers, I, Schreuder, G, Smit, A, Brillinger, N, Markgraf, R, Eichinger, F, Doran, P, Anjum, A, Best-Lane, J, Barton, F, Miller, L, Richards-Belle, A, Saull, M, Sprinckmoller, S, Wiley, D, Darnell, R, Au, C, Lindstrum, K, Cheng, A, Forbes, A, Heritier, S, Trapani, T, Cuthbertson, B, Manoharan, V, Dondrop, A, Tolppa, T, Ehrmann, S, Hullegie, S, Povoa, P, Beasley, R, Daneman, N, McGloughlin, S, Paterson, D, Venkatesh, B, De Jong, M, Uyeki, T, Baillie, K, Netea, M, Orr, K, Patanwala, A, Tong, S, Cooper, N, Galea, J, Leavis, H, Ogungbenro, K, Patawala, A, Rademaker, E, Youngstein, T, Carrier, M, Fergusson, D, Hunt, B, Kumar, A, Laffan, M, Lother, S, Middeldorp, S, Stanworth, S, De Man, A, Masse, M-H, Abraham, J, Arnold, D, Begin, P, Charlewood, R, Chasse, M, Coyne, M, Daly, J, Gosbell, I, Harvala-Simmonds, H, MacLennan, S, McDyer, J, Menon, D, Pridee, N, Roberts, D, Thomas, H, Tinmouth, A, Triulzi, D, Walsh, T, Wood, E, Calfee, C, O’Kane, C, Shyamsundar, M, Sinha, P, Thompson, T, Young, I, Burrell, A, Ferguson, N, Hodgson, C, Orford, N, Phua, J, Baron, R, Epelman, S, Frankfurter, C, Gommans, F, Kim, E, Leaf, D, Vaduganathan, M, Van Kimmenade, R, Sanil, A, Van Beurden, M, Effelaar, E, Schotsman, J, Boyd, C, Harland, C, Shearer, A, Wren, J, Attanayaka, U, Darshana, S, Ishani, P, Udayanga, I, Higgins, AM, Berry, LR, Lorenzi, E, Murthy, S, McQuilten, Z, Mouncey, PR, Al-Beidh, F, Annane, D, Arabi, YM, Beane, A, Van Bentum-Puijk, W, Bhimani, Z, Bonten, MJM, Bradbury, CA, Brunkhorst, FM, Buzgau, A, Buxton, M, Charles, WN, Cove, M, Detry, MA, Estcourt, LJ, Fagbodun, EO, Fitzgerald, M, Girard, TD, Goligher, EC, Goossens, H, Haniffa, R, Hills, T, Horvat, CM, Huang, DT, Ichihara, N, Lamontagne, F, Marshall, JC, McAuley, DF, McGlothlin, A, McGuinness, SP, McVerry, BJ, Neal, MD, Nichol, AD, Parke, RL, Parker, JC, Parry-Billings, K, Peters, SEC, Reyes, LF, Rowan, KM, Saito, H, Santos, MS, Saunders, CT, Serpa-Neto, A, Seymour, CW, Shankar-Hari, M, Stronach, LM, Turgeon, AF, Turner, AM, Van de Veerdonk, FL, Zarychanski, R, Green, C, Lewis, RJ, Angus, DC, McArthur, CJ, Berry, S, Derde, LPG, Gordon, AC, Webb, SA, Lawler, PR, Comm REMAP-CAP Investigators, Apollo - University of Cambridge Repository, Intensive Care Medicine, Université de Versailles Saint-Quentin-en-Yvelines - UFR Sciences de la santé Simone Veil (UVSQ Santé), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Hôpital Raymond Poincaré [Garches], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Pittsburgh Foundation, PF, Amgen, Health Research Board, HRB: CTN 2014-012, Horizon 2020 Framework Programme, H2020: 101003589, Translational Breast Cancer Research Consortium, TBCRC, Canadian Institutes of Health Research, IRSC: 158584, Heart and Stroke Foundation of Canada, HSF, National Institute for Health and Care Research, NIHR, European Commission, EC, National Health and Medical Research Council, NHMRC: 1101719, APP194811, CS-2016-16-011, GNT2008447, RP-2015-06-18, Office of Health and Medical Research, OHMR, Health Research Council of New Zealand, HRC: 16/631, Eisai, Ministère des Affaires Sociales et de la Santé: PHRC-20-0147, Université Pierre et Marie Curie, UPMC, NIHR Imperial Biomedical Research Centre, BRC, Minderoo Foundation, Funding/Support : The Platform for European Preparedness Against (Re-) emerging Epidemics (PREPARE) consortium by the European Union, FP7-HEALTH-2013-INNOVATION-1 (#602525), the Rapid European COVID-19 Emergency Research response (RECOVER) consortium by the European Union’s Horizon 2020 research and innovation programme (#101003589), the Australian National Health and Medical Research Council (#APP1101719), the Australian Medical Research Future Fund (#APP2002132), the Health Research Council of New Zealand (#16/631), the Canadian Institutes of Health Research Strategy for Patient-Oriented Research Innovative Clinical Trials Program Grant (#158584) and the Canadian Institute of Health Research COVID-19 Rapid Research Funding (#447335), the UK National Institute for Health Research (NIHR) and the NIHR Imperial Biomedical Research Centre, the Health Research Board of Ireland (CTN 2014-012), the UPMC Learning While Doing Program, the Translational Breast Cancer Research Consortium, the French Ministry of Health (PHRC-20-0147), the Wellcome Trust Innovations Project (215522), the Minderoo Foundation, the EU Programme Emergency Support Instrument, the NHS Blood and Transplant Research and Development Programme, the Translational Breast Cancer Research Consortium, the NSW Office of Health and Medical Research, Amgen, Eisai, and the Pittsburgh Foundation. Dr Higgins is funded by an NHMRC Emerging Leadership Fellowship (GNT2008447). Dr McQuilten is funded by an NHMRC Emerging Leadership Fellowship (APP194811). Dr Gordon is funded by an NIHR Research Professorship (RP-2015-06-18) and Dr Shankar-Hari by an NIHR Clinician Scientist Fellowship (CS-2016-16-011). Dr Turgeon is the Chairholder of the Canada Research Chair in Critical Care Neurology and Trauma. Dr Lawler is supported by a career award from the Heart and Stroke Foundation of Canada., and European Project: 602525,EC:FP7:HEALTH,FP7-HEALTH-2013-INNOVATION-1,PREPARE(2014)

Subjects

Adult, Male, corticosteroid, [SDV]Life Sciences [q-bio], Critical Illness, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], antiplatelet, Lopinavir, Adaptive platform trial randomized controlled trial intensive care, pneumonia COVID-19 antiplatelet immunoglobulin antiviral corticosteroid immune modulation anticoagulation, All institutes and research themes of the Radboud University Medical Center, Adrenal Cortex Hormones, Humans, anticoagulation, intensive care, pneumonia, COVID-19 Serotherapy, Original Investigation, Medicine(all), immune modulation, Ritonavir, SARS-CoV-2, COVID-19, Anticoagulants, Bayes Theorem, General Medicine, Middle Aged, antiviral, Receptors, Interleukin-6, Adaptive platform trial, randomized controlled trial, Female, Human medicine, immunoglobulin, Follow-Up Studies, Hydroxychloroquine

Abstract

ImportanceThe longer-term effects of therapies for the treatment of critically ill patients with COVID-19 are unknown.ObjectiveTo determine the effect of multiple interventions for critically ill adults with COVID-19 on longer-term outcomes.Design, Setting, and ParticipantsPrespecified secondary analysis of an ongoing adaptive platform trial (REMAP-CAP) testing interventions within multiple therapeutic domains in which 4869 critically ill adult patients with COVID-19 were enrolled between March 9, 2020, and June 22, 2021, from 197 sites in 14 countries. The final 180-day follow-up was completed on March 2, 2022.InterventionsPatients were randomized to receive 1 or more interventions within 6 treatment domains: immune modulators (n = 2274), convalescent plasma (n = 2011), antiplatelet therapy (n = 1557), anticoagulation (n = 1033), antivirals (n = 726), and corticosteroids (n = 401).Main Outcomes and MeasuresThe main outcome was survival through day 180, analyzed using a bayesian piecewise exponential model. A hazard ratio (HR) less than 1 represented improved survival (superiority), while an HR greater than 1 represented worsened survival (harm); futility was represented by a relative improvement less than 20% in outcome, shown by an HR greater than 0.83.ResultsAmong 4869 randomized patients (mean age, 59.3 years; 1537 [32.1%] women), 4107 (84.3%) had known vital status and 2590 (63.1%) were alive at day 180. IL-6 receptor antagonists had a greater than 99.9% probability of improving 6-month survival (adjusted HR, 0.74 [95% credible interval {CrI}, 0.61-0.90]) and antiplatelet agents had a 95% probability of improving 6-month survival (adjusted HR, 0.85 [95% CrI, 0.71-1.03]) compared with the control, while the probability of trial-defined statistical futility (HR >0.83) was high for therapeutic anticoagulation (99.9%; HR, 1.13 [95% CrI, 0.93-1.42]), convalescent plasma (99.2%; HR, 0.99 [95% CrI, 0.86-1.14]), and lopinavir-ritonavir (96.6%; HR, 1.06 [95% CrI, 0.82-1.38]) and the probabilities of harm from hydroxychloroquine (96.9%; HR, 1.51 [95% CrI, 0.98-2.29]) and the combination of lopinavir-ritonavir and hydroxychloroquine (96.8%; HR, 1.61 [95% CrI, 0.97-2.67]) were high. The corticosteroid domain was stopped early prior to reaching a predefined statistical trigger; there was a 57.1% to 61.6% probability of improving 6-month survival across varying hydrocortisone dosing strategies.Conclusions and RelevanceAmong critically ill patients with COVID-19 randomized to receive 1 or more therapeutic interventions, treatment with an IL-6 receptor antagonist had a greater than 99.9% probability of improved 180-day mortality compared with patients randomized to the control, and treatment with an antiplatelet had a 95.0% probability of improved 180-day mortality compared with patients randomized to the control. Overall, when considered with previously reported short-term results, the findings indicate that initial in-hospital treatment effects were consistent for most therapies through 6 months.

