Your search keyword '"Vieira, SR"' showing total 93 results

1. Use of electrical neuromuscular stimulation to preserve the morphology of abdominal and chest muscles of critical patients: randomized clinical trial

Author

Santos, LJ, Dall' Acqua, AM, Sachetti, A, Lemos, FA, Bianchi, T, Naue, WS, Sbruzzi, G, Dias, AS, Vieira, SR, and MoVe-ICU Group

Published

2015

2. Inhalation injury and clinical course in major burned patients

Author

Henrich, S, Rech, TH, Warwzeniak, IC, Moraes, RB, Parolo, E, Prado, K, and Vieira, SR

Published

2014

3. Early ambulation using a cycle ergometer on quadriceps muscle morphology in mechanically ventilated critically ILL patients in the intensive care unit: a randomized controlled trial

Author

Santos, LJ, Lemos, FA, Bianchi, T, Sachetti, A, Dall' Acqua, AM, Naue, WS, Dias, AS, Vieira, SR, and MoVe-ICU Study Group

Published

2015

4. Rationale, study design, and analysis plan of the Alveolar Recruitment for ARDS Trial (ART): study protocol for a randomized controlled trial

Author

Cavalcanti, AB, Berwanger, O, Suzumura, ÉA, Amato, MB, Tallo, FS, Rezende, AC, Telles, MM, Romano, E, Guimarães, HP, Regenga, MM, Takahashi, LN, Oliveira, RP, Carvalho, VO, Díaz Quijano, FA, Carvalho, CR, Kodama, AA, Ribeiro, GF, Abreu, MO, Oliveira, IM, Guyatt, G, Ferguson, N, Walter, S, Vasconcelos, MO, Segundo, VJ, Ferraz, ÍL, Silva, RS, de Oliveira Filho, W, Silva, NB, Heirel, C, Takatani, RR, Neto, JA, Neto, JC, Almeida, SD, Chamy, G, Neto, GJ, Dias, AP, Silva, RR, Tavares, RC, Souza, ML, Decio, JC, Lima, CM, Neto, FF, Oliveira, KR, Dias, PP, Brandão, AL, Ramos, JE Jr, Vasconcelos, PT, Flôres, DG, Filho, GR, Andrade, IG, Martinez, A, França, GG, Monteiro, LL, Correia, EI, Ribeiro, W, Pereira, AJ, Andrade, W, Leite, PA, Feto, JE, Holanda, MA, Amorim, FF, Margalho, SB, Domingues, SM Jr, Ferreira, CS, Ferreira, CM, Rabelo, LA, Duarte, JN, Lima, FB, Kawaguchi, IA, Maia, MO, Correa, FG, Ribeiro, RA, Caser, E, Moreira, CL, Marcilino, A, Falcão, JG, Jesus, KR, Tcherniakovisk, L, Dutra, VG, Thompson, MM, Piras, C, Giuberti, J. Jr, Silva, AS, Santos, JR, Potratz, JL, Paula, LN, Bozi, GG, Gomes, BC, Vassallo, PF, Rocha, E, Lima, MH, Ferreira, A. F, Gonçalves, F, Pereira, SA, Nobrega, MS, Caixeta, CR, Moraes, AP, Carvalho, AG, Alves, JD, Carvalho, FB, Moreira, FB, Starling, CM, Couto, WA, Bitencourt, WS, Silva, SG, Felizardo, LR, Nascimento, FJ, Santos, D, Zanta, CC, Martins, MF, Naves, SA, Silva, FD, Laube, G. Jr, Galvão, EL, Sousa, MF, Souza, MM, Carvalho, FL, Bergo, RR, Rezende, CM, Tamazato, EY, Sarat, SC Jr, Almeida, PS, Gorski, AG, Matsui, M, Neto, EE, Nomoto, SH, Lima, ZB, Inagaki, AS, Gil, FS, Araújo, MF, Oliveira, AE, Correa, TA, Mendonça, A, Reis, H, Carneiro, SR, Rego, LR, Cunha, AF, Barra, WF, Carneiro, M, Batista, RA, Zoghbi, KK, Machado, NJ, Ferreira, R, Apoena, P, Leão, RM, Martins, ER, Oliveira, ME, Odir, I, Kleber, W, Tavares, D, Araújo, ME, Brilhante, YN, Tavares, DC, Carvalho, WL, Winveler, GF, Filho, AC, Cavalcanti, RA, Grion, CM, Reis, AT, Festti, J, Gimenez, FM, Larangeira, AS, Cardoso, LT, Mezzaroba, TS, Kauss, IA, Duarte, PA, Tozo, TC, Peliser, P, Germano, A, Gurgel, SJ, Silva, SR, Kuroda, CM, Herek, A, Yamada, SS, Schiavetto, PM, Wysocki, N, Matsubara, RR, Sales, JA Jr, Laprovita, MP, Pena, FM, Sá, A, Vianna, A, Verdeal, JC, Martins, GA, Salgado, DR, Coelho, AM, Coelho, M, Morong, AS, Poquiriqui, RM, Ferreira, AP, Lucena, DN, Marino, NF, Moreira, MA, Uratani, CC, Severino, MA, Silva, PN, Medeiros, LG, Filho, FG, Guimarães, DM, Rezende, VM, Carbonell, RC, Trindade, RS, Pellegrini, JA, Boniatti, MM, Santos, MC, Boldo, R, Oliveira, VM, Corrêa, VM, Nedel, W, Teixeira, C, Schaich, F, Tagliari, L, Savi, A, Schulz, LF, Maccari, JG, Seeger, GM, Foernges, RB, Rieder, MM, Becker, DA, Broilo, FP, Schwarz, P, Alencastro, A, Berto, P, Backes, F, Dias, FS, Blattner, C, Martins, ET, Scaglia, NC, Vieira, SR, Prado, KF, Fialkow, L, Franke, C, Vieira, DF, Moraes, RB, Marques, LS, Hopf, JL, Wawrzeniak, IC, Rech, TH, Albuquerque, RB, Guerreiro, MO, Teixeira, LO, Macedo, PL, Bainy, MP, Ferreira, EV, Martins, MA, Andrade, LA, Machado, FO, Burigo, AC, Pincelli, M, Kretzer, L, Maia, IS, Cordeiro, RB, Westphal, G, Cramer, AS, Dadam, MM, Barbosa, PO, Caldeira, M, Brilenger, CO, Horner, MB, Oliveira, GL, Germiniani, BC, Duarte, R, Assef, MG, Rosso, D, Bigolin, R, Vanzuita, R, Prado, LF, Oliveira, V, Reis, DL, Morais, MO, Bastos, RS, Santana, HS, Silva, AO, Cacau, LA, Almeida, MS, Canavessi, HS, Nogueira, EE, Pavia, CL, Araujo, JF, Lira, JA, Nienstedt, EC, Smith, TC, Romano, M, Barros D, Costa, AF, Takahashi, L, Werneck, V, Farran, J, Henriques, LA, Miura, C, Lopes, RD, Vendrame, LS, Sandri, P, Galassi, MS, Amato, P, Toufen, C. Jr, Santiago, RR, Hirota, AS, Park, M, Azevedo, LC, Malbouison, LM, Costa, MC, Taniguchi, L, Pompílio, CE, Baruzzi, C, Andrade, AH, Taira, EE, Taino, B, Oliveira, CS, Silva, AC, Ísola, A, Rezende, E, Rodrigues, RG, Rangel, VP, Luzzi, S, Giacomassi, IW, Nassar, AP Jr, Souza, AR, Rahal, L, Nunes, AL, Giannini, F, Menescal, B, Morais, JE, Toledo, D, Morsch, RD, Merluzzi, T, Amorim, DS, Bastos, AC, Santos, PL, Silva, SF, Gallego, RC, Santos, GD, Tucci, M, Costa, RT, Santos, LS, Demarzo, SE, Schettino, GP, Suzuki, VC, Patrocinio, AC, Martins, ML, Passos, DB, Cappi, SB, Gonçalves, I. Jr, Borges, MC, Lovato, W, Tavares, MV, Morales, D, Machado, LA, Torres, FC, Gomes, TM, Cerantola, RB, Góis, A, Marraccini, T, Margarida, K, Cavalcante, E, Machado, FR, Mazza, BF, Santana, HB, Mendez, VM, Xavier, PA, Rabelo, MV, Schievano, FR, Pinto, WA, Francisco, RS, Ferreira, EM, Silva, DC, Arduini, RG, Aldrighi, JR, Amaro, AF, Conde, KA, Pereira, CA, Tarkieltaub, E, Oliver, WR, Guadalupe, EG, Acerbi, PS, Tomizuka, CI, Oliveira, TA, Geha, NN, Mecatti, GC, Piovesan, MZ, Salomão, MC, Moreno, MS, Orsatti, VN, Miranda, W, Ray, A, Guerra, A, Filho, ML, Ferreira, FH Jr, Filho, EV, Canzi, RA, Giuberti, AF, Garcez, MC, Sala, AD, Suguitani, EO, Kazue, P, Oliveira, LR, Infantini, RM, Carvalho, FR, Andrade, LC, Santos, TM, Carmona, CV, Figueiredo, LC, Falcão, A, Dragosavak, D, Filho, WN, Lunardi, MC, Lago, R, Gatti, C, Chiasso, TM, Santos, GO, Araujo, AC, Ornellas, IB, Vieira, VM, Hajjar, LA, Figueiredo, AC, Damasceno, B, Hinestrosa, A, Diaz Quijano, FA, CORTEGIANI, Andrea, RAINERI, Santi Maurizio, Cavalcanti, AB, Berwanger, O, Suzumura, ÉA, Amato, MB, Tallo, FS, Rezende, AC, Telles, MM, Romano, E, Guimarães, HP, Regenga, MM, Takahashi, LN, Oliveira, RP, Carvalho, VO, Díaz-Quijano, FA, Carvalho, CR, Kodama, AA, Ribeiro, GF, Abreu, MO, Oliveira, IM, Guyatt, G, Ferguson, N, Walter, S, Vasconcelos, MO, Segundo, VJ, Ferraz, ÍL, Silva, RS, de Oliveira Filho, W, Silva, NB, Heirel, C, Takatani, RR, Neto, JA, Neto, JC, Almeida, SD, Chamy, G, Neto, GJ, Dias, AP, Silva, RR, Tavares, RC, Souza, ML, Decio, JC, Lima, CM, Neto, FF, Oliveira, KR, Dias, PP, Brandão, AL, Ramos, JE Jr, Vasconcelos, PT, Flôres, DG, Filho, GR, Andrade, IG, Martinez, A, França, GG, Monteiro, LL, Correia, EI, Ribeiro, W, Pereira, AJ, Andrade, W, Leite, PA, Feto, JE, Holanda, MA, Amorim, FF, Margalho, SB, Domingues, SM Jr, Ferreira, CS, Ferreira, CM, Rabelo, LA, Duarte, JN, Lima, FB, Kawaguchi, IA, Maia, MO, Correa, FG, Ribeiro, RA, Caser, E, Moreira, CL, Marcilino, A, Falcão, JG, Jesus, KR, Tcherniakovisk, L, Dutra, VG, Thompson, MM, Piras, C, Giuberti, J Jr, Silva, AS, Santos, JR, Potratz, JL, Paula, LN, Bozi, GG, Gomes, BC, Vassallo, PF, Rocha, E, Lima, MH, Ferreira, A F, Gonçalves, F, Pereira, SA, Nobrega, MS, Caixeta, CR, Moraes, AP, Carvalho, AG, Alves, JD, Carvalho, FB, Moreira, FB, Starling, CM, Couto, WA, Bitencourt, WS, Silva, SG, Felizardo, LR, Nascimento, FJ, Santos, D, Zanta, CC, Martins, MF, Naves, SA, Silva, FD, Laube, G Jr, Galvão, EL, Sousa, MF, Souza, MM, Carvalho, FL, Bergo, RR, Rezende, CM, Tamazato, EY, Sarat, SC Jr, Almeida, PS, Gorski, AG, Matsui, M, Neto, EE, Nomoto, SH, Lima, ZB, Inagaki, AS, Gil, FS, Araújo, MF, Oliveira, AE, Correa, TA, Mendonça, A, Reis, H, Carneiro, SR, Rego, LR, Cunha, AF, Barra, WF, Carneiro, M, Batista, RA, Zoghbi, KK, Machado, NJ, Ferreira, R, Apoena, P, Leão, RM, Martins, ER, Oliveira, ME, Odir, I, Kleber, W, Tavares, D, Araújo, ME, Brilhante, YN, Tavares, DC, Carvalho, WL, Winveler, GF, Filho, AC, Cavalcanti, RA, Grion, CM, Reis, AT, Festti, J, Gimenez, FM, Larangeira, AS, Cardoso, LT, Mezzaroba, TS, Kauss, IA, Duarte, PA, Tozo, TC, Peliser, P, Germano, A, Gurgel, SJ, Silva, SR, Kuroda, CM, Herek, A, Yamada, SS, Schiavetto, PM, Wysocki, N, Matsubara, RR, Sales, JA Jr, Laprovita, MP, Pena, FM, Sá, A, Vianna, A, Verdeal, JC, Martins, GA, Salgado, DR, Coelho, AM, Coelho, M, Morong, AS, Poquiriqui, RM, Ferreira, AP, Lucena, DN, Marino, NF, Moreira, MA, Uratani, CC, Severino, MA, Silva, PN, Medeiros, LG, Filho, FG, Guimarães, DM, Rezende, VM, Carbonell, RC, Trindade, RS, Pellegrini, JA, Boniatti, MM, Santos, MC, Boldo, R, Oliveira, VM, Corrêa, VM, Nedel, W, Teixeira, C, Schaich, F, Tagliari, L, Savi, A, Schulz, LF, Maccari, JG, Seeger, GM, Foernges, RB, Rieder, MM, Becker, DA, Broilo, FP, Schwarz, P, Alencastro, A, Berto, P, Backes, F, Dias, FS, Blattner, C, Martins, ET, Scaglia, NC, Vieira, SR, Prado, KF, Fialkow, L, Franke, C, Vieira, DF, Moraes, RB, Marques, LS, Hopf, JL, Wawrzeniak, IC, Rech, TH, Albuquerque, RB, Guerreiro, MO, Teixeira, LO, Macedo, PL, Bainy, MP, Ferreira, EV, Martins, MA, Andrade, LA, Machado, FO, Burigo, AC, Pincelli, M, Kretzer, L, Maia, IS, Cordeiro, RB, Westphal, G, Cramer, AS, Dadam, MM, Barbosa, PO, Caldeira, M, Brilenger, CO, Horner, MB, Oliveira, GL, Germiniani, BC, Duarte, R, Assef, MG, Rosso, D, Bigolin, R, Vanzuita, R, Prado, LF, Oliveira, V, Reis, DL, Morais, MO, Bastos, RS, Santana, HS, Silva, AO, Cacau, LA, Almeida, MS, Canavessi, HS, Nogueira, EE, Pavia, CL, Araujo, JF, Lira, JA, Nienstedt, EC, Smith, TC, Romano, M, Barros D, Costa, AF, Takahashi, L, Werneck, V, Farran, J, Henriques, LA, Miura, C, Lopes, RD, Vendrame, LS, Sandri, P, Galassi, MS, Amato, P, Toufen, C Jr, Santiago, RR, Hirota, AS, Park, M, Azevedo, LC, Malbouison, LM, Costa, MC, Taniguchi, L, Pompílio, CE, Baruzzi, C, Andrade, AH, Taira, EE, Taino, B, Oliveira, CS, Silva, AC, Ísola, A, Rezende, E, Rodrigues, RG, Rangel, VP, Luzzi, S, Giacomassi, IW, Nassar, AP Jr, Souza, AR, Rahal, L, Nunes, AL, Giannini, F, Menescal, B, Morais, JE, Toledo, D, Morsch, RD, Merluzzi, T, Amorim, DS, Bastos, AC, Santos, PL, Silva, SF, Gallego, RC, Santos, GD, Tucci, M, Costa, RT, Santos, LS, Demarzo, SE, Schettino, GP, Suzuki, VC, Patrocinio, AC, Martins, ML, Passos, DB, Cappi, SB, Gonçalves, I Jr, Borges, MC, Lovato, W, Tavares, MV, Morales, D, Machado, LA, Torres, FC, Gomes, TM, Cerantola, RB, Góis, A, Marraccini, T, Margarida, K, Cavalcante, E, Machado, FR, Mazza, BF, Santana, HB, Mendez, VM, Xavier, PA, Rabelo, MV, Schievano, FR, Pinto, WA, Francisco, RS, Ferreira, EM, Silva, DC, Arduini, RG, Aldrighi, JR, Amaro, AF, Conde, KA, Pereira, CA, Tarkieltaub, E, Oliver, WR, Guadalupe, EG, Acerbi, PS, Tomizuka, CI, Oliveira, TA, Geha, NN, Mecatti, GC, Piovesan, MZ, Salomão, MC, Moreno, MS, Orsatti, VN, Miranda, W, Ray, A, Guerra, A, Filho, ML, Ferreira, FH Jr, Filho, EV, Canzi, RA, Giuberti, AF, Garcez, MC, Sala, AD, Suguitani, EO, Kazue, P, Oliveira, LR, Infantini, RM, Carvalho, FR, Andrade, LC, Santos, TM, Carmona, CV, Figueiredo, LC, Falcão, A, Dragosavak, D, Filho, WN, Lunardi, MC, Lago, R, Gatti, C, Chiasso, TM, Santos, GO, Araujo, AC, Ornellas, IB, Vieira, VM, Hajjar, LA, Figueiredo, AC, Damasceno, B, Hinestrosa, A, Diaz-Quijano, FA, Raineri, SM, and Cortegiani, A

Subjects

Research design, ARDS, medicine.medical_specialty, Time Factors, Ventilator-Induced Lung Injury, Alveolar recruitment, Treatment outcome, Randomized, Medicine (miscellaneous), Settore MED/41 - Anestesiologia, Hospital mortality, law.invention, Positive-Pressure Respiration, Study Protocol, Mechanical ventilation, Clinical trials, Randomized controlled trial, Clinical Protocols, law, Medicine, Humans, Pharmacology (medical), Hospital Mortality, PEEP, Protocol (science), Respiratory Distress Syndrome, Acute respiratory distress syndrome, business.industry, respiratory system, Length of Stay, medicine.disease, Clinical trial, Pulmonary Alveoli, Intensive Care Units, Treatment Outcome, Multicenter study, Barotrauma, Research Design, Physical therapy, business, Brazil

Abstract

Background Acute respiratory distress syndrome (ARDS) is associated with high in-hospital mortality. Alveolar recruitment followed by ventilation at optimal titrated PEEP may reduce ventilator-induced lung injury and improve oxygenation in patients with ARDS, but the effects on mortality and other clinical outcomes remain unknown. This article reports the rationale, study design, and analysis plan of the Alveolar Recruitment for ARDS Trial (ART). Methods/Design ART is a pragmatic, multicenter, randomized (concealed), controlled trial, which aims to determine if maximum stepwise alveolar recruitment associated with PEEP titration is able to increase 28-day survival in patients with ARDS compared to conventional treatment (ARDSNet strategy). We will enroll adult patients with ARDS of less than 72 h duration. The intervention group will receive an alveolar recruitment maneuver, with stepwise increases of PEEP achieving 45 cmH2O and peak pressure of 60 cmH2O, followed by ventilation with optimal PEEP titrated according to the static compliance of the respiratory system. In the control group, mechanical ventilation will follow a conventional protocol (ARDSNet). In both groups, we will use controlled volume mode with low tidal volumes (4 to 6 mL/kg of predicted body weight) and targeting plateau pressure ≤30 cmH2O. The primary outcome is 28-day survival, and the secondary outcomes are: length of ICU stay; length of hospital stay; pneumothorax requiring chest tube during first 7 days; barotrauma during first 7 days; mechanical ventilation-free days from days 1 to 28; ICU, in-hospital, and 6-month survival. ART is an event-guided trial planned to last until 520 events (deaths within 28 days) are observed. These events allow detection of a hazard ratio of 0.75, with 90% power and two-tailed type I error of 5%. All analysis will follow the intention-to-treat principle. Discussion If the ART strategy with maximum recruitment and PEEP titration improves 28-day survival, this will represent a notable advance to the care of ARDS patients. Conversely, if the ART strategy is similar or inferior to the current evidence-based strategy (ARDSNet), this should also change current practice as many institutions routinely employ recruitment maneuvers and set PEEP levels according to some titration method. Trial registration ClinicalTrials.gov Identifier: NCT01374022