Published

2023

5. Effect of Antiplatelet Therapy on Survival and Organ Support-Free Days in Critically Ill Patients With COVID-19: A Randomized Clinical Trial.

Author

Bradbury C.A., Lawler P.R., Stanworth S.J., McVerry B.J., McQuilten Z., Higgins A.M., Mouncey P.R., Al-Beidh F., Rowan K.M., Berry L.R., Lorenzi E., Zarychanski R., Arabi Y.M., Annane D., Beane A., Van Bentum-Puijk W., Bhimani Z., Bihari S., Bonten M.J.M., Brunkhorst F.M., Buzgau A., Buxton M., Carrier M., Cheng A.C., Cove M., Detry M.A., Estcourt L.J., Fitzgerald M., Girard T.D., Goligher E.C., Goossens H., Haniffa R., Hills T., Huang D.T., Horvat C.M., Hunt B.J., Ichihara N., Lamontagne F., Leavis H.L., Linstrum K.M., Litton E., Marshall J.C., McAuley D.F., McGlothlin A., McGuinness S.P., Middeldorp S., Montgomery S.K., Morpeth S.C., Murthy S., Neal M.D., Nichol A.D., Parke R.L., Parker J.C., Reyes L., Saito H., Santos M.S., Saunders C.T., Serpa-Neto A., Seymour C.W., Shankar-Hari M., Singh V., Tolppa T., Turgeon A.F., Turner A.M., Van De Veerdonk F.L., Green C., Lewis R.J., Angus D.C., McArthur C.J., Berry S., Derde L.P.G., Webb S.A., Gordon A.C., Bradbury C.A., Lawler P.R., Stanworth S.J., McVerry B.J., McQuilten Z., Higgins A.M., Mouncey P.R., Al-Beidh F., Rowan K.M., Berry L.R., Lorenzi E., Zarychanski R., Arabi Y.M., Annane D., Beane A., Van Bentum-Puijk W., Bhimani Z., Bihari S., Bonten M.J.M., Brunkhorst F.M., Buzgau A., Buxton M., Carrier M., Cheng A.C., Cove M., Detry M.A., Estcourt L.J., Fitzgerald M., Girard T.D., Goligher E.C., Goossens H., Haniffa R., Hills T., Huang D.T., Horvat C.M., Hunt B.J., Ichihara N., Lamontagne F., Leavis H.L., Linstrum K.M., Litton E., Marshall J.C., McAuley D.F., McGlothlin A., McGuinness S.P., Middeldorp S., Montgomery S.K., Morpeth S.C., Murthy S., Neal M.D., Nichol A.D., Parke R.L., Parker J.C., Reyes L., Saito H., Santos M.S., Saunders C.T., Serpa-Neto A., Seymour C.W., Shankar-Hari M., Singh V., Tolppa T., Turgeon A.F., Turner A.M., Van De Veerdonk F.L., Green C., Lewis R.J., Angus D.C., McArthur C.J., Berry S., Derde L.P.G., Webb S.A., and Gordon A.C.

Abstract

Importance: The efficacy of antiplatelet therapy in critically ill patients with COVID-19 is uncertain. Objective(s): To determine whether antiplatelet therapy improves outcomes for critically ill adults with COVID-19. Design, Setting, and Participant(s): In an ongoing adaptive platform trial (REMAP-CAP) testing multiple interventions within multiple therapeutic domains, 1557 critically ill adult patients with COVID-19 were enrolled between October 30, 2020, and June 23, 2021, from 105 sites in 8 countries and followed up for 90 days (final follow-up date: July 26, 2021). Intervention(s): Patients were randomized to receive either open-label aspirin (n = 565), a P2Y12 inhibitor (n = 455), or no antiplatelet therapy (control; n = 529). Interventions were continued in the hospital for a maximum of 14 days and were in addition to anticoagulation thromboprophylaxis. Main Outcomes and Measures: The primary end point was organ support-free days (days alive and free of intensive care unit-based respiratory or cardiovascular organ support) within 21 days, ranging from-1 for any death in hospital (censored at 90 days) to 22 for survivors with no organ support. There were 13 secondary outcomes, including survival to discharge and major bleeding to 14 days. The primary analysis was a bayesian cumulative logistic model. An odds ratio (OR) greater than 1 represented improved survival, more organ support-free days, or both. Efficacy was defined as greater than 99% posterior probability of an OR greater than 1. Futility was defined as greater than 95% posterior probability of an OR less than 1.2 vs control. Intervention equivalence was defined as greater than 90% probability that the OR (compared with each other) was between 1/1.2 and 1.2 for 2 noncontrol interventions. Result(s): The aspirin and P2Y12 inhibitor groups met the predefined criteria for equivalence at an adaptive analysis and were statistically pooled for further analysis. Enrollment was discontinued after the prespe

Published

2022

6. Interleukin-6 Receptor Antagonists in Critically Ill Patients with Covid-19 – Preliminary report

Author

The REMAP-CAP Investigators, Gordon, A, Mouncey, P, Al-Beidh, F, Rowan, K, Nichol, A, Arabi, Y, Annane, D, Beane, A, Van Bentum-Puijk, W, Berry, L, Bhimani, Z, Bonten, MJM, Bradbury, C, Brunkhorst, F, Buzgau, A, Cheng, A, Detry, M, Duffy, E, Estcourt, L, Fitzgerald, M, Goossens, H, Haniffa, R, Higgins, A, Hills, T, Horvat, C, Lamontagne, F, Lawler, P, Leavis, H, Linstrum, K, Litton, E, Lorenzi, E, Marshall, J, Mayr, F, McAuley, D, McGlothlin, A, McGuinness, S, McVerry, B, Montgomery, S, Morpeth, S, Murthy, S, Orr, K, Parke, R, Parker, J, Patanwala, A, Pettilä, V, Rademaker, E, Santos, M, Saunders, C, Seymour, C, Shankar-Hari, M, Sligl, W, Turgeon, A, Turner, A, Van de Veerdonk, F, Zarychanski, R, Green, C, Lewis, R, Angus, D, McArthur, C, Berry, S, Webb, S, and Derde, LPG

Subjects

The REMAP-CAP Investigators

Abstract

Background The efficacy of interleukin-6 receptor antagonists in critically ill patients with coronavirus disease 2019 (Covid-19) is unclear. Methods We evaluated tocilizumab and sarilumab in an ongoing international, multifactorial, adaptive platform trial. Adult patients with Covid-19, within 24 hours of commencing organ support in an intensive care unit, were randomized to receive either tocilizumab (8mg/kg) or sarilumab (400mg) or standard care (control). The primary outcome was an ordinal scale combining in-hospital mortality (assigned −1) and days free of organ support to day 21. The trial uses a Bayesian statistical model with pre-defined triggers to declare superiority, efficacy, equivalence or futility. Results Tocilizumab and sarilumab both met the pre-defined triggers for efficacy. At the time of full analysis 353 patients had been assigned to tocilizumab, 48 to sarilumab and 402 to control. Median organ support-free days were 10 (interquartile range [IQR] −1, 16), 11 (IQR 0, 16) and 0 (IQR −1, 15) for tocilizumab, sarilumab and control, respectively. Relative to control, median adjusted odds ratios were 1.64 (95% credible intervals [CrI] 1.25, 2.14) for tocilizumab and 1.76 (95%CrI 1.17, 2.91) for sarilumab, yielding >99.9% and 99.5% posterior probabilities of superiority compared with control. Hospital mortality was 28.0% (98/350) for tocilizumab, 22.2% (10/45) for sarilumab and 35.8% (142/397) for control. All secondary outcomes and analyses supported efficacy of these IL-6 receptor antagonists. Conclusions In critically ill patients with Covid-19 receiving organ support in intensive care, treatment with the IL-6 receptor antagonists, tocilizumab and sarilumab, improved outcome, including survival. (ClinicalTrials.gov number: NCT02735707) Competing Interest Statement Dr. Gordon reports grants from NIHR, grants from NIHR Research Professorship (RP-2015-06-18), non-financial support from NIHR Clinical Research Network, non-financial support from Roche Products Ltd, non-financial support from Sanofi (Aventis Pharma Ltd), during the conduct of the study; personal fees from GlaxoSmithKline, personal fees from Bristol Myers Squibb, personal fees from 30 Respiratory, outside the submitted work Clinical Trial NCT02735707 Clinical Protocols https://www.remapcap.org/protocol-documents

Published

2021

7. Effect of Convalescent Plasma on Organ Support-Free Days in Critically Ill Patients with COVID-19: A Randomized Clinical Trial.