Published

2012

5. ESICM LIVES 2016: part two : Milan, Italy. 1-5 October 2016

Author

Sivakumar, S, Taccone, FS, Desai, KA, Lazaridis, C, Skarzynski, M, Sekhon, M, Henderson, W, Griesdale, D, Chapple, L, Deane, A, Williams, L, Ilia, S, Henderson, A, Hugill, K, Howard, P, Roy, A, Bonner, S, Monteiro, E, Baudouin, S, Ramírez, CS, Escalada, SH, Banaszewski, M, Sertedaki, A, Kaymak, Ç, Viera, MA, Santana, MC, Balcázar, LC, Monroy, NS, Campelo, FA, Vázquez, CF, Santana, PS, Cerejo, A, Santana, SR, Charmadari, E, Carteron, L, Kovach, L, Patet, C, Quintard, H, Solari, D, Bouzat, P, Oddo, M, Wollersheim, T, Malleike, J, Haas, K, Stratakis, CA, Rocha, AP, Carbon, N, Şencan, I, Schneider, J, Birchmeier, C, Fielitz, J, Spuler, S, Weber-Carstens, S, Enseñat, L, Pérez-Madrigal, A, Briassouli, E, Saludes, P, Proença, L, Elsayed, AA, Meço, B, Gruartmoner, G, Espinal, C, Mesquida, J, Huber, W, Eckmann, M, Elkmann, F, Goukos, D, Gruber, A, Lahmer, T, Mayr, U, Herner, A, Özçelik, M, Abougabal, AM, Schellnegger, R, Schmid, RM, Ayoub, W, Psarra, K, Samy, W, Esmat, A, Battah, A, Mukhtar, S, Mongkolpun, W, Ünal, N, Cortés, DO, Beshey, BN, Cordeiro, CP, Vincent, JL, Leite, MA, Creteur, J, Funcke, S, Groesdonk, H, Saugel, B, Wagenpfeil, G, Wagenpfeil, S, Reuter, DA, Fernandez, MM, Alzahaby, KM, Botoula, E, Fernandez, R, Magret, M, González-Castro, A, Bouza, MT, Ibañez, M, García, C, Balerdi, B, Jenni-Moser, B, Mas, A, Arauzo, V, Tsagarakis, S, Añón, JM, Pozzebon, S, Ruiz, F, Ferreres, J, Tomás, R, Alabert, M, Tizón, AI, Altaba, S, Jeitziner, MM, Llamas, N, Haroon, BA, Edul, VS, Goligher, EC, Fan, E, Herridge, M, Ortiz, AB, Vorona, S, Sklar, M, Dres, M, Rittayamai, N, Lanys, A, Schreiber, J, Mageira, E, Urrea, C, Tomlinson, G, Reid, WD, Rubenfeld, GD, Kavanagh, BP, Cristallini, S, Brochard, LJ, Ferguson, ND, Neto, AS, De Abreu, MG, Routsi, C, Imiela, J, Galassi, MS, Pelosi, P, Schultz, MJ, PRoVENT investigators and the PROVE Network, Guérin, C, Papazian, L, Reignier, J, Lheureux, O, Ayzac, L, Nanas, S, Loundou, A, Forel, JM, Sales, FL, Rolland-Debord, C, Bureau, C, Poitou, T, Clavel, M, Perbet, S, Terzi, N, Kouatchet, A, Briassoulis, G, Brasseur, A, Similowski, T, Demoule, A, De Moraes, KC, Hunfeld, N, Trogrlic, Z, Ladage, S, Osse, RJ, Koch, B, Rietdijk, W, Boscolo, A, Devlin, J, Van der Jagt, M, Picetti, E, Batista, CL, Ceccarelli, P, Mensi, F, Malchiodi, L, Risolo, S, Rossi, I, Bertini, D, Antonini, MV, Servadei, F, Caspani, ML, Roquilly, A, Júnior, JA, Lasocki, S, Seguin, P, Geeraerts, T, Perrigault, PF, Campello, E, Dahyot-Fizelier, C, Paugam-Burtz, C, Cook, F, Cinotti, R, Dit Latte, DD, Mahe, PJ, Marcari, TB, Fortuit, C, Feuillet, F, Lucchetta, V, Asehnoune, K, Marzorati, C, Spina, S, Scaravilli, V, Vargiolu, A, Riva, M, Giussani, C, Lobato, R, Sganzerla, E, Hravnak, M, Osaku, EF, Citerio, G, Barbadillo, S, De Molina, FJ, Álvarez-Lerma, F, Rodríguez, A, SEMICYUC/GETGAG Working Group, Zakharkina, T, Martin-Loeches, I, Castro, CS, Matamoros, S, Fuhrmann, V, Piasentini, E, Povoa, P, Yousef, K, Torres, A, Kastelijn, J, Hofstra, JJ, De Jong, M, Schultz, M, Sterk, P, Artigas, A, De Souza, LM, Aktepe, O, Bos, LJ, Moreau, AS, Chang, Y, Salluh, J, Rodriguez, A, Nseir, S, TAVeM study group, De Jong, E, Fildisis, G, Rodrigues, FF, Van Oers, JA, Beishuizen, A, Girbes, AR, Nijsten, MW, Crago, E, De Lange, DW, Bonvicini, D, Labate, D, Benacchio, L, Radu, CM, Olivieri, A, Stepinska, J, Wruck, ML, Pizzirani, E, Lopez-Delgado, JC, Gonzalez-Romero, M, Fuentes-Mila, V, Berbel-Franco, D, Friedlander, RM, Romera-Peregrina, I, Manesso, L, Martinez-Pascual, A, Perez-Sanchez, J, Abellan-Lencina, R, Correa, NG, Ávila-Espinoza, RE, Moreno-Gonzalez, G, Sbraga, F, Griffiths, S, Grocott, MP, Creagh-Brown, B, Simioni, P, Abdelmonem, SA, POPC-CB investigators, Doyle, J, Wilkerson, P, Pelegrini, AM, Soon, Y, Huddart, S, Dickinson, M, Riga, A, Zuleika, A, Ori, C, Miyamoto, K, Kawazoe, Y, Tahon, SA, Morimoto, T, Yamamoto, T, Eid, RA, Fuke, A, Hashimoto, A, Koami, H, Beppu, S, Su, H, Katayama, Y, Ito, M, Ohta, Y, Yamamura, H, Helmy, TA, DESIRE (DExmedetomidine for Sepsis in ICU Randomized Evaluation) Trial Investigators, Timenetsky, KT, Rygård, SL, Holst, LB, Wetterslev, J, Lam, YM, Johansson, PI, Perner, A, Soliman, IW, Van Dijk, D, Van Delden, JJ, Meligy, HS, Cazati, D, Cremer, OL, Slooter, AJ, Willis, K, Peelen, LM, McWilliams, D, Snelson, C, Neves, AD, Loudet, CI, Busico, M, Vazquez, D, Villalba, D, Lobato, M, Puig, F, Kott, M, Pullar, V, Veronesi, M, Lischinsky, A, López, FJ, Mori, LB, Plotnikow, G, Díaz, A, Giannasi, S, Hernandez, R, Krzisnik, L, Diniz, PS, Hubner, RP, Cecotti, C, Dunn-Siegrist, I, Viola, L, Lopez, R, Sottile, JP, Benavent, G, Estenssoro, E, Chen, CM, Lai, CC, Cheng, KC, Costa, CR, Rocha, LL, Chou, W, Chan, KS, Pugin, J, Roeker, LE, Horkan, CM, Gibbons, FK, Christopher, KB, Weijs, PJ, Mogensen, KM, Furche, M, Rawn, JD, Cavalheiro, AM, Robinson, MK, Tang, Z, Gupta, S, Qiu, C, Ouyang, B, Cai, C, Guan, X, Tsang, JL, Regueira, T, Cea, L, Topeli, A, Lucinio, NM, Carlos, SJ, Elisa, B, Puebla, C, Vargas, A, Govil, D, Poulsen, MK, De Guadiana-Romualdo, LG, Thomsen, LP, Kjærgaard, S, Rees, SE, Karbing, DS, Schwedhelm, E, Frank, S, Müller, MC, Carbon, NM, Skrypnikov, V, Rebollo-Acebes, S, Srinivasan, S, Pickerodt, PA, Falk, R, Mahlau, A, Santos, ER, Lee, A, Inglis, R, Morgan, R, Barker, G, Esteban-Torrella, P, Kamata, K, Abe, T, Patel, SJ, Saitoh, D, Tokuda, Y, Green, RS, Norrenberg, M, Butler, MB, Erdogan, M, Hwa, HT, Jiménez-Sánchez, R, Gil, LJ, Vaquero, RH, Rodriguez-Ruiz, E, Lago, AL, N, JK, Allut, JL, Gestal, AE, Gleize, A, Gonzalez, MA, Thomas-Rüddel, DO, Jiménez-Santos, E, Schwarzkopf, D, Fleischmann, C, Reinhart, K, Suwanpasu, S, Sattayasomboon, Y, Filho, NM, Gupta, A, Oliveira, JC, Preiser, JC, Ballalai, CS, Zitta, K, Ortín-Freire, A, De Lucia, CV, Araponga, GP, Veiga, LN, Silva, CS, Garrido, ME, Ramos, BB, Ricaldi, EF, Gomes, SS, Tomar, DS, Simón, IF, Hernando-Holgado, A, GEMINI, Gemmell, L, MacKay, A, Wright, C, Docking, RI, Doherty, P, Black, E, Stenhouse, P, Plummer, MP, Finnis, ME, Albaladejo-Otón, MD, Carmona, SA, Shafi, M, Phillips, LK, Kar, P, Bihari, S, Biradar, V, Moodie, S, Horowitz, M, Shaw, JE, Deane, AM, Coelho, L, Yatabe, T, Valhonrat, IL, Inoue, S, Harne, R, Sakaguchi, M, Egi, M, Abdelhamid, YA, Motta, MF, Domínguez, JP, Arora, DP, Hokka, M, Pattinson, KT, Mizobuchi, S, Pérez, AG, Abellán, AN, Plummer, M, Giersch, E, Talwar, N, Summers, M, Pelenz, M, Hatzinikolas, S, Heller, S, Chapman, M, Jones, K, Almudévar, PM, Schweizer, R, Jacquet-Lagreze, M, Portran, P, Rabello, L, Mazumdar, S, Junot, S, Allaouchiche, B, Fellahi, JL, Guerci, P, Ergin, B, Lange, K, Kapucu, A, Ince, C, Cioccari, L, Luethi, N, Crisman, M, Papakrivou, EE, Bellomo, R, Mårtensson, J, Shinotsuka, CR, Fagnoul, D, Kluge, S, Orbegozo, D, Makris, D, Thooft, A, Brimioulle, S, Dávila, F, Iwasaka, H, Brandt, B, Tahara, S, Nagamine, M, Ichigatani, A, Cabrera, AR, Zepeda, EM, Granillo, JF, Manoulakas, E, Sánchez, JS, Montoya, AA, Rubio, JJ, Montenegro, AP, Blanco, GA, Robles, CM, Drolz, A, Horvatits, T, Roedl, K, Rutter, K, Tsolaki, B, Funk, GC, Póvoa, P, Ramos, AJ, Schneeweiss, B, Sabetian, G, Pooresmaeel, F, Zand, F, Ghaffaripour, S, Farbod, A, Tabei, H, Taheri, L, TAVeM study Group, Karadodas, B, Reina, Á, Anandanadesan, R, Metaxa, V, Teixeira, C, Pereira, SM, Hernández-Marrero, P, Carvalho, AS, Beckmann, M, Hartog, CS, Varis, E, Raadts, A, López, NP, Zakynthinos, E, Robertsen, A, Førde, R, Skaga, NO, Helseth, E, Honeybul, S, Ho, K, Vazquez, AR, Lopez, PM, Gonzalez, MN, Ortega, PN, Pérez, MA, Sola, EC, Garcia, IP, Spasova, T, De la Torre-Prados, MV, Kopecky, O, Rusinova, K, Pettilä, V, Waldauf, P, Cepeplikova, Z, Balik, M, Ordoñez, PF, Apolo, DX, Almudevar, PM, Martin, AD, Muñoz, JJ, Poukkanen, M, Castañeda, DP, Villamizar, PR, Ramos, JV, Pérez, LP, Lucendo, AP, Villén, LM, Ejarque, MC, Estella, A, Camps, VL, Neitzke, NM, Encinares, VS, Martín, MC, Masnou, N, Bioethics work group of