Author

Estcourt L.J., Turgeon A.F., McQuilten Z.K., McVerry B.J., Al-Beidh F., Annane D., Arabi Y.M., Arnold D.M., Beane A., Begin P., Van Bentum-Puijk W., Berry L.R., Bhimani Z., Birchall J.E., Bonten M.J.M., Bradbury C.A., Brunkhorst F.M., Buxton M., Callum J.L., Chasse M., Cheng A.C., Cove M.E., Daly J., Derde L., Detry M.A., De Jong M., Evans A., Fergusson D.A., Fish M., Fitzgerald M., Foley C., Goossens H., Gordon A.C., Gosbell I.B., Green C., Haniffa R., Harvala H., Higgins A.M., Hills T.E., Hoad V.C., Horvat C., Huang D.T., Hudson C.L., Ichihara N., Laing E., Lamikanra A.A., Lamontagne F., Lawler P.R., Linstrum K., Litton E., Lorenzi E., Maclennan S., Marshall J., McAuley D.F., McDyer J.F., McGlothlin A., McGuinness S., Miflin G., Montgomery S., Mouncey P.R., Murthy S., Nichol A., Parke R., Parker J.C., Priddee N., Purcell D.F.J., Reyes L.F., Richardson P., Robitaille N., Rowan K.M., Rynne J., Saito H., Santos M., Saunders C.T., Serpa Neto A., Seymour C.W., Silversides J.A., Tinmouth A.A., Triulzi D.J., Turner A.M., Van De Veerdonk F., Walsh T.S., Wood E.M., Berry S., Lewis R.J., Menon D.K., McArthur C., Zarychanski R., Angus D.C., Webb S.A., Roberts D.J., Shankar-Hari M., Estcourt L.J., Turgeon A.F., McQuilten Z.K., McVerry B.J., Al-Beidh F., Annane D., Arabi Y.M., Arnold D.M., Beane A., Begin P., Van Bentum-Puijk W., Berry L.R., Bhimani Z., Birchall J.E., Bonten M.J.M., Bradbury C.A., Brunkhorst F.M., Buxton M., Callum J.L., Chasse M., Cheng A.C., Cove M.E., Daly J., Derde L., Detry M.A., De Jong M., Evans A., Fergusson D.A., Fish M., Fitzgerald M., Foley C., Goossens H., Gordon A.C., Gosbell I.B., Green C., Haniffa R., Harvala H., Higgins A.M., Hills T.E., Hoad V.C., Horvat C., Huang D.T., Hudson C.L., Ichihara N., Laing E., Lamikanra A.A., Lamontagne F., Lawler P.R., Linstrum K., Litton E., Lorenzi E., Maclennan S., Marshall J., McAuley D.F., McDyer J.F., McGlothlin A., McGuinness S., Miflin G., Montgomery S., Mouncey P.R., Murthy S., Nichol A., Parke R., Parker J.C., Priddee N., Purcell D.F.J., Reyes L.F., Richardson P., Robitaille N., Rowan K.M., Rynne J., Saito H., Santos M., Saunders C.T., Serpa Neto A., Seymour C.W., Silversides J.A., Tinmouth A.A., Triulzi D.J., Turner A.M., Van De Veerdonk F., Walsh T.S., Wood E.M., Berry S., Lewis R.J., Menon D.K., McArthur C., Zarychanski R., Angus D.C., Webb S.A., Roberts D.J., and Shankar-Hari M.

Abstract

Importance: The evidence for benefit of convalescent plasma for critically ill patients with COVID-19 is inconclusive. Objective(s): To determine whether convalescent plasma would improve outcomes for critically ill adults with COVID-19. Design, Setting, and Participant(s): The ongoing Randomized, Embedded, Multifactorial, Adaptive Platform Trial for Community-Acquired Pneumonia (REMAP-CAP) enrolled and randomized 4763 adults with suspected or confirmed COVID-19 between March 9, 2020, and January 18, 2021, within at least 1 domain; 2011 critically ill adults were randomized to open-label interventions in the immunoglobulin domain at 129 sites in 4 countries. Follow-up ended on April 19, 2021. Intervention(s): The immunoglobulin domain randomized participants to receive 2 units of high-titer, ABO-compatible convalescent plasma (total volume of 550 mL +/- 150 mL) within 48 hours of randomization (n = 1084) or no convalescent plasma (n = 916). Main Outcomes and Measures: The primary ordinal end point was organ support-free days (days alive and free of intensive care unit-based organ support) up to day 21 (range, -1 to 21 days; patients who died were assigned -1 day). The primary analysis was an adjusted bayesian cumulative logistic model. Superiority was defined as the posterior probability of an odds ratio (OR) greater than 1 (threshold for trial conclusion of superiority >99%). Futility was defined as the posterior probability of an OR less than 1.2 (threshold for trial conclusion of futility >95%). An OR greater than 1 represented improved survival, more organ support-free days, or both. The prespecified secondary outcomes included in-hospital survival; 28-day survival; 90-day survival; respiratory support-free days; cardiovascular support-free days; progression to invasive mechanical ventilation, extracorporeal mechanical oxygenation, or death; intensive care unit length of stay; hospital length of stay; World Health Organization ordinal scale score at day 14; veno

Published

2021

8. Interleukin-6 Receptor Antagonists in Critically Ill Patients with Covid-19

Author

Gordon, AC, Al-Beidh, F, Rowan, KM, Nichol, AD, Arabi, YM, Annane, D, Beane, A, Van Bentum-Puijk, W, Berry, LR, Bhimani, Z, Bonten, MJM, Bradbury, CA, Brunkhorst, FM, Buzgau, A, Cheng, AC, Detry, MA, Duffy, EJ, Estcourt, LJ, Fitzgerald, M, Goossens, H, Haniffa, R, Higgins, AM, Hills, TE, Horvat, CM, Lamontagne, F, Lawler, PR, Leavis, HL, Linstrum, KM, Litton, E, Lorenzi, E, Marshall, JC, Mayr, FB, McAuley, DF, McGlothlin, A, McGuinness, SP, McVerry, BJ, Montgomery, SK, Morpeth, SC, Murthy, S, Orr, K, Parke, RL, Parker, JC, Patanwala, AE, Pettill, V, Rademaker, E, Santos, MS, Saunders, CT, Seymour, CW, Shankar-Hari, M, Sligl, WL, Turgeon, AF, Turner, AM, van de Veerdonk, FL, Zarychanski, R, Green, C, Lewis, RJ, Angus, DC, McArthur, CJ, Berry, S, Webb, SA, Derde, LPG, Gordon, AC, Al-Beidh, F, Rowan, KM, Nichol, AD, Arabi, YM, Annane, D, Beane, A, Van Bentum-Puijk, W, Berry, LR, Bhimani, Z, Bonten, MJM, Bradbury, CA, Brunkhorst, FM, Buzgau, A, Cheng, AC, Detry, MA, Duffy, EJ, Estcourt, LJ, Fitzgerald, M, Goossens, H, Haniffa, R, Higgins, AM, Hills, TE, Horvat, CM, Lamontagne, F, Lawler, PR, Leavis, HL, Linstrum, KM, Litton, E, Lorenzi, E, Marshall, JC, Mayr, FB, McAuley, DF, McGlothlin, A, McGuinness, SP, McVerry, BJ, Montgomery, SK, Morpeth, SC, Murthy, S, Orr, K, Parke, RL, Parker, JC, Patanwala, AE, Pettill, V, Rademaker, E, Santos, MS, Saunders, CT, Seymour, CW, Shankar-Hari, M, Sligl, WL, Turgeon, AF, Turner, AM, van de Veerdonk, FL, Zarychanski, R, Green, C, Lewis, RJ, Angus, DC, McArthur, CJ, Berry, S, Webb, SA, and Derde, LPG

Abstract

BACKGROUND: The efficacy of interleukin-6 receptor antagonists in critically ill patients with coronavirus disease 2019 (Covid-19) is unclear. METHODS: We evaluated tocilizumab and sarilumab in an ongoing international, multifactorial, adaptive platform trial. Adult patients with Covid-19, within 24 hours after starting organ support in the intensive care unit (ICU), were randomly assigned to receive tocilizumab (8 mg per kilogram of body weight), sarilumab (400 mg), or standard care (control). The primary outcome was respiratory and cardiovascular organ support-free days, on an ordinal scale combining in-hospital death (assigned a value of -1) and days free of organ support to day 21. The trial uses a Bayesian statistical model with predefined criteria for superiority, efficacy, equivalence, or futility. An odds ratio greater than 1 represented improved survival, more organ support-free days, or both. RESULTS: Both tocilizumab and sarilumab met the predefined criteria for efficacy. At that time, 353 patients had been assigned to tocilizumab, 48 to sarilumab, and 402 to control. The median number of organ support-free days was 10 (interquartile range, -1 to 16) in the tocilizumab group, 11 (interquartile range, 0 to 16) in the sarilumab group, and 0 (interquartile range, -1 to 15) in the control group. The median adjusted cumulative odds ratios were 1.64 (95% credible interval, 1.25 to 2.14) for tocilizumab and 1.76 (95% credible interval, 1.17 to 2.91) for sarilumab as compared with control, yielding posterior probabilities of superiority to control of more than 99.9% and of 99.5%, respectively. An analysis of 90-day survival showed improved survival in the pooled interleukin-6 receptor antagonist groups, yielding a hazard ratio for the comparison with the control group of 1.61 (95% credible interval, 1.25 to 2.08) and a posterior probability of superiority of more than 99.9%. All secondary analyses supported efficacy of these interleukin-6 receptor antagonists. CO

Published

2021

9. The randomized embedded multifactorial adaptive platform for community-acquired pneumonia (REMAP-CAP) study: rationale and design

Author

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, and NIHR

Subjects

Respiratory System, 1103 Clinical Sciences

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 (CAP). The trial uses a novel design entitled a randomized embedded multifactorial adaptive platform (REMAP). The design has 5 key features: i.) randomization, allowing robust causal inference; ii.) embedding of study procedures into routine care processes, facilitating enrollment, trial efficiency, and generalizability; iii.) a multifactorial statistical model comparing multiple interventions across multiple patient subgroups; iv.) response-adaptive randomization with preferential assignment to those interventions that appear most favorable, and v.) a platform structured to permit continuous, potentially perpetual enrollment beyond the evaluation of the initial treatments. The trial randomizes patients to multiple interventions within 4 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 was approved and enrolling patients in 52 ICUs in 13 countries in 3 continents. In February, it transitioned into pandemic mode with several design adaptations for COVID-19 disease. 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 ClinicalTrials.gov (NCT02735707)

Published

2020

10. Effect of hydrocortisone on mortality and organ support in patients with severe COVID-19: the REMAP-CAP COVID-19 corticosteroid domain randomized clinical trial

Author

Angus, DC, Derde, L, Al-Beidh, F, Annane, D, Arabi, Y, Beane, A, Van Bentum-Puijk, W, Berry, L, Bhimani, Z, Bonten, M, Bradbury, C, Brunkhorst, F, Buxton, M, Buzgau, A, Cheng, AC, De Jong, M, Detry, M, Estcourt, L, Fitzgerald, M, Goossens, H, Green, C, Haniffa, R, Higgins, AM, Horvat, C, Hullegie, SJ, Kruger, P, Lamontagne, F, Lawler, PR, Linstrum, K, Litton, E, Lorenzi, E, Marshall, J, McAuley, D, McGlothin, A, McGuinness, S, McVerry, B, Montgomery, S, Mouncey, P, Murthy, S, Nichol, A, Parke, R, Parker, J, Rowan, K, Sanil, A, Santos, M, Saunders, C, Seymour, C, Turner, A, Van De Veerdonk, F, Venkatesh, B, Zarychanski, R, Berry, S, Lewis, RJ, McArthur, C, Webb, SA, Gordon, AC, Orford, Neil, Angus, DC, Derde, L, Al-Beidh, F, Annane, D, Arabi, Y, Beane, A, Van Bentum-Puijk, W, Berry, L, Bhimani, Z, Bonten, M, Bradbury, C, Brunkhorst, F, Buxton, M, Buzgau, A, Cheng, AC, De Jong, M, Detry, M, Estcourt, L, Fitzgerald, M, Goossens, H, Green, C, Haniffa, R, Higgins, AM, Horvat, C, Hullegie, SJ, Kruger, P, Lamontagne, F, Lawler, PR, Linstrum, K, Litton, E, Lorenzi, E, Marshall, J, McAuley, D, McGlothin, A, McGuinness, S, McVerry, B, Montgomery, S, Mouncey, P, Murthy, S, Nichol, A, Parke, R, Parker, J, Rowan, K, Sanil, A, Santos, M, Saunders, C, Seymour, C, Turner, A, Van De Veerdonk, F, Venkatesh, B, Zarychanski, R, Berry, S, Lewis, RJ, McArthur, C, Webb, SA, Gordon, AC, and Orford, Neil

Published

2020

11. A 5-day course of oral antibiotics followed by faecal transplantation to eradicate carriage of multidrug-resistant Enterobacteriaceae: a randomized clinical trial

Author

Huttner, B.D., primary, de Lastours, V., additional, Wassenberg, M., additional, Maharshak, N., additional, Mauris, A., additional, Galperine, T., additional, Zanichelli, V., additional, Kapel, N., additional, Bellanger, A., additional, Olearo, F., additional, Duval, X., additional, Armand-Lefevre, L., additional, Carmeli, Y., additional, Bonten, M., additional, Fantin, B., additional, Harbarth, S., additional, Colle, L., additional, Kloosterman, F., additional, van Bentum-Puijk, W., additional, Vlooswijk, J., additional, Andremont, A., additional, Ben Hayoun, M., additional, Canoui, E., additional, Chabrol, A., additional, Gamany, N., additional, Lafaurie, M., additional, Lefort, A., additional, Lepeule, R., additional, Louis, Z., additional, Rondinaud, E., additional, Sadou Yayé, H., additional, Sarfati, L., additional, Zarrouk, V., additional, Brossier, C., additional, Carrez, L., additional, Lazarevic, V., additional, Renzi, G., additional, von Dach, E., additional, Cohen Percia, S., additional, Shvartz, R., additional, and Lellouche, J., additional

Published

2019

12. Effect of Angiotensin-Converting Enzyme Inhibitor and Angiotensin Receptor Blocker Initiation on Organ Support-Free Days in Patients Hospitalized With COVID-19: A Randomized Clinical Trial.

Author

Lawler PR, Derde LPG, van de Veerdonk FL, McVerry BJ, Huang DT, Berry LR, Lorenzi E, van Kimmenade R, Gommans F, Vaduganathan M, Leaf DE, Baron RM, Kim EY, Frankfurter C, Epelman S, Kwan Y, Grieve R, O'Neill S, Sadique Z, Puskarich M, Marshall JC, Higgins AM, Mouncey PR, Rowan KM, Al-Beidh F, Annane D, Arabi YM, Au C, Beane A, van Bentum-Puijk W, Bonten MJM, Bradbury CA, Brunkhorst FM, Burrell A, Buzgau A, Buxton M, Cecconi M, Cheng AC, Cove M, Detry MA, Estcourt LJ, Ezekowitz J, Fitzgerald M, Gattas D, Godoy LC, Goossens H, Haniffa R, Harrison DA, Hills T, Horvat CM, Ichihara N, Lamontagne F, Linstrum KM, McAuley DF, McGlothlin A, McGuinness SP, McQuilten Z, Murthy S, Nichol AD, Owen DRJ, Parke RL, Parker JC, Pollock KM, Reyes LF, Saito H, Santos MS, Saunders CT, Seymour CW, Shankar-Hari M, Singh V, Turgeon AF, Turner AM, Zarychanski R, Green C, Lewis RJ, Angus DC, Berry S, Gordon AC, McArthur CJ, and Webb SA

Subjects

Female, Humans, Male, Middle Aged, Bayes Theorem, Hospitalization, Critical Illness, Receptors, Chemokine antagonists & inhibitors, Angiotensin Receptor Antagonists pharmacology, Angiotensin Receptor Antagonists therapeutic use, Angiotensin-Converting Enzyme Inhibitors pharmacology, Angiotensin-Converting Enzyme Inhibitors therapeutic use, COVID-19 therapy, Renin-Angiotensin System drug effects, COVID-19 Drug Treatment methods

Abstract

Importance: Overactivation of the renin-angiotensin system (RAS) may contribute to poor clinical outcomes in patients with COVID-19., Objective: To determine whether angiotensin-converting enzyme (ACE) inhibitor or angiotensin receptor blocker (ARB) initiation improves outcomes in patients hospitalized for COVID-19., Design, Setting, and Participants: In an ongoing, adaptive platform randomized clinical trial, 721 critically ill and 58 non-critically ill hospitalized adults were randomized to receive an RAS inhibitor or control between March 16, 2021, and February 25, 2022, at 69 sites in 7 countries (final follow-up on June 1, 2022)., Interventions: Patients were randomized to receive open-label initiation of an ACE inhibitor (n = 257), ARB (n = 248), ARB in combination with DMX-200 (a chemokine receptor-2 inhibitor; n = 10), or no RAS inhibitor (control; n = 264) for up to 10 days., Main Outcomes and Measures: The primary outcome was organ support-free days, a composite of hospital survival and days alive without cardiovascular or respiratory organ support through 21 days. The primary analysis was a bayesian cumulative logistic model. Odds ratios (ORs) greater than 1 represent improved outcomes., Results: On February 25, 2022, enrollment was discontinued due to safety concerns. Among 679 critically ill patients with available primary outcome data, the median age was 56 years and 239 participants (35.2%) were women. Median (IQR) organ support-free days among critically ill patients was 10 (-1 to 16) in the ACE inhibitor group (n = 231), 8 (-1 to 17) in the ARB group (n = 217), and 12 (0 to 17) in the control group (n = 231) (median adjusted odds ratios of 0.77 [95% bayesian credible interval, 0.58-1.06] for improvement for ACE inhibitor and 0.76 [95% credible interval, 0.56-1.05] for ARB compared with control). The posterior probabilities that ACE inhibitors and ARBs worsened organ support-free days compared with control were 94.9% and 95.4%, respectively. Hospital survival occurred in 166 of 231 critically ill participants (71.9%) in the ACE inhibitor group, 152 of 217 (70.0%) in the ARB group, and 182 of 231 (78.8%) in the control group (posterior probabilities that ACE inhibitor and ARB worsened hospital survival compared with control were 95.3% and 98.1%, respectively)., Conclusions and Relevance: In this trial, among critically ill adults with COVID-19, initiation of an ACE inhibitor or ARB did not improve, and likely worsened, clinical outcomes., Trial Registration: ClinicalTrials.gov Identifier: NCT02735707.

Published

2023

13. Long-term (180-Day) Outcomes in Critically Ill Patients With COVID-19 in the REMAP-CAP Randomized Clinical Trial.

Author

Higgins AM, Berry LR, Lorenzi E, Murthy S, McQuilten Z, Mouncey PR, Al-Beidh F, Annane D, Arabi YM, Beane A, van Bentum-Puijk W, Bhimani Z, Bonten MJM, Bradbury CA, Brunkhorst FM, Burrell A, Buzgau A, Buxton M, Charles WN, Cove M, Detry MA, Estcourt LJ, Fagbodun EO, Fitzgerald M, Girard TD, Goligher EC, Goossens H, Haniffa R, Hills T, Horvat CM, Huang DT, Ichihara N, Lamontagne F, Marshall JC, McAuley DF, McGlothlin A, McGuinness SP, McVerry BJ, Neal MD, Nichol AD, Parke RL, Parker JC, Parry-Billings K, Peters SEC, Reyes LF, Rowan KM, Saito H, Santos MS, Saunders CT, Serpa-Neto A, Seymour CW, Shankar-Hari M, Stronach LM, Turgeon AF, Turner AM, van de Veerdonk FL, Zarychanski R, Green C, Lewis RJ, Angus DC, McArthur CJ, Berry S, Derde LPG, Gordon AC, Webb SA, and Lawler PR

Subjects

Adult, Humans, Female, Middle Aged, Male, Lopinavir therapeutic use, Ritonavir therapeutic use, Follow-Up Studies, Hydroxychloroquine therapeutic use, SARS-CoV-2, Critical Illness therapy, Bayes Theorem, COVID-19 Serotherapy, Adrenal Cortex Hormones therapeutic use, Anticoagulants adverse effects, Receptors, Interleukin-6, COVID-19