SEMICYUC, Barbosa, S, Varela, A, Palma, I, López, FM, Cristina, L, Nunes, E, Jacob, S, Pereira, I, Campello, G, Ibañez, MP, Granja, C, Pande, R, Pandey, M, Varghese, S, Chanu, M, García, IP, Van Dam, MJ, Schildhauer, C, Karlsson, S, Ter Braak, EW, Gracia, M, Viciana, R, Montero, JG, Recuerda, M, Fontaiña, LP, Tharmalingam, B, Kovari, F, Zöllner, C, Rose, L, Mcginlay, M, Amin, R, Burns, K, Connolly, B, Hart, N, Labrador, G, Jouvet, P, Katz, S, Leasa, D, Takala, J, Izurieta, JR, Mawdsley, C, Mcauley, D, Blackwood, B, Denham, S, Worrall, R, Arshad, M, Cangueiro, TC, Isherwood, P, Wilkman, E, Khadjibaev, A, Guerrero, JJ, Sabirov, D, Rosstalnaya, A, Parpibaev, F, Sharipova, V, Guzman, CI, FINNAKI Study Group, Poulose, V, Renal Transplantation HUVR, Lundberg, OH, Koh, J, Calvert, S, Cha, YS, Lee, SJ, Tyagi, N, Rajput, RK, Birri, PN, Taneja, S, Singh, VK, Sharma, SC, Mittal, S, Quint, M, Kam, JW, Rao, BK, Ayachi, J, Fraj, N, Romdhani, S, Bergenzaun, L, Khedher, A, Meddeb, K, Sma, N, Azouzi, A, Bouneb, R, Giribet, A, Adeniji, K, Chouchene, I, Yeter, H, El Ghardallou, M, Rydén, J, Boussarsar, M, Jennings, R, Walter, E, Ribeiro, JM, Moniz, I, Marçal, R, Santos, AC, Young, R, Candeias, C, E Silva, ZC, Rosenqvist, M, Kara, A, Gomez, SE, Nieto, OR, Gonzalez, JA, Cuellar, AI, Mildh, H, Korhonen, AM, Shevill, DD, Elke, G, Moraes, MM, Ala-Kokko, T, Reinikainen, M, Robertson, E, Garside, P, Tavladaki, T, Isotti, P, De Vecchi, MM, Perduca, AE, Cuervo, MA, Melander, O, Negro, A, Villa, G, Manara, DF, Cabrini, L, Zangrillo, A, Frencken, JF, Spanaki, AM, Van Baal, L, Donker, DW, Chew, MS, Cuervo, RA, Horn, J, Van der Poll, T, Van Klei, WA, Bonten, MJ, Menard, CE, Kumar, A, Dimitriou, H, Rimmer, E, Doucette, S, Esteban, MA, Turgeon, AF, Houston, BL, Houston, DS, Zarychanski, R, Pinto, BB, Carrara, M, Ferrario, M, Bendjelid, K, Kondili, E, Nunes, J, Fraile, LI, Diaz, P, Silva, G, Escórcio, S, Chaves, S, Jardim, M, Fernandes, N, Câmara, M, Duarte, R, Pereira, CA, Choulaki, C, Mittelbrum, CP, Vieira, J, Nóbrega, JJ, De Oca-Sandoval, MA, Sánchez-Rodríguez, A, Joya-Galeana, JG, Correa-Morales, A, Camarena-Alejo, G, Aguirre-Sánchez, J, Franco-Granillo, J, Albaiceta, GM, Meleti, E, Soliman, M, Al Azab, A, El Hossainy, R, Nagy, H, Nirmalan, M, Crippa, IA, Cavicchi, FZ, Koeze, J, Kafetzopoulos, D, Chaari, A, Hakim, KA, Hassanein, H, Etman, M, El Bahr, M, Bousselmi, K, Khalil, ES, Kauts, V, Tsolakoglou, I, Casey, WF, Imahase, H, Georgopoulos, D, Sakamoto, Y, Yamada, KC, Miike, T, Nagashima, F, Iwamura, T, Keus, F, Hummitzsch, L, Kishihara, Y, Heyland, D, Spiezia, L, Dieperink, W, Souza, RB, Yasuda, H, Martins, AM, Liberatore, AM, Kang, YR, Nakamae, MN, La Torre, AG, Vieira, JC, Koh, IH, Hanslin, K, Wilske, F, Van der Horst, IC, Jaskowiak, JL, Skorup, P, Sjölin, J, Lipcsey, M, Long, WJ, Zhen, CE, Vakalos, A, Avramidis, V, Wu, SH, Shyu, LJ, Rebollo, S, Van Meurs, M, Li, CH, Yu, CH, Chen, HC, Wang, CH, Lin, KH, Aray, ZE, Gómez, CF, Tsvetanova-Spasova, T, Tejero, AP, Monge, DD, Zijlstra, JG, Losada, VM, Tarancón, CM, Cortés, SD, Gutiérrez, AM, Álvarez, TP, Rouze, A, Jaffal, K, Six, S, Jimenez, R, Nuevo-Ortega, P, Stolz, K, Roberts, S, Cattoen, V, Arnal, JM, Saoli, M, Novotni, D, Garnero, A, Becher, T, Torrella, PE, Buchholz, V, Schädler, D, Rueda-Molina, C, Caballero, CH, Frerichs, I, Weiler, N, Eronia, N, Mauri, T, Gatti, S, Maffezzini, E, Fernandez, A, Bronco, A, Alban, L, Sasso, T, Marenghi, C, Isgro, G, Fernández-Porcel, A, Grasselli, G, Pesenti, A, Bellani, G, Al-Fares, A, Dubin, A, Del Sorbo, L, Anwar, S, Facchin, F, Azad, S, Zamel, R, Hall, D, Ferguson, N, Camara-Sola, E, Cypel, M, Keshavjee, S, Sanchez, S, Durlinger, E, Spoelstra-de Man, A, Smit, B, De Grooth, HJ, Girbes, A, Beitland, S, Straaten, HO, Smulders, Y, Salido-Díaz, L, Ortin, A, Alfaro, MA, Parrilla, F, Meli, A, Pellegrini, M, Rodriguez, N, Goyeneche, JM, Morán, I, Intas, G, Aguirre, H, Mancebo, J, Bassi, GL, Heines, SJ, García-Alcántara, A, Strauch, U, Bergmans, DC, Blankman, P, Shono, A, Hasan, D, Gommers, D, Trøseid, AM, Chung, WY, Prats, RG, Lee, KS, Jung, YJ, Park, JH, Sheen, SS, Park, KJ, Worral, R, Brusletto, BS, Larraza, S, Dey, N, Spadaro, S, Brohus, JB, Winding, RW, Volta, CA, Silva, MM, Waldum-Grevbo, BE, Ampatzidou, F, Vlachou, A, Kehagioglou, G, Karaiskos, T, Madesis, A, Mauromanolis, C, Michail, N, Drossos, G, Aguilera, E, Saraj, N, Berg, JP, Rijkenberg, S, Feijen, HM, Endeman, H, Donnelly, AA, Morgan, E, Garrard, H, Buckley, H, Russell, L, Marti, D, Haase, N, Sunde, K, Goh, C, Mouyis, K, Woodward, CL, Halliday, J, Encina, GB, Ros, J, Ranzani, OT, Lagunes, L, Tabernero, J, Huertas, DG, Bosch, F, Rello, J, Manzano, F, Morente-Constantin, E, Rivera-Ginés, B, Rigol, M, Colmenero-Ruiz, M, Meleti, DE, Sanz, JG, Dogliotti, A, Simon, IF, Valbuena, BL, Pais, M, Ramalingam, S, Quintana, MM, Díaz, C, Fox, L, Santafe, M, Fernandez, L, Barba, P, García, M, Leal, S, Pérez, M, Pérez, ML, Osuna, A, Ferrer, M, Veganzones, J, Martínez, N, Santiago-Ruiz, F, Moors, I, Mokart, D, Pène, F, Lambert, J, Mayaux, J, Vincent, F, Nyunga, M, Bruneel, F, Stergiannis, P, Laisne, L, Rabbat, A, Lebert, C, Perez, P, Suberviola, B, Chaize, M, Renault, A, Meert, AP, Hamidfar, R, Jourdain, M, Rodríguez-Mejías, C, Lanziotti, VS, Darmon, M, Schlemmer, B, Chevret, S, Lemiale, V, Azoulay, E, Rowland, MJ, Riera, J, Benoit, D, Martins-Branco, D, Sousa, M, Wangensteen, R, Marum, S, Bouw, MJ, Galstyan, G, Makarova, P, Parovichnikova, E, Kuzmina, L, Troitskaya, V, Rellan, L, Drize, N, Zaponi, RS, Gemdzhian, E, Jamaati, HR, Savchenko, V, Chao, HC, Kılıc, E, Demiriz, B, Uygur, ML, Sürücü, M, Cınar, K, Yıldırım, AE, Pulcheri, L, Sanchez, M, Kiss, K, Masjedi, M, Köves, B, Csernus, V, Molnár, Z, Ntantana, A, Matamis, D, Savvidou, S, Giannakou, M, Ribeiro, MO, Gouva, M, Nakos, G, Robles, JC, Koulouras, V, Gaffney, S, Docking, R, Judge, C, Drew, T, Barbosa, AP, Misran, H, Munshi, R, McGovern, L, Coyle, M, Hashemian, SM, Lopez, E, Dunne, L, Deasy, E, Lavin, P, Fahy, A, Antoniades, CA, Ramos, A, Darcy, DM, Donnelly, M, Ismail, NH, Hall, T, Wykes, K, Jack, J, Vicente, R, Ngu, WC, Morgan, P, E Silva, JR, Ruiz-Ramos, J, Ramirez, P, Gordon, M, Villarreal, E, Frasquet, J, Poveda-Andrés, JL, Abbasi, G, Castellanos, A, Ijssennagger, CE, Miñambres, E, Soares, M, Ten Hoorn, S, Van Wijk, A, Van den Broek, JM, Tuinman, PR, Elmenshawy, AM, Hammond, BD, Gibbon, G, Khaloo, V, Belcham, T, Burton, K, Salluh, JI, Taniguchi, LU, Santibañez, M, Ramos, FJ, Momma, AK, Martins-Filho, AP, Bartocci, JJ, Lopes, MF, Sad, MH, Tabei, SH, Rodrigues, CM, Pires, EM, Vieira, JM, Le Guen, M, Murbach, LD, Barreto, J, Duarte, ST, Taba, S, Kolaros, AA, Miglioranza, D, Gund, DP, Lordani, CF, Ogasawara, SM, Moore, J, Jorge, AC, Duarte, PA, Capuzzo, M, Marqués, MG, Kafilzadeh, A, Corte, FD, Terranova, S, Scaramuzzo, G, Fogagnolo, A, Bertacchini, S, Bellonzi, A, Garry, P, Mason, N, Ragazzi, R, Moreno, AP, Bakhodaei, HH, Cruz, C, Nunes, A, Pereira, FS, Aragão, I, Cardoso, AF, Santos, C, Malheiro, MJ, Castro, H, Abentroth, LR, Windpassinger, M, Cardoso, T, Diaz, JA, Paratz, J, Kenardy, J, Comans, 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Perchiazzi, G, Borges, JB, Queen Square Neuroanaesthesia and Neurocritical Care Resreach Group, Bayat, S, Porra, L, Mirek, S, Broche, L, Hedenstierna, G, Larsson, A, Kennedy, RM, Roneus, A, Segelsjö, M, Vestito, MC, Zeman, PM, Gremo, E, Nyberg, A, Castegren, M, Pikwer, A, Sharma, S, Monfort, B, Yoshida, T, Engelberts, D, Otulakowski, G, Katira, B, Post, M, Brochard, L, Amato, MB, Stazi, E, PLUG Working group, Koch, N, Hoellthaler, J, Mair, S, Phillip, V, Van Ewijk, CE, Beitz, A, González, LR, Roig, AL, Baladrón, V, Yugi, G, Calvo, FJ, Padilla, D, Villarejo, P, Villazala, R, Yuste, AS, Bejarano, N, Steenstra, RJ, Jacobs, GE, Banierink, H, Hof, J, Martika, A, Hoekstra, M, Sterz, F, Horvatits, K, Herkner, H, Magnoni, S, Marando, M, Faivre, V, Pifferi, S, Conte, V, Ortolano, F, Alonso, DC, Carbonara, M, Bertani, G, Scola, E, Cadioli, M, Triulzi, F, Colombo, A, Nevière, R, Stocchetti, N, Fatania, G, Hernández-Sánchez, N, Rotzel, HB, Lázaro, AS, Prada, DA, Guimillo, MR, Piqueras, CS, Guia, JR, Simon, MG, Thiébaut, PA, Arizmendi, AM, Carratalá, A, Sánchez, RDEP, El