Abstract

Importance: The longer-term effects of therapies for the treatment of critically ill patients with COVID-19 are unknown., Objective: To determine the effect of multiple interventions for critically ill adults with COVID-19 on longer-term outcomes., Design, Setting, and Participants: Prespecified secondary analysis of an ongoing adaptive platform trial (REMAP-CAP) testing interventions within multiple therapeutic domains in which 4869 critically ill adult patients with COVID-19 were enrolled between March 9, 2020, and June 22, 2021, from 197 sites in 14 countries. The final 180-day follow-up was completed on March 2, 2022., Interventions: Patients were randomized to receive 1 or more interventions within 6 treatment domains: immune modulators (n = 2274), convalescent plasma (n = 2011), antiplatelet therapy (n = 1557), anticoagulation (n = 1033), antivirals (n = 726), and corticosteroids (n = 401)., Main Outcomes and Measures: The main outcome was survival through day 180, analyzed using a bayesian piecewise exponential model. A hazard ratio (HR) less than 1 represented improved survival (superiority), while an HR greater than 1 represented worsened survival (harm); futility was represented by a relative improvement less than 20% in outcome, shown by an HR greater than 0.83., Results: Among 4869 randomized patients (mean age, 59.3 years; 1537 [32.1%] women), 4107 (84.3%) had known vital status and 2590 (63.1%) were alive at day 180. IL-6 receptor antagonists had a greater than 99.9% probability of improving 6-month survival (adjusted HR, 0.74 [95% credible interval {CrI}, 0.61-0.90]) and antiplatelet agents had a 95% probability of improving 6-month survival (adjusted HR, 0.85 [95% CrI, 0.71-1.03]) compared with the control, while the probability of trial-defined statistical futility (HR >0.83) was high for therapeutic anticoagulation (99.9%; HR, 1.13 [95% CrI, 0.93-1.42]), convalescent plasma (99.2%; HR, 0.99 [95% CrI, 0.86-1.14]), and lopinavir-ritonavir (96.6%; HR, 1.06 [95% CrI, 0.82-1.38]) and the probabilities of harm from hydroxychloroquine (96.9%; HR, 1.51 [95% CrI, 0.98-2.29]) and the combination of lopinavir-ritonavir and hydroxychloroquine (96.8%; HR, 1.61 [95% CrI, 0.97-2.67]) were high. The corticosteroid domain was stopped early prior to reaching a predefined statistical trigger; there was a 57.1% to 61.6% probability of improving 6-month survival across varying hydrocortisone dosing strategies., Conclusions and Relevance: Among critically ill patients with COVID-19 randomized to receive 1 or more therapeutic interventions, treatment with an IL-6 receptor antagonist had a greater than 99.9% probability of improved 180-day mortality compared with patients randomized to the control, and treatment with an antiplatelet had a 95.0% probability of improved 180-day mortality compared with patients randomized to the control. Overall, when considered with previously reported short-term results, the findings indicate that initial in-hospital treatment effects were consistent for most therapies through 6 months.

Published

2023

14. Effect of Antiplatelet Therapy on Survival and Organ Support-Free Days in Critically Ill Patients With COVID-19: A Randomized Clinical Trial.

Author

Bradbury CA, Lawler PR, Stanworth SJ, McVerry BJ, McQuilten Z, Higgins AM, Mouncey PR, Al-Beidh F, Rowan KM, Berry LR, Lorenzi E, Zarychanski R, Arabi YM, Annane D, Beane A, van Bentum-Puijk W, Bhimani Z, Bihari S, Bonten MJM, Brunkhorst FM, Buzgau A, Buxton M, Carrier M, Cheng AC, Cove M, Detry MA, Estcourt LJ, Fitzgerald M, Girard TD, Goligher EC, Goossens H, Haniffa R, Hills T, Huang DT, Horvat CM, Hunt BJ, Ichihara N, Lamontagne F, Leavis HL, Linstrum KM, Litton E, Marshall JC, McAuley DF, McGlothlin A, McGuinness SP, Middeldorp S, Montgomery SK, Morpeth SC, Murthy S, Neal MD, Nichol AD, Parke RL, Parker JC, Reyes LF, Saito H, Santos MS, Saunders CT, Serpa-Neto A, Seymour CW, Shankar-Hari M, Singh V, Tolppa T, Turgeon AF, Turner AM, van de Veerdonk FL, Green C, Lewis RJ, Angus DC, McArthur CJ, Berry S, Derde LPG, Webb SA, and Gordon AC

Subjects

Adult, Anticoagulants adverse effects, Anticoagulants therapeutic use, Aspirin adverse effects, Aspirin therapeutic use, Bayes Theorem, Female, Hemorrhage chemically induced, Humans, Male, Middle Aged, Purinergic P2Y Receptor Antagonists adverse effects, Purinergic P2Y Receptor Antagonists therapeutic use, Respiration, Artificial, COVID-19 complications, COVID-19 mortality, COVID-19 therapy, Critical Illness mortality, Critical Illness therapy, Platelet Aggregation Inhibitors adverse effects, Platelet Aggregation Inhibitors therapeutic use, Venous Thromboembolism drug therapy, Venous Thromboembolism etiology, COVID-19 Drug Treatment

Abstract

Importance: The efficacy of antiplatelet therapy in critically ill patients with COVID-19 is uncertain., Objective: To determine whether antiplatelet therapy improves outcomes for critically ill adults with COVID-19., Design, Setting, and Participants: In an ongoing adaptive platform trial (REMAP-CAP) testing multiple interventions within multiple therapeutic domains, 1557 critically ill adult patients with COVID-19 were enrolled between October 30, 2020, and June 23, 2021, from 105 sites in 8 countries and followed up for 90 days (final follow-up date: July 26, 2021)., Interventions: Patients were randomized to receive either open-label aspirin (n = 565), a P2Y12 inhibitor (n = 455), or no antiplatelet therapy (control; n = 529). Interventions were continued in the hospital for a maximum of 14 days and were in addition to anticoagulation thromboprophylaxis., Main Outcomes and Measures: The primary end point was organ support-free days (days alive and free of intensive care unit-based respiratory or cardiovascular organ support) within 21 days, ranging from -1 for any death in hospital (censored at 90 days) to 22 for survivors with no organ support. There were 13 secondary outcomes, including survival to discharge and major bleeding to 14 days. The primary analysis was a bayesian cumulative logistic model. An odds ratio (OR) greater than 1 represented improved survival, more organ support-free days, or both. Efficacy was defined as greater than 99% posterior probability of an OR greater than 1. Futility was defined as greater than 95% posterior probability of an OR less than 1.2 vs control. Intervention equivalence was defined as greater than 90% probability that the OR (compared with each other) was between 1/1.2 and 1.2 for 2 noncontrol interventions., Results: The aspirin and P2Y12 inhibitor groups met the predefined criteria for equivalence at an adaptive analysis and were statistically pooled for further analysis. Enrollment was discontinued after the prespecified criterion for futility was met for the pooled antiplatelet group compared with control. Among the 1557 critically ill patients randomized, 8 patients withdrew consent and 1549 completed the trial (median age, 57 years; 521 [33.6%] female). The median for organ support-free days was 7 (IQR, -1 to 16) in both the antiplatelet and control groups (median-adjusted OR, 1.02 [95% credible interval {CrI}, 0.86-1.23]; 95.7% posterior probability of futility). The proportions of patients surviving to hospital discharge were 71.5% (723/1011) and 67.9% (354/521) in the antiplatelet and control groups, respectively (median-adjusted OR, 1.27 [95% CrI, 0.99-1.62]; adjusted absolute difference, 5% [95% CrI, -0.2% to 9.5%]; 97% posterior probability of efficacy). Among survivors, the median for organ support-free days was 14 in both groups. Major bleeding occurred in 2.1% and 0.4% of patients in the antiplatelet and control groups (adjusted OR, 2.97 [95% CrI, 1.23-8.28]; adjusted absolute risk increase, 0.8% [95% CrI, 0.1%-2.7%]; 99.4% probability of harm)., Conclusions and Relevance: Among critically ill patients with COVID-19, treatment with an antiplatelet agent, compared with no antiplatelet agent, had a low likelihood of providing improvement in the number of organ support-free days within 21 days., Trial Registration: ClinicalTrials.gov Identifier: NCT02735707.

Published

2022

15. Effect of Convalescent Plasma on Organ Support-Free Days in Critically Ill Patients With COVID-19: A Randomized Clinical Trial.