Maraghi, S, Yehia, A, Bakry, M, Shoman, A, Backes, FN, Bianchin, MM, Vieira, SR, Maupoint, J, De Souza, A, Lucas, JH, Backes, AN, Klein, C, García-Guillen, FJ, Arunkumar, AS, Lozano, A, Mulder, P, Gallaher, C, Cattlin, S, Ñamendys-Silva, SA, Gordon, S, Picard, J, Fontana, V, Bond, O, Coquerel, D, Nobile, L, Mrozek, S, Delamarre, L, Maghsoudi, B, Capilla, F, Al-Saati, T, Fourcade, O, Renet, S, Dominguez-Berrot, AM, Gonzalez-Vaquero, M, Vallejo-Pascual, ME, Gupta, D, Ivory, BD, Chopra, M, Emami, M, Khaliq, W, McCarthy, J, Felderhof, CL, Do Rego, JC, MacNeil, C, Maggiorini, M, Duska, F, Department of Professional Development, ESICM, Fumis, RR, Junior, JM, Khosravi, MB, Amarante, G, Rieusset, J, Skorko, A, Sanders, S, Aron, J, Kroll, RJ, Redfearn, C, Harish, MM, Krishnan, P, Khalil, JE, Kongpolprom, N, Richard, V, Gulia, V, Lourenço, E, Duro, C, Baptista, G, Alves, A, Arminda, B, Rodrigues, M, Tamion, F, Tabatabaie, HR, Hayward, J, Baldwin, F, Gray, R, Katinakis, PA, Stijf, M, Ten Kleij, M, Jansen-Frederiks, M, Broek, R, De Bruijne, M, Mengelle, C, Spronk, PE, Sinha, K, Luney, M, Palmer, K, Keating, L, Abu-Habsa, M, Bahl, R, Baskaralingam, N, Ahmad, A, Kanapeckaite, L, Bhatti, P, Strong, AJ, Sabetiyan, G, Glace, S, Jeyabraba, S, Lewis, HF, Kostopoulos, A, Raja, M, West, A, Ely, A, Turkoglu, LM, Zolfaghari, P, Baptista, JP, Mokri, A, Marques, MP, Martins, P, Pimentel, J, Su, YC, Singer, M, Villacres, S, Stone, ME, Parsikia, A, Medar, S, O'Dea, KP, Nurses of the Central and General ICUs of Shiraz Namazi Hospital, Porter, J, Tirlapur, N, Jonathan, JM, Singh, S, Takata, M, Critical Care Research Group, McWhirter, E, Lyon, R, Troubleyn, J, Hariz, ML, Ferlitsch, A, Azmi, E, Alkhan, J, Smulders, YM, Movsisyan, V, Petrikov, S, Marutyan, Z, Aliev, I, Evdokimov, A, Antonucci, E, Diltoer, M, Merz, T, Hartmann, C, De Waard, MC, Calzia, E, Radermacher, P, Nußbaum, B, Huber-Lang, M, Fauler, G, Gröger, M, Jacobs, R, Zaleska-Kociecka, M, Van Straaten, HM, Trauner, M, Svoren-Jabalera, E, Davenport, EE, Humburg, P, Nguyen, DN, Knight, J, Hinds, CJ, Jun, IJ, Prabu, NR, Kim, WJ, Lee, EH, Besch, G, Perrotti, A, Puyraveau, M, Baltres, M, Eringa, EC, De Waele, E, Samain, E, Chocron, S, Pili-Floury, S, Plata-Menchaca, EP, Sabater-Riera, J, Estruch, M, Boza, E, Toscana-Fernández, J, Man, AM, Bruguera-Pellicer, E, De Regt, J, Ordoñez-Llanos, J, Pérez-Fernández, XL, SIRAKI group, Cavaleiro, P, Tralhão, A, Arrigo, M, Lopes, JP, Lebrun, M, Favier, B, Pischke, S, Cholley, B, PerezVela, JL, Honoré, PM, MarinMateos, H, Rivera, JJ, Llorente, MA, De Marcos, BG, Fernandez, FJ, Laborda, CG, Zamora, DF, Fischer, L, Alegría, L, Grupo ESBAGA, Delgado, JC, Imperiali, C, Myers, RB, Van Gorp, V, Dastis, M, Thaiss, F, Soto, D, Górka, J, Spapen, HD, Górka, K, Iwaniec, T, Koch, M, Frołow, M, Polok, K, Luengo, C, Fronczek, J, Kózka, M, Musiał, J, Szczeklik, W, Contreras, RS, Bangert, K, Gomez, J, Sileli, M, Havaldar, AA, Toapanta, ND, Jarufe, N, Moursia, C, Maleoglou, H, Leleki, K, Uz, Z, Ince, Y, Papatella, R, Bulent, E, Moreno, G, Grabowski, M, Bruhn, A, De Mol, B, Vicka, V, Gineityte, D, Ringaitiene, D, Norkiene, I, Sipylaite, J, Möller, C, Sabater, J, Castro, R, Thomas-Rueddel, DO, Vlasakov, V, Lohse, AW, Rochwerg, B, Theurer, P, Al Sibai, JZ, Camblor, PM, Kattan, E, Torrado, H, Siddiqui, S, Fernandez, PA, Gala, JM, Guisasola, JS, Tamura, T, Miyajima, I, Yamashita, K, Yokoyama, M, Tapia, P, Nashan, B, Gonzalez, M, Dalampini, E, Nastou, M, Baddour, A, Ignatiadis, A, Asteri, T, Hathorn, KE, Sterneck, M, Rebolledo, R, Purtle, SW, Marin, M, Viana, MV, Tonietto, TA, Gross, LA, Costa, VL, Faenza, S, Tavares, AL, Payen, D, Lisboa, BO, Moraes, RB, Farigola, E, Viana, LV, Azevedo, MJ, Ceniccola, GD, Pequeno, RS, Siniscalchi, A, Holanda, TP, Mendonça, VS, Achurra, P, Araújo, WM, Carvalho, LS, Segaran, E, Vickers, L, Gonzalez, A, Brinchmann, K, Pierucci, E, Wignall, I, De Brito-Ashurst, I, Ospina-Tascón, G, Del Olmo, R, Esteban, MJ, Vaquerizo, C, Carreño, R, Gálvez, V, Kaminsky, G, Mancini, E, Fernandez, J, Nieto, B, Fuentes, M, De la Torre, MA, Bakker, J, Torres, E, Alonso, A, Velayos, C, Saldaña, T, Escribá, A, Krishna, B, Grip, J, Kölegård, R, Vera, A, Sundblad, P, Rooyackers, O, Hernández, G, Naser, B, Jaziri, F, Jazia, AB, Barghouth, M, Ricci, D, Hentati, O, Skouri, W, El Euch, M, Mahfoudhi, M, Gisbert, X, Turki, S, Dąbrowski, M, Bertini, P, Abdelghni, KB, Abdallah, B, Gemelli, C, Maha, BN, Cánovas, J, Sotos, F, López, A, Lorente, M, Burruezo, A, Torres, D, Juliá, C, Guarracino, F, Cuoghi, A, Włudarczyk, A, Hałek, A, Bargouth, M, Bennasr, M, Baldassarri, R, Magnani, S, Uya, J, Abdelghani, KB, Abdallah, TB, Geenen, IL, Parienti, JJ, Straaten, HM, Shum, HP, King, HS, Kulkarni, AP, Pinsky, MR, Chan, KC, Corral, L, Yan, WW, Londoño, JG, Cardenas, CL, Pedrosa, MM, Gubianas, CM, Bertolin, CF, Batllori, NV, Atti, M, Sirvent, JM, Sedation an Delirium Group Hospital Universitari de Bellvitge, Mukhopadhyay, A, Chan, HY, Kowitlawakul, Y, Remani, D, Leong, CS, Henry, CJ, Vera, M, Puthucheary, ZA, Mendsaikhan, N, Begzjav, T, Elias-Jones, I, Lundeg, G, Dünser, M, Espinoza, ED, Welsh, SP, Guerra, E, Poppe, A, Zerpa, MC, Zechner, F, Berdaguer, F, Risso-Vazquez, A, Masevicius, FD, Greaney, D, Dreyse, J, Magee, A, Fitzpatrick, G, Lugo-Cob, RG, Jermaine, CM, Tejeda-Huezo, BC, Cano-Oviedo, AA, Carpio, D, Aydogan, MS, Togal, T, Taha, A, Chai, HZ, Sriram, S, Kam, C, Razali, SS, Sivasamy, V, Randall, D, Kuan, LY, Henriquez, C, Morales, MA, Pires, T, Adwaney, A, Wozniak, S, Gajardo, D, Herrera-Gutierrez, ME, Azevedo, LC, Blunden, M, Prowle, JR, Kirwan, CJ, Thomas, N, Martin, A, Owen, H, Darwin, L, Robertson, CS, Bravo, S, Barrueco-Francioni, J, Conway, D, Atkinson, D, Sharman, M, Barbanti, C, Amour, J, Gaudard, P, Rozec, B, Mauriat, P, M'rini, M, Arias-Verdú, D, Rusin, CG, Leger, PL, Cambonie, G, Liet, JM, Girard, C, Laroche, S, Damas, P, Assaf, Z, Loron, G, Lozano-Saez, R, Lecourt, L, Pouard, P, Hofmeijer, J, Kim, SH, Divatia, JV, Na, S, Kim, J, Jung, CW, Sondag, L, Yoo, SH, Min, SH, Chung, EJ, Quesada-Garcia, G, Lee, NJ, Lee, KW, Suh, KS, Ryu, HG, Marshall, DC, Goodson, RJ, Tjepkema-Cloostermans, MC, Salciccioli, JD, Shalhoub, J, Seller-Pérez, G, Potter, EK, Kirk-Bayley, J, Karanjia, ND, Forni, LG, Kim, S, Creagh-Brown, BC, Bossy, M, Nyman, M, Tailor, A, Figueiredo, A, SPACeR group (Surrey Peri-operative, Anaesthesia and Critical Care Collaborative Research Group), D'Antini, D, Valentino, F, Winkler, MS, Sollitto, F, Cinnella, G, Mirabella, L, Anzola, Y, Bosch, FH, Baladron, V, Villajero, P, Lee, M, Redondo, J, Liu, J, Shen, F, Teboul, JL, Anguel, N, Van Putten, MJ, Beurton, A, Bezaz, N, Richard, C, Park, SY, Monnet, X, Fossali, T, Pereira, R, Colombo, R, Ottolina, D, Rossetti, M, Mazzucco, C, Marchi, A, Porta, A, Catena, E, Piotrowska, K, So, S, Bento, L, Tollisen, KH, Andersen, G, Heyerdahl, F, Jacobsen, D, Van IJzendoorn, MC, Buter, H, Kingma, WP, Navis, GJ, Boerma, EC, Rulisek, J, Zacharov, S, Kim, HS, Jeon, SJ, Namgung, H, Lee, E, Lai, M, Kačar, MB, Cho, YJ, Lee, YJ, Huang, A, Deiana, M, Forsberg, M, Edman, G, Kačar, SM, Höjer, J, Forsberg, S, Freile, MT, Hidalgo, FN, Molina, JA, Lecumberri, R, Rosselló, AF, Travieso, PM, Leon, GT, Uddin, I, Sanchez, JG, Ali, MA, Frias, LS, Rosello, DB, Verdejo, JA, Serrano, JA, Winterwerp, D, Van Galen, T, Vazin, A, Karimzade, I, Belhaj, AM, Zand, A, Ozen, E, Ekemen, S, Akcan, A, Sen, E, Yelken, BB, Kureshi, N, Fenerty, L, Thibault-Halman, G, Aydın, MA, Walling, S, Almeida, R, Seller-Perez, G, Clarke, DB, Briassoulis, P, Kalimeris, K, Ntzouvani, A, Nomikos, T, Papaparaskeva, K, Avsec, D, Politi, E, Kostopanagiotou, G, Crewdson, K, Vardas, K, Rehn, M, Vaz-Ferreira, A, Weaver, A, Brohi, K, Lockey, D, Wright, S, Thomas, K, Mudersbach, E, Baker, C, Mansfield, L, Pozo, MO, Stafford, V, Wade, C, Watson, G, Silva, J, Bryant, A, Chadwick, T, Shen, J, Wilkinson, J, Kapuağası, A, Furneval, J, and Clinical Neurophysiology