Author

Estcourt LJ, Turgeon AF, McQuilten ZK, McVerry BJ, Al-Beidh F, Annane D, Arabi YM, Arnold DM, Beane A, Bégin P, van Bentum-Puijk W, Berry LR, Bhimani Z, Birchall JE, Bonten MJM, Bradbury CA, Brunkhorst FM, Buxton M, Callum JL, Chassé M, Cheng AC, Cove ME, Daly J, Derde L, Detry MA, De Jong M, Evans A, Fergusson DA, Fish M, Fitzgerald M, Foley C, Goossens H, Gordon AC, Gosbell IB, Green C, Haniffa R, Harvala H, Higgins AM, Hills TE, Hoad VC, Horvat C, Huang DT, Hudson CL, Ichihara N, Laing E, Lamikanra AA, Lamontagne F, Lawler PR, Linstrum K, Litton E, Lorenzi E, MacLennan S, Marshall J, McAuley DF, McDyer JF, McGlothlin A, McGuinness S, Miflin G, Montgomery S, Mouncey PR, Murthy S, Nichol A, Parke R, Parker JC, Priddee N, Purcell DFJ, Reyes LF, Richardson P, Robitaille N, Rowan KM, Rynne J, Saito H, Santos M, Saunders CT, Serpa Neto A, Seymour CW, Silversides JA, Tinmouth AA, Triulzi DJ, Turner AM, van de Veerdonk F, Walsh TS, Wood EM, Berry S, Lewis RJ, Menon DK, McArthur C, Zarychanski R, Angus DC, Webb SA, Roberts DJ, and Shankar-Hari M

Subjects

ABO Blood-Group System, Adult, Aged, Critical Illness therapy, Female, Hospital Mortality, Humans, Immunization, Passive, Length of Stay, Logistic Models, Male, Middle Aged, Respiration, Artificial statistics & numerical data, Treatment Failure, Vasoconstrictor Agents therapeutic use, COVID-19 Serotherapy, COVID-19 therapy

Abstract

Importance: The evidence for benefit of convalescent plasma for critically ill patients with COVID-19 is inconclusive., Objective: To determine whether convalescent plasma would improve outcomes for critically ill adults with COVID-19., Design, Setting, and Participants: The ongoing Randomized, Embedded, Multifactorial, Adaptive Platform Trial for Community-Acquired Pneumonia (REMAP-CAP) enrolled and randomized 4763 adults with suspected or confirmed COVID-19 between March 9, 2020, and January 18, 2021, within at least 1 domain; 2011 critically ill adults were randomized to open-label interventions in the immunoglobulin domain at 129 sites in 4 countries. Follow-up ended on April 19, 2021., Interventions: The immunoglobulin domain randomized participants to receive 2 units of high-titer, ABO-compatible convalescent plasma (total volume of 550 mL ± 150 mL) within 48 hours of randomization (n = 1084) or no convalescent plasma (n = 916)., Main Outcomes and Measures: The primary ordinal end point was organ support-free days (days alive and free of intensive care unit-based organ support) up to day 21 (range, -1 to 21 days; patients who died were assigned -1 day). The primary analysis was an adjusted bayesian cumulative logistic model. Superiority was defined as the posterior probability of an odds ratio (OR) greater than 1 (threshold for trial conclusion of superiority >99%). Futility was defined as the posterior probability of an OR less than 1.2 (threshold for trial conclusion of futility >95%). An OR greater than 1 represented improved survival, more organ support-free days, or both. The prespecified secondary outcomes included in-hospital survival; 28-day survival; 90-day survival; respiratory support-free days; cardiovascular support-free days; progression to invasive mechanical ventilation, extracorporeal mechanical oxygenation, or death; intensive care unit length of stay; hospital length of stay; World Health Organization ordinal scale score at day 14; venous thromboembolic events at 90 days; and serious adverse events., Results: Among the 2011 participants who were randomized (median age, 61 [IQR, 52 to 70] years and 645/1998 [32.3%] women), 1990 (99%) completed the trial. The convalescent plasma intervention was stopped after the prespecified criterion for futility was met. The median number of organ support-free days was 0 (IQR, -1 to 16) in the convalescent plasma group and 3 (IQR, -1 to 16) in the no convalescent plasma group. The in-hospital mortality rate was 37.3% (401/1075) for the convalescent plasma group and 38.4% (347/904) for the no convalescent plasma group and the median number of days alive and free of organ support was 14 (IQR, 3 to 18) and 14 (IQR, 7 to 18), respectively. The median-adjusted OR was 0.97 (95% credible interval, 0.83 to 1.15) and the posterior probability of futility (OR <1.2) was 99.4% for the convalescent plasma group compared with the no convalescent plasma group. The treatment effects were consistent across the primary outcome and the 11 secondary outcomes. Serious adverse events were reported in 3.0% (32/1075) of participants in the convalescent plasma group and in 1.3% (12/905) of participants in the no convalescent plasma group., Conclusions and Relevance: Among critically ill adults with confirmed COVID-19, treatment with 2 units of high-titer, ABO-compatible convalescent plasma had a low likelihood of providing improvement in the number of organ support-free days., Trial Registration: ClinicalTrials.gov Identifier: NCT02735707.

Published

2021

16. Interleukin-6 Receptor Antagonists in Critically Ill Patients with Covid-19.

Author

Gordon AC, Mouncey PR, Al-Beidh F, Rowan KM, Nichol AD, Arabi YM, Annane D, Beane A, van Bentum-Puijk W, Berry LR, Bhimani Z, Bonten MJM, Bradbury CA, Brunkhorst FM, Buzgau A, Cheng AC, Detry MA, Duffy EJ, Estcourt LJ, Fitzgerald M, Goossens H, Haniffa R, Higgins AM, Hills TE, Horvat CM, Lamontagne F, Lawler PR, Leavis HL, Linstrum KM, Litton E, Lorenzi E, Marshall JC, Mayr FB, McAuley DF, McGlothlin A, McGuinness SP, McVerry BJ, Montgomery SK, Morpeth SC, Murthy S, Orr K, Parke RL, Parker JC, Patanwala AE, Pettilä V, Rademaker E, Santos MS, Saunders CT, Seymour CW, Shankar-Hari M, Sligl WI, Turgeon AF, Turner AM, van de Veerdonk FL, Zarychanski R, Green C, Lewis RJ, Angus DC, McArthur CJ, Berry S, Webb SA, and Derde LPG

Subjects

Adult, Aged, Antibodies, Monoclonal, Humanized adverse effects, COVID-19 complications, COVID-19 mortality, COVID-19 therapy, Critical Illness, Female, Hospital Mortality, Humans, Intensive Care Units, Male, Middle Aged, Odds Ratio, Respiration, Artificial, Antibodies, Monoclonal, Humanized therapeutic use, Receptors, Interleukin-6 antagonists & inhibitors, COVID-19 Drug Treatment

Abstract

Background: The efficacy of interleukin-6 receptor antagonists in critically ill patients with coronavirus disease 2019 (Covid-19) is unclear., Methods: We evaluated tocilizumab and sarilumab in an ongoing international, multifactorial, adaptive platform trial. Adult patients with Covid-19, within 24 hours after starting organ support in the intensive care unit (ICU), were randomly assigned to receive tocilizumab (8 mg per kilogram of body weight), sarilumab (400 mg), or standard care (control). The primary outcome was respiratory and cardiovascular organ support-free days, on an ordinal scale combining in-hospital death (assigned a value of -1) and days free of organ support to day 21. The trial uses a Bayesian statistical model with predefined criteria for superiority, efficacy, equivalence, or futility. An odds ratio greater than 1 represented improved survival, more organ support-free days, or both., Results: Both tocilizumab and sarilumab met the predefined criteria for efficacy. At that time, 353 patients had been assigned to tocilizumab, 48 to sarilumab, and 402 to control. The median number of organ support-free days was 10 (interquartile range, -1 to 16) in the tocilizumab group, 11 (interquartile range, 0 to 16) in the sarilumab group, and 0 (interquartile range, -1 to 15) in the control group. The median adjusted cumulative odds ratios were 1.64 (95% credible interval, 1.25 to 2.14) for tocilizumab and 1.76 (95% credible interval, 1.17 to 2.91) for sarilumab as compared with control, yielding posterior probabilities of superiority to control of more than 99.9% and of 99.5%, respectively. An analysis of 90-day survival showed improved survival in the pooled interleukin-6 receptor antagonist groups, yielding a hazard ratio for the comparison with the control group of 1.61 (95% credible interval, 1.25 to 2.08) and a posterior probability of superiority of more than 99.9%. All secondary analyses supported efficacy of these interleukin-6 receptor antagonists., Conclusions: In critically ill patients with Covid-19 receiving organ support in ICUs, treatment with the interleukin-6 receptor antagonists tocilizumab and sarilumab improved outcomes, including survival. (REMAP-CAP ClinicalTrials.gov number, NCT02735707.)., (Copyright © 2021 Massachusetts Medical Society.)

Published

2021

17. Effect of Hydrocortisone on Mortality and Organ Support in Patients With Severe COVID-19: The REMAP-CAP COVID-19 Corticosteroid Domain Randomized Clinical Trial.