Subjects

Queen Square Neuroanaesthesia and Neurocritical Care Resreach Group, TAVeM study Group, Renal Transplantation HUVR, Flow (psychology), lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Critical Care and Intensive Care Medicine, Grupo ESBAGA, GEMINI, 03 medical and health sciences, chemistry.chemical_compound, SPACeR group (Surrey Peri-operative, Anaesthesia and Critical Care Collaborative Research Group), 0302 clinical medicine, Critical Care Research Group, Journal Article, PRoVENT investigators and the PROVE Network, Medicine, Sedation an Delirium Group Hospital Universitari de Bellvitge, 030212 general & internal medicine, Bioethics work group of SEMICYUC, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), SEMICYUC/GETGAG Working Group, FINNAKI Study Group, POPC-CB investigators, business.industry, Other Research Radboud Institute for Health Sciences [Radboudumc 0], SIRAKI group, 030208 emergency & critical care medicine, EDISVAL Group, PLUG Working group, DESIRE (DExmedetomidine for Sepsis in ICU Randomized Evaluation) Trial Investigators, chemistry, Anesthesia, Carbon dioxide, Breathing, Department of Professional Development, ESICM, business, Nurses of the Central and General ICUs of Shiraz Namazi Hospital

Abstract

Contains fulltext : 172382.pdf (Publisher’s version ) (Open Access)

Published

2016

6. The value of pulse pressure variation to predict volume response in patients ventilated with low VT

Author

Friedman, GF, primary, Costa, CD, additional, Vieira, SR, additional, and Fialkow, L, additional

Published

2010

7. Effects of non-invasive mechanical ventilation on hemodynamic and gas exchanges parameters after cardiac surgery in patients with 300 >PaO2/FiO2 >150

Author

Preisig, A, primary, Lagni, VB, additional, Almeida, V, additional, Lucio, EA, additional, and Vieira, SR, additional

Published

2010

8. Acid–base disorders evaluation in critically ill patients: hyperchloremia is associated with mortality

Author

Boniatti, M, primary, Castilho, RK, additional, Cardoso, PR, additional, Friedman, G, additional, Fialkow, L, additional, Rubeiro, SP, additional, and Vieira, SR, additional

Published

2009

9. Metabolic evaluation during weaning from mechanical ventilation using indirect calorimetry

Author

Santos, LJ, primary and Vieira, SR, additional

Published

2008

10. Efficacy and safety of a device for minimally invasive direct cardiac masage

Author

Timerman, S, Alves, P Magalhaes, Vieira, SR, Mansur, A, and Ramires, JAF

Subjects

Poster Presentation

Published

2004

11. Acid-base disorders evaluation in critically ill patients: we can improve our diagnostic ability.

Author

Boniatti MM, Cardoso PR, Castilho RK, Vieira SR, Boniatti, Márcio Manozzo, Cardoso, Paulo Ricardo Cerveira, Castilho, Rodrigo Kappel, and Vieira, Silvia Regina Rios

Abstract

Purpose: To determine whether Stewart's approach can improve our ability to diagnose acid-base disorders compared to the traditional model.Methods: This prospective cohort study took place in a university-affiliated hospital during the period of February-May 2007. We recorded clinical data and acid-base variables from one hundred seventy-five patients at intensive care unit admission.Results: Of the 68 patients with normal standard base excess (SBE) (SBE between -4.9 and +4.9), most (n = 59; 86.8%) had a lower effective strong ion difference (SIDe), and of these, 15 (25.4%) had SIDe < 30 mEq/L. Thus, the evaluation according to Stewart's method would allow an additional diagnosis of metabolic disorder in 33.7% patients.Conclusions: The Stewart approach, compared to the traditional evaluation, results in identification of more patients with major acid-base disturbances. [ABSTRACT FROM AUTHOR]

Published

2009

12. Cellulose processing using ionic liquids: An analysis of patents and technological trends.

Author

Vieira SR, Silva JBAD, Pessôa LC, Nascimento RQ, Galván KLP, Souza CO, Cardoso LG, Santana JS, and Assis DJ

Abstract

The production of cellulose derivatives using ionic liquid (IL) as solvents and catalysts has become prominent over the last few years, since the process eliminates the use of toxic substances. This study aimed to map and understand the trends in cellulose processing using ILs by a patent analytic approach and technology life cycle modeling. The documents were searched on the Espacenet® and Orbit® platforms.The majority of innovations have come from companies based in developed countries. The data fitted to the sigmoid BiDoseResp model and the life cycle S-curve showed a market in an early stage of maturity. This mapping brings information that subsidizes decision-making regarding investments, research, and innovations aimed at IL-mediated cellulose treatment. Potential markets mostly use ILs of the imidazolium family in polymer chemistry, machinery, and biotechnology technologies. However, medical and pharmaceutical technologies and microstructure and nanostructure applications are still emerging, fostering perspectives for innovation., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors. Published by Elsevier Ltd.)