Author

Angus DC, Derde L, Al-Beidh F, Annane D, Arabi Y, Beane A, van Bentum-Puijk W, Berry L, Bhimani Z, Bonten M, Bradbury C, Brunkhorst F, Buxton M, Buzgau A, Cheng AC, de Jong M, Detry M, Estcourt L, Fitzgerald M, Goossens H, Green C, Haniffa R, Higgins AM, Horvat C, Hullegie SJ, Kruger P, Lamontagne F, Lawler PR, Linstrum K, Litton E, Lorenzi E, Marshall J, McAuley D, McGlothin A, McGuinness S, McVerry B, Montgomery S, Mouncey P, Murthy S, Nichol A, Parke R, Parker J, Rowan K, Sanil A, Santos M, Saunders C, Seymour C, Turner A, van de Veerdonk F, Venkatesh B, Zarychanski R, Berry S, Lewis RJ, McArthur C, Webb SA, Gordon AC, Al-Beidh F, Angus D, Annane D, Arabi Y, van Bentum-Puijk W, Berry S, Beane A, Bhimani Z, Bonten M, Bradbury C, Brunkhorst F, Buxton M, Cheng A, De Jong M, Derde L, Estcourt L, Goossens H, Gordon A, Green C, Haniffa R, Lamontagne F, Lawler P, Litton E, Marshall J, McArthur, McAuley D, McGuinness S, McVerry B, Montgomery S, Mouncey P, Murthy S, Nichol A, Parke R, Rowan K, Seymour C, Turner A, van de Veerdonk F, Webb S, Zarychanski R, Campbell L, Forbes A, Gattas D, Heritier S, Higgins L, Kruger P, Peake S, Presneill J, Seppelt I, Trapani T, Young P, Bagshaw S, Daneman N, Ferguson N, Misak C, Santos M, Hullegie S, Pletz M, Rohde G, Rowan K, Alexander B, Basile K, Girard T, Horvat C, Huang D, Linstrum K, Vates J, Beasley R, Fowler R, McGloughlin S, Morpeth S, Paterson D, Venkatesh B, Uyeki T, Baillie K, Duffy E, Fowler R, Hills T, Orr K, Patanwala A, Tong S, Netea M, Bihari S, Carrier M, Fergusson D, Goligher E, Haidar G, Hunt B, Kumar A, Laffan M, Lawless P, Lother S, McCallum P, Middeldopr S, McQuilten Z, Neal M, Pasi J, Schutgens R, Stanworth S, Turgeon A, Weissman A, Adhikari N, Anstey M, Brant E, de Man A, Lamonagne F, Masse MH, Udy A, Arnold D, Begin P, Charlewood R, Chasse M, Coyne M, Cooper J, Daly J, Gosbell I, Harvala-Simmonds H, Hills T, MacLennan S, Menon D, McDyer J, Pridee N, Roberts D, Shankar-Hari M, Thomas H, Tinmouth A, Triulzi D, Walsh T, Wood E, Calfee C, O’Kane C, Shyamsundar M, Sinha P, Thompson T, Young I, Bihari S, Hodgson C, Laffey J, McAuley D, Orford N, Neto A, Detry M, Fitzgerald M, Lewis R, McGlothlin A, Sanil A, Saunders C, Berry L, Lorenzi E, Miller E, Singh V, Zammit C, van Bentum Puijk W, Bouwman W, Mangindaan Y, Parker L, Peters S, Rietveld I, Raymakers K, Ganpat R, Brillinger N, Markgraf R, Ainscough K, Brickell K, Anjum A, Lane JB, Richards-Belle A, Saull M, Wiley D, Bion J, Connor J, Gates S, Manax V, van der Poll T, Reynolds J, van Beurden M, Effelaar E, Schotsman J, Boyd C, Harland C, Shearer A, Wren J, Clermont G, Garrard W, Kalchthaler K, King A, Ricketts D, Malakoutis S, Marroquin O, Music E, Quinn K, Cate H, Pearson K, Collins J, Hanson J, Williams P, Jackson S, Asghar A, Dyas S, Sutu M, Murphy S, Williamson D, Mguni N, Potter A, Porter D, Goodwin J, Rook C, Harrison S, Williams H, Campbell H, Lomme K, Williamson J, Sheffield J, van’t Hoff W, McCracken P, Young M, Board J, Mart E, Knott C, Smith J, Boschert C, Affleck J, Ramanan M, D’Souza R, Pateman K, Shakih A, Cheung W, Kol M, Wong H, Shah A, Wagh A, Simpson J, Duke G, Chan P, Cartner B, Hunter S, Laver R, Shrestha T, Regli A, Pellicano A, McCullough J, Tallott M, Kumar N, Panwar R, Brinkerhoff G, Koppen C, Cazzola F, Brain M, Mineall S, Fischer R, Biradar V, Soar N, White H, Estensen K, Morrison L, Smith J, Cooper M, Health M, Shehabi Y, Al-Bassam W, Hulley A, Whitehead C, Lowrey J, Gresha R, Walsham J, Meyer J, Harward M, Venz E, Williams P, Kurenda C, Smith K, Smith M, Garcia R, Barge D, Byrne D, Byrne K, Driscoll A, Fortune L, Janin P, Yarad E, Hammond N, Bass F, Ashelford A, Waterson S, Wedd S, McNamara R, Buhr H, Coles J, Schweikert S, Wibrow B, Rauniyar R, Myers E, Fysh E, Dawda A, Mevavala B, Litton E, Ferrier J, Nair P, Buscher H, Reynolds C, Santamaria J, Barbazza L, Homes J, Smith R, Murray L, Brailsford J, Forbes L, Maguire T, Mariappa V, Smith J, Simpson S, Maiden M, Bone A, Horton M, Salerno T, Sterba M, Geng W, Depuydt P, De Waele J, De Bus L, Fierens J, Bracke S, Reeve B, Dechert W, Chassé M, Carrier FM, Boumahni D, Benettaib F, Ghamraoui A, Bellemare D, Cloutier È, Francoeur C, Lamontagne F, D’Aragon F, Carbonneau E, Leblond J, Vazquez-Grande G, Marten N, Wilson, Albert M, Serri K, Cavayas A, Duplaix M, Williams V, Rochwerg B, Karachi T, Oczkowski S, Centofanti J, Millen T, Duan E, Tsang J, Patterson L, English S, Watpool I, Porteous R, Miezitis S, McIntyre L, Brochard L, Burns K, Sandhu G, Khalid I, Binnie A, Powell E, McMillan A, Luk T, Aref N, Andric Z, Cviljevic S, Đimoti R, Zapalac M, Mirković G, Baršić B, Kutleša M, Kotarski V, Vujaklija Brajković A, Babel J, Sever H, Dragija L, Kušan I, Vaara S, Pettilä L, Heinonen J, Kuitunen A, Karlsson S, Vahtera A, Kiiski H, Ristimäki S, Azaiz A, Charron C, Godement M, Geri G, Vieillard-Baron A, Pourcine F, Monchi M, Luis D, Mercier R, Sagnier A, Verrier N, Caplin C, Siami S, Aparicio C, Vautier S, Jeblaoui A, Fartoukh M, Courtin L, Labbe V, Leparco C, Muller G, Nay MA, Kamel T, Benzekri D, Jacquier S, Mercier E, Chartier D, Salmon C, Dequin P, Schneider F, Morel G, L’Hotellier S, Badie J, Berdaguer FD, Malfroy S, Mezher C, Bourgoin C, Megarbane B, Voicu, Deye N, Malissin I, Sutterlin L, Guitton C, Darreau C, Landais M, Chudeau N, Robert A, Moine P, Heming N, Maxime V, Bossard I, Nicholier TB, Colin G, Zinzoni V, Maquigneau N, Finn A, Kreß G, Hoff U, Friedrich Hinrichs C, Nee J, Pletz M, Hagel S, Ankert J, Kolanos S, Bloos F, Petros S, Pasieka B, Kunz K, Appelt P, Schütze B, Kluge S, Nierhaus A, Jarczak D, Roedl K, Weismann D, Frey A, Klinikum Neukölln V, Reill L, Distler M, Maselli A, Bélteczki J, Magyar I, Fazekas Á, Kovács S, Szőke V, Szigligeti G, Leszkoven J, Collins D, Breen P, Frohlich S, Whelan R, McNicholas B, Scully M, Casey S, Kernan M, Doran P, O’Dywer M, Smyth M, Hayes L, Hoiting O, Peters M, Rengers E, Evers M, Prinssen A, Bosch Ziekenhuis J, Simons K, Rozendaal W, Polderman F, de Jager P, Moviat M, Paling A, Salet A, Rademaker E, Peters AL, de Jonge E, Wigbers J, Guilder E, Butler M, Cowdrey KA, Newby L, Chen Y, Simmonds C, McConnochie R, Ritzema Carter J, Henderson S, Van Der Heyden K, Mehrtens J, Williams T, Kazemi A, Song R, Lai V, Girijadevi D, Everitt R, Russell R, Hacking D, Buehner U, Williams E, Browne T, Grimwade K, Goodson J, Keet O, Callender O, Martynoga R, Trask K, Butler A, Schischka L, Young C, Lesona E, Olatunji S, Robertson Y, José N, Amaro dos Santos Catorze T, de Lima Pereira TNA, Neves Pessoa LM, Castro Ferreira RM, Pereira Sousa Bastos JM, Aysel Florescu S, Stanciu D, Zaharia MF, Kosa AG, Codreanu D, Marabi Y, Al Qasim E, Moneer Hagazy M, Al Swaidan L, Arishi H, Muñoz-Bermúdez R, Marin-Corral J, Salazar Degracia A, Parrilla Gómez F, Mateo López MI, Rodriguez Fernandez J, Cárcel Fernández S, Carmona Flores R, León López R, de la Fuente Martos C, Allan A, Polgarova P, Farahi N, McWilliam S, Hawcutt D, Rad L, O’Malley L, Whitbread J, Kelsall O, Wild L, Thrush J, Wood H, Austin K, Donnelly A, Kelly M, O’Kane S, McClintock D, Warnock M, Johnston P, Gallagher LJ, Mc Goldrick C, Mc Master M, Strzelecka A, Jha R, Kalogirou M, Ellis C, Krishnamurthy V, Deelchand V, Silversides J, McGuigan P, Ward K, O’Neill A, Finn S, Phillips B, Mullan D, Oritz-Ruiz de Gordoa L, Thomas M, Sweet K, Grimmer L, Johnson R, Pinnell J, Robinson M, Gledhill L, Wood T, Morgan M, Cole J, Hill H, Davies M, Antcliffe D, Templeton M, Rojo R, Coghlan P, Smee J, Mackay E, Cort J, Whileman A, Spencer T, Spittle N, Kasipandian V, Patel A, Allibone S, Genetu RM, Ramali M, Ghosh A, Bamford P, London E, Cawley K, Faulkner M, Jeffrey H, Smith T, Brewer C, Gregory J, Limb J, Cowton A, O’Brien J, Nikitas N, Wells C, Lankester L, Pulletz M, Williams P, Birch J, Wiseman S, Horton S, Alegria A, Turki S, Elsefi T, Crisp N, Allen L, McCullagh I, Robinson P, Hays C, Babio-Galan M, Stevenson H, Khare D, Pinder M, Selvamoni S, Gopinath A, Pugh R, Menzies D, Mackay C, Allan E, Davies G, Puxty K, McCue C, Cathcart S, Hickey N, Ireland J, Yusuff H, Isgro G, Brightling C, Bourne M, Craner M, Watters M, Prout R, Davies L, Pegler S, Kyeremeh L, Arbane G, Wilson K, Gomm L, Francia F, Brett S, Sousa Arias S, Elin Hall R, Budd J, Small C, Birch J, Collins E, Henning J, Bonner S, Hugill K, Cirstea E, Wilkinson D, Karlikowski M, Sutherland H, Wilhelmsen E, Woods J, North J, Sundaran D, Hollos L, Coburn S, Walsh J, Turns M, Hopkins P, Smith J, Noble H, Depante MT, Clarey E, Laha S, Verlander M, Williams A, Huckle A, Hall A, Cooke J, Gardiner-Hill C, Maloney C, Qureshi H, Flint N, Nicholson S, Southin S, Nicholson A, Borgatta B, Turner-Bone I, Reddy A, Wilding L, Chamara Warnapura L, Agno Sathianathan R, Golden D, Hart C, Jones J, Bannard-Smith J, Henry J, Birchall K, Pomeroy F, Quayle R, Makowski A, Misztal B, Ahmed I, KyereDiabour T, Naiker K, Stewart R, Mwaura E, Mew L, Wren L, Willams F, Innes R, Doble P, Hutter J, Shovelton C, Plumb B, Szakmany T, Hamlyn V, Hawkins N, Lewis S, Dell A, Gopal S, Ganguly S, Smallwood A, Harris N, Metherell S, Lazaro JM, Newman T, Fletcher S, Nortje J, Fottrell-Gould D, Randell G, Zaman M, Elmahi E, Jones A, Hall K, Mills G, Ryalls K, Bowler H, Sall J, Bourne R, Borrill Z, Duncan T, Lamb T, Shaw J, Fox C, Moreno Cuesta J, Xavier K, Purohit D, Elhassan M, Bakthavatsalam D, Rowland M, Hutton P, Bashyal A, Davidson N, Hird C, Chhablani M, Phalod G, Kirkby A, Archer S, Netherton K, Reschreiter H, Camsooksai J, Patch S, Jenkins S, Pogson D, Rose S, Daly Z, Brimfield L, Claridge H, Parekh D, Bergin C, Bates M, Dasgin J, McGhee C, Sim M, Hay SK, Henderson S, Phull MK, Zaidi A, Pogreban T, Rosaroso LP, Harvey D, Lowe B, Meredith M, Ryan L, Hormis A, Walker R, Collier D, Kimpton S, Oakley S, Rooney K, Rodden N, Hughes E, Thomson N, McGlynn D, Walden A, Jacques N, Coles H, Tilney E, Vowell E, Schuster-Bruce M, Pitts S, Miln R, Purandare L, Vamplew L, Spivey M, Bean S, Burt K, Moore L, Day C, Gibson C, Gordon E, Zitter L, Keenan S, Baker E, Cherian S, Cutler S, Roynon-Reed A, Harrington K, Raithatha A, Bauchmuller K, Ahmad N, Grecu I, Trodd D, Martin J, Wrey Brown C, Arias AM, Craven T, Hope D, Singleton J, Clark S, Rae N, Welters I, Hamilton DO, Williams K, Waugh V, Shaw D, Puthucheary Z, Martin T, Santos F, Uddin R, Somerville A, Tatham KC, Jhanji S, Black E, Dela Rosa A, Howle R, Tully R, Drummond A, Dearden J, Philbin J, Munt S, Vuylsteke A, Chan C, Victor S, Matsa R, Gellamucho M, Creagh-Brown B, Tooley J, Montague L, De Beaux F, Bullman L, Kersiake I, Demetriou C, Mitchard S, Ramos L, White K, Donnison P, Johns M, Casey R, Mattocks L, Salisbury S, Dark P, Claxton A, McLachlan D, Slevin K, Lee S, Hulme J, Joseph S, Kinney F, Senya HJ, Oborska A, Kayani A, Hadebe B, Orath Prabakaran R, Nichols L, Thomas M, Worner R, Faulkner B, Gendall E, Hayes K, Hamilton-Davies C, Chan C, Mfuko C, Abbass H, Mandadapu V, Leaver S, Forton D, Patel K, Paramasivam E, Powell M, Gould R, Wilby E, Howcroft C, Banach D, Fernández de Pinedo Artaraz Z, Cabreros L, White I, Croft M, Holland N, Pereira R, Zaki A, Johnson D, Jackson M, Garrard H, Juhaz V, Roy A, Rostron A, Woods L, Cornell S, Pillai S, Harford R, Rees T, Ivatt H, Sundara Raman A, Davey M, Lee K, Barber R, Chablani M, Brohi F, Jagannathan V, Clark M, Purvis S, Wetherill B, Dushianthan A, Cusack R, de Courcy-Golder K, Smith S, Jackson S, Attwood B, Parsons P, Page V, Zhao XB, Oza D, Rhodes J, Anderson T, Morris S, Xia Le Tai C, Thomas A, Keen A, Digby S, Cowley N, Wild L, Southern D, Reddy H, Campbell A, Watkins C, Smuts S, Touma O, Barnes N, Alexander P, Felton T, Ferguson S, Sellers K, Bradley-Potts J, Yates D, Birkinshaw I, Kell K, Marshall N, Carr-Knott L, and Summers C