Published

2024

13. A protocol for an interventional study on the impact of transcutaneous parasacral nerve stimulation in children with functional constipation.

Author

Coelho GM, Machado NC, Carvalho MA, Rego RMP, Vieira SR, Ortolan EVP, and Lourenção PLTA

Subjects

Adolescent, Child, Female, Humans, Longitudinal Studies, Male, Patient Satisfaction, Prospective Studies, Quality of Life, Sacrum innervation, Transcutaneous Electric Nerve Stimulation adverse effects, Constipation therapy, Transcutaneous Electric Nerve Stimulation methods

Abstract

Introduction: Transcutaneous parasacral nerve stimulation (TPNS) via electrodes placed over the sacrum can activate afferent neuronal networks noninvasively, leading to sacral reflexes that may improve colonic motility. Thus, TPNS can be considered a promising, noninvasive, and safe method for the treatment of constipation. However, there is no published study investigating its use in children with functional constipation. This is a single-center, prospective, longitudinal, and interventional study designed to assess the applicability and clinical outcomes of TPNS in functionally constipated children., Patient Concerns: Parents or guardians of patients will be informed of the purpose of the study and will sign an informed consent form. The participants may leave the study at any time without any restrictions., Diagnosis: Twenty-eight children (7-18 years old) who were diagnosed with intestinal constipation (Rome IV criteria) will be included., Interventions: The patients will be submitted to daily sessions of TPNS for a period of 4 or 8 weeks and will be invited to participate in semistructured interviews at 3 or 4 moments: 1 week before the beginning of TPNS; immediately after the 4 and/or 8 weeks of TPNS; and 4 weeks after the end of the intervention period. In these appointments, the aspects related to bowel habits and quality of life will be assessed., Outcomes: This study will evaluate the increase in the number of bowel movements and stool consistency, the decrease in the number of episodes of retentive fecal incontinence, and the indirect improvement in the overall quality of life., Conclusion: we expect that this study protocol can show the efficacy of this promising method to assist the treatment of children with functional constipation., Competing Interests: The authors have no conflicts of interest to disclose., (Copyright © 2020 the Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2020

14. Number of dental abutments influencing the biomechanical behavior of tooth‒implant-supported fixed partial dentures: A finite element analysis.

Author

de Oliveira JC, Sordi MB, da Cruz ACC, Zanetti RV, Betiol EAG, Vieira SR, and Zanetti AL

Abstract

Background. Local or systemic issues might prevent installing a sufficient number of dental implants for fixed prosthetic rehabilitation. Splinting dental implants and natural teeth in fixed dentures could overcome such limitations. Therefore, this study aimed to evaluate the influence of the number of dental abutments in the biomechanics of tooth‒implant-supported fixed partial dentures (FPDs). The null hypothesis was that increasing the number of abutment teeth would not decrease the stress over the abutments and surrounding bone. Methods. Left mandibular lateral incisor, canine, premolars, and molars were reconstructed through computed tomography and edited using image processing software to represent a cemented fixed metal‒ceramic partial denture. Three models were set to reduce the number of abutment teeth: 1) lateral incisor, canine, and first premolar; 2) canine and first premolar; 3) the first premolar. The second premolar and first molar were set as pontics, and the second molar was set as an implant abutment in all the models. Finite element analyses were performed under physiologic masticatory forces with axial and oblique loading vectors. Results. After simulation of axial loads, the stress peaks on the bone around the implant, the bone around the first premolar, and prosthetic structures did not exhibit significant changes when the number of abutment teeth decreased. However, under oblique loads, decreasing the number of abutment teeth increased stress peaks on the surrounding bone and denture. Conclusion. Increasing the number of dental abutments in tooth‒implant-supported cemented FPD models decreased stresses on its constituents, favoring the prosthetic biomechanics., (©2020 The Author(s).)

Published

2020

15. Pressure-support ventilation or T-piece spontaneous breathing trials for patients with chronic obstructive pulmonary disease - A randomized controlled trial.

Author

Santos Pellegrini JA, Boniatti MM, Boniatti VC, Zigiotto C, Viana MV, Nedel WL, Marques LDS, Dos Santos MC, de Almeida CB, Dal' Pizzol CP, Ziegelmann PK, and Rios Vieira SR

Subjects

Aged, Female, Humans, Male, Middle Aged, Positive-Pressure Respiration, Pulmonary Disease, Chronic Obstructive physiopathology, Pulmonary Disease, Chronic Obstructive therapy, Respiration, Ventilator Weaning

Abstract

Background: Little is known about the best strategy for weaning patients with chronic obstructive pulmonary disease (COPD) from mechanical ventilation. Spontaneous breathing trials (SBT) using a T-piece or pressure-support ventilation (PSV) have a central role in this process. Our aim was to compare T-piece and PSV SBTs according to the duration of mechanical ventilation (MV) in patients with COPD., Methods: Patients with COPD who had at least 48 hours of invasive MV support were randomized to 30 minutes of T-piece or PSV at 10 cm H2O after being considered able to undergo a SBT. All patients were preemptively connected to non-invasive ventilation after extubation. Tracheostomized patients were excluded. The primary outcome was total invasive MV duration. Time to liberation from MV was assessed as secondary outcome., Results: Between 2012 and 2016, 190 patients were randomized to T-piece (99) or PSV (91) groups. Extubation at first SBT was achieved in 78% of patients. The mean total MV duration was 10.82 ± 9.1 days for the T-piece group and 7.31 ± 4.9 days for the PSV group (p < 0.001); however, the pre-SBT duration also differed (7.35 ± 3.9 and 5.84 ± 3.3, respectively; p = 0.002). The time to liberation was 8.36 ± 11.04 days for the T-piece group and 4.06 ± 4.94 for the PSV group (univariate mean ratio = 2.06 [1.29-3.27], p = 0.003) for the subgroup of patients with difficult or prolonged weaning. The study group was independently associated with the time to liberation in this subgroup., Conclusions: The SBT technique did not influence MV duration for patients with COPD. For the difficult/prolonged weaning subgroup, the T-piece may be associated with a longer time to liberation, although this should be clarified by further studies., Trial Registration: ClinicalTrials.gov NCT01464567, at November 3, 2011., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

16. Spontaneous breathing trial in T-tube negatively impact on autonomic modulation of heart rate compared with pressure support in critically ill patients.

Author

Güntzel Chiappa AM, Chiappa GR, Cipriano G Jr, Moraes RS, Ferlin EL, Borghi-Silva A, and Vieira SR

Subjects

Adult, Aged, Blood Pressure physiology, Female, Humans, Intensive Care Units, Male, Middle Aged, Physical Therapy Modalities standards, Positive-Pressure Respiration instrumentation, Positive-Pressure Respiration methods, Respiration, Tidal Volume physiology, Ventilator Weaning methods, Ventilator Weaning standards, Autonomic Nervous System physiology, Critical Illness therapy, Heart Rate physiology, Respiration, Artificial methods, Ventilator Weaning adverse effects

Abstract

Introduction: Spontaneous breathing with a conventional T-piece (TT) connected to the tracheal tube orotraqueal has been frequently used in clinical setting to weaning of mechanical ventilation (MV), when compared with pressure support ventilation (PSV). However, the acute effects of spontaneous breathing with TT versus PSV on autonomic function assessed through heart rate variability (HRV) have not been fully elucidated., Objective: The purpose of this study was to examine the acute effects of spontaneous breathing in TT vs PSV in critically ill patients., Method: Twenty-one patients who had received MV for ≥ 48 h and who met the study inclusion criteria for weaning were assessed. Eligible patients were randomized to TT and PSV. Cardiorespiratory responses (respiratory rate -ƒ, tidal volume-V T , mean blood pressure (MBP) and diastolic blood pressure (DBP), end tidal dioxide carbone (P ET CO 2 ), peripheral oxygen saturation (SpO 2 ) and HRV indices in frequency domain (low-LF, high frequency (HF) and LF/HF ratio were evaluated., Results: TT increased ƒ (20 ± 5 vs 25 ± 4 breaths/min, P<0.05), MBP (90 ± 14 vs 94 ± 18 mmHg, P<0.05), HR (90 ± 17 vs 96 ± 12 beats/min, P<0.05), P ET CO 2 (33 ± 8 vs 48 ± 10 mmHg, P<0.05) and reduced SpO 2 (98 ± 1.6 vs 96 ± 1.6%, P<0.05). In addition, LF increased (47 ± 18 vs 38 ± 12 nu, P<0.05) and HF reduced (29 ± 13 vs 32 ± 16 nu, P<0.05), resulting in higher LF/HF ratio (1.62 ± 2 vs 1.18 ± 1, P<0.05) during TT. Conversely, V T increased with PSV (0.58 ± 0.16 vs 0.50 ± 0.15 L, P<0.05) compared with TT., Conclusion: Acute effects of TT mode may be closely linked to cardiorespiratory mismatches and cardiac autonomic imbalance in critically ill patients., (© 2015 John Wiley & Sons Ltd.)

Published

2017

17. Underfeeding versus full enteral feeding in critically ill patients with acute respiratory failure: a systematic review with meta-analysis of randomized controlled trials.