Subjects

Adrenal Cortex Hormones therapeutic use, Adult, Anti-Inflammatory Agents adverse effects, Betacoronavirus, COVID-19, Coronavirus Infections mortality, Coronavirus Infections therapy, Early Termination of Clinical Trials, Female, Humans, Hydrocortisone adverse effects, Intensive Care Units, Male, Middle Aged, Pandemics, Pneumonia, Viral mortality, Pneumonia, Viral therapy, SARS-CoV-2, Shock drug therapy, Shock etiology, Treatment Outcome, COVID-19 Drug Treatment, Anti-Inflammatory Agents administration & dosage, Coronavirus Infections drug therapy, Hydrocortisone administration & dosage, Pneumonia, Viral drug therapy, Respiration, Artificial statistics & numerical data

Abstract

Importance: Evidence regarding corticosteroid use for severe coronavirus disease 2019 (COVID-19) is limited., Objective: To determine whether hydrocortisone improves outcome for patients with severe COVID-19., Design, Setting, and Participants: An ongoing adaptive platform trial testing multiple interventions within multiple therapeutic domains, for example, antiviral agents, corticosteroids, or immunoglobulin. Between March 9 and June 17, 2020, 614 adult patients with suspected or confirmed COVID-19 were enrolled and randomized within at least 1 domain following admission to an intensive care unit (ICU) for respiratory or cardiovascular organ support at 121 sites in 8 countries. Of these, 403 were randomized to open-label interventions within the corticosteroid domain. The domain was halted after results from another trial were released. Follow-up ended August 12, 2020., Interventions: The corticosteroid domain randomized participants to a fixed 7-day course of intravenous hydrocortisone (50 mg or 100 mg every 6 hours) (n = 143), a shock-dependent course (50 mg every 6 hours when shock was clinically evident) (n = 152), or no hydrocortisone (n = 108)., Main Outcomes and Measures: The primary end point was organ support-free days (days alive and free of ICU-based respiratory or cardiovascular support) within 21 days, where patients who died were assigned -1 day. The primary analysis was a bayesian cumulative logistic model that included all patients enrolled with severe COVID-19, adjusting for age, sex, site, region, time, assignment to interventions within other domains, and domain and intervention eligibility. Superiority was defined as the posterior probability of an odds ratio greater than 1 (threshold for trial conclusion of superiority >99%)., Results: After excluding 19 participants who withdrew consent, there were 384 patients (mean age, 60 years; 29% female) randomized to the fixed-dose (n = 137), shock-dependent (n = 146), and no (n = 101) hydrocortisone groups; 379 (99%) completed the study and were included in the analysis. The mean age for the 3 groups ranged between 59.5 and 60.4 years; most patients were male (range, 70.6%-71.5%); mean body mass index ranged between 29.7 and 30.9; and patients receiving mechanical ventilation ranged between 50.0% and 63.5%. For the fixed-dose, shock-dependent, and no hydrocortisone groups, respectively, the median organ support-free days were 0 (IQR, -1 to 15), 0 (IQR, -1 to 13), and 0 (-1 to 11) days (composed of 30%, 26%, and 33% mortality rates and 11.5, 9.5, and 6 median organ support-free days among survivors). The median adjusted odds ratio and bayesian probability of superiority were 1.43 (95% credible interval, 0.91-2.27) and 93% for fixed-dose hydrocortisone, respectively, and were 1.22 (95% credible interval, 0.76-1.94) and 80% for shock-dependent hydrocortisone compared with no hydrocortisone. Serious adverse events were reported in 4 (3%), 5 (3%), and 1 (1%) patients in the fixed-dose, shock-dependent, and no hydrocortisone groups, respectively., Conclusions and Relevance: Among patients with severe COVID-19, treatment with a 7-day fixed-dose course of hydrocortisone or shock-dependent dosing of hydrocortisone, compared with no hydrocortisone, resulted in 93% and 80% probabilities of superiority with regard to the odds of improvement in organ support-free days within 21 days. However, the trial was stopped early and no treatment strategy met prespecified criteria for statistical superiority, precluding definitive conclusions., Trial Registration: ClinicalTrials.gov Identifier: NCT02735707.

Published

2020

18. The REMAP-CAP (Randomized Embedded Multifactorial Adaptive Platform for Community-acquired Pneumonia) Study. Rationale and Design.

Author

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 JD, 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, and Webb SA

Subjects

Humans, Anti-Bacterial Agents therapeutic use, Antiviral Agents therapeutic use, Betacoronavirus, COVID-19, Evidence-Based Medicine, Pandemics, Point-of-Care Systems, SARS-CoV-2, Adaptive Clinical Trials as Topic, Randomized Controlled Trials as Topic, Community-Acquired Infections therapy, Coronavirus Infections therapy, Influenza, Human therapy, Pneumonia therapy, Pneumonia, Viral therapy

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).

Published

2020