Author

Stuani Franzosi O, Delfino von Frankenberg A, Loss SH, Silva Leite Nunes D, and Rios Vieira SR

Subjects

Hospital Mortality, Humans, Length of Stay, Randomized Controlled Trials as Topic, Critical Illness therapy, Enteral Nutrition methods, Respiratory Insufficiency therapy

Abstract

Introduction: Although guidelines emphasize that the provision of enteral nutrition (EN) should be as close as the patient's needs, prospective studies question this strategy., Objective: To compare the effect of two EN strategies (underfeeding versus full-feeding) on ICU and overall mortality (hospital mortality or 60-day mortality) and length of stay (LOS), duration of mechanical ventilation (MV), infectious complications, and gastrointestional tolerability in ICU patients., Methods: Random effects meta-analysis of randomized controlled trials (RCT). Our search covered MEDLINE, EMBASE, SCOPUS and CENTRAL databases until May 2015. Underfeeding was assigned into to two different groups according to the level of energy intake achieved (moderate feeding 46-72% and trophic feeding 16-25%) for subgroup analysis., Results: Five RCTs were included among the 904 studies retrieved (n=2432 patients). No difference was found in overall mortality when all five studies were combined. In the subgroup analysis, moderate feeding (three studies) showed lower mortality compared with full-feeding (RR 0.82;95%CI,0.68-0.98;I2 0% p=0.59 for heterogeneity). No differences were found for ICU mortality, ICU and hospital LOS, duration of MV, and infectious complications. Underfeeding showed lower occurrence of GI signs and symptoms except for aspiration and abdominal distention., Conclusions: This meta-analysis found no differences in ICU and overall mortality, ICU and hospital LOS, duration of MV, and infectious complications between underfeeding and full-feeding. The subgroup analysis showed lower overall mortality among patients receiving moderate underfeeding. This result should be cautiously interpreted due to the limitations of the small number of studies analyzed and their methodology.

Published

2017

18. Use of neuromuscular electrical stimulation to preserve the thickness of abdominal and chest muscles of critically ill patients: A randomized clinical trial.

Author

Dall' Acqua AM, Sachetti A, Santos LJ, Lemos FA, Bianchi T, Naue WS, Dias AS, Sbruzzi G, and Vieira SR

Subjects

Adult, Cross-Sectional Studies, Double-Blind Method, Female, Humans, Male, Middle Aged, Treatment Outcome, Abdominal Muscles physiopathology, Critical Illness rehabilitation, Electric Stimulation Therapy methods, Muscle, Skeletal physiopathology

Abstract

Objective: To evaluate and compare the effects of neuromuscular electrical stimulation combined with conventional physical therapy on muscle thickness in critically ill patients., Design: Double-blind, randomized controlled trial., Patients: Twenty-five patients participated in the study., Methods: Patients on mechanical ventilation for 24-48 h were randomized to an intervention group (neuromuscular electrical stimulation + conventional physical therapy) or a conventional group (sham neuromuscular electrical stimulation + conventional physical therapy). Primary outcome was thickness of the rectus abdominis and chest muscles, determined on cross-sectional ultrasound images before and after the intervention., Results: Eleven patients were included in the intervention group and 14 in the conventional group. After neuromuscular electrical stimulation, rectus abdominis muscle thickness and chest muscle thickness were preserved in the intervention group, whereas there was a significant reduction in thickness in the conventional group, with a significant difference between groups. There was a significant difference between groups in length of stay in the intensive care unit, with shorter length of stay in the intervention group., Conclusion: There was no change in rectus abdominis and chest muscle thickness in the intervention group. A significant decrease was found in these measures in the conventional group.

Published

2017

19. Evaluation of Serum Lactate, Central Venous Saturation, and Venous-Arterial Carbon Dioxide Difference in the Prediction of Mortality in Postcardiac Arrest Syndrome.

Author

Riveiro DF, Oliveira VM, Braunner JS, and Vieira SR

Subjects

Aged, Blood Gas Analysis, Cardiac Output, Female, Heart Arrest physiopathology, Humans, Male, Middle Aged, Oxygen Consumption, Prospective Studies, ROC Curve, Resuscitation mortality, Carbon Dioxide blood, Heart Arrest blood, Heart Arrest mortality, Lactic Acid blood

Abstract

Introduction: Tissue hypoperfusion and hypoxia markers predict mortality in critically ill patients. This study evaluates the ability of serum lactate, central venous oxygen saturation (Scvo 2), and venous-arterial carbon dioxide difference (GapCo 2) to predict mortality in patients with postcardiac arrest (post-CA) syndrome., Methods: A prospective observational study of patients with post-CA in a tertiary teaching hospital. Serial assessments of lactate, lactate clearance (Clac), GapCo 2, and Scvo 2 in the first 72 hours post-CA were analyzed. Adults (≥18 years) patients resuscitated from CA were included. The primary end point was 28-day mortality and secondary end points were 24- and 72-hour mortality., Results: A total of 54 patients were recruited, 33 (61,1%) of 54 were men, with a 28-day mortality of 75.9%. Cardiac arrest occurred in-hospital in 84.6% of survivors and 97.5% of nonsurvivors. Lactate and Clac were significantly associated with mortality at 28 days, yielding an area under the receiver-operating characteristic curve of 0.797 (lactate 6 hours) and 0.717 (Clac 6 hours) with a positive predictive value of 96% for lactate 6 hours (> 2.5 mmol/L) and 89.5% for Clac 6 hours (<50%). Survival analysis confirmed the difference between the groups from the 24th hour post-CA. Considering mortality at 24 hours, lactate, Clac, and Scvo 2 (immediately post-CA, 6 and 18 hours) were different between the groups. In mortality at 72 hours, lactate, Clac, Scvo 2 (48 hours), and GapCo 2 (36 and 48 hours) were associated with mortality., Conclusion: In post-CA syndrome, serum lactate and Clac were consistently able to predict mortality., (© The Author(s) 2015.)

Published

2016

20. Inhalation injury after exposure to indoor fire and smoke: The Brazilian disaster experience.

Author

Rech TH, Boniatti MM, Franke CA, Lisboa T, Wawrzeniak IC, Teixeira C, Maccari JG, Schaich F, Sauthier A, Schifelbain LM, Riveiro DF, da Fonseca DL, Berto PP, Marques L, Dos Santos MC, de Oliveira VM, Dornelles CF, and Vieira SR

Subjects

Adult, Aged, Brazil, Bronchoscopy statistics & numerical data, Burns pathology, Disasters, Female, Hospital Mortality, Humans, Intensive Care Units statistics & numerical data, Length of Stay statistics & numerical data, Male, Middle Aged, Prognosis, Prospective Studies, Respiration, Artificial statistics & numerical data, Severity of Illness Index, Burns complications, Smoke Inhalation Injury therapy

Abstract

Objective: To describe the pre-hospital, emergency department, and intensive care unit (ICU) care and prognosis of patients with inhalation injury after exposure to indoor fire and smoke., Materials and Methods: This is a prospective observational cohort study that includes patients admitted to seven ICUs after a fire disaster. The following data were collected: demographic characteristics; use of fiberoptic bronchoscopy; degree of inhalation injury; percentage of burned body surface area; mechanical ventilation parameters; and subsequent events during ICU stay. Patients were followed to determine the ICU and hospital mortality rates., Results: Within 24h of the incident, 68 patients were admitted to seven ICUs. The patients were young and had no comorbidities. Most patients (n=35; 51.5%) only had an inhalation injury. The mean ventilator-free days for patients with an inhalation injury degree of 0 or I was 12.5±8.1 days. For patients with an inhalation injury degree of II or III, the mean ventilator-free days was 9.4±5.8 days (p=0.12). In terms of the length of ICU stay for patients with degrees 0 or I, and patients with degrees II or III, the median was 7.0 days (5.0-8.0 days) and 12.0 days (8.0-23.0 days) (p<0.001), respectively. In addition, patients with a larger percentage of burned surface areas also had a longer ICU stay; however, no association with ventilator-free days was found. The patients with <10% of burned body surface area showed a mean of 9.2±5.4 ventilator-free days. The mean ventilator-free days for patients who had >10% burned body surface area was 11.9±9.5 (p=0.26). The length of ICU stay for the <10% and >10% burned body surface area patients was 7.0 days (5.0-10.0 days) and 23.0 days (11.5-25.5 days) (p<0.001), respectively., Conclusions: We conclude that burn patients with inhalation injuries have different courses of disease, which are mainly determined by the percentage of burned body surface area., (Copyright © 2016 Elsevier Ltd and ISBI. All rights reserved.)

Published

2016

21. Good practices for prone positioning at the bedside: Construction of a care protocol.

Author

Oliveira VM, Weschenfelder ME, Deponti G, Condessa R, Loss SH, Bairros PM, Hochegger T, Daroncho R, Rubin B, Chisté M, Batista DC, Bassegio DM, Nauer Wda S, Piekala DM, Minossi SD, Santos VF, Victorino J, and Vieira SR

Subjects

Adult, Clinical Protocols standards, Critical Care methods, Humans, Patient Care Team, Patient Positioning adverse effects, Reproducibility of Results, Time Factors, Treatment Outcome, Patient Positioning methods, Prone Position, Respiratory Distress Syndrome therapy

Abstract

Last year, interest in prone positioning to treat acute respiratory distress syndrome (ARDS) resurfaced with the demonstration of a reduction in mortality by a large randomized clinical trial. Reports in the literature suggest that the incidence of adverse events is significantly reduced with a team trained and experienced in the process. The objective of this review is to revisit the current evidence in the literature, discuss and propose the construction of a protocol of care for these patients. A search was performed on the main electronic databases: Medline, Lilacs and Cochrane Library. Prone positioning is increasingly used in daily practice, with properly trained staff and a well established care protocol are essencial.

Published

2016

22. Mechanical ventilation in patients in the intensive care unit of a general university hospital in southern Brazil: an epidemiological study.

Author

Fialkow L, Farenzena M, Wawrzeniak IC, Brauner JS, Vieira SR, Vigo A, and Bozzetti MC

Subjects

APACHE, Adult, Aged, Brazil epidemiology, Female, Hospital Mortality, Hospitals, General, Hospitals, University, Humans, Length of Stay, Male, Middle Aged, Prospective Studies, Respiration, Artificial standards, Risk Factors, Sepsis mortality, Shock mortality, Intensive Care Units statistics & numerical data, Pneumonia mortality, Respiration, Artificial statistics & numerical data

Abstract

Objectives: To determine the characteristics, the frequency and the mortality rates of patients needing mechanical ventilation and to identify the risk factors associated with mortality in the intensive care unit (ICU) of a general university hospital in southern Brazil., Method: Prospective cohort study in patients admitted to the ICU who needed mechanical ventilation for at least 24 hours between March 2004 and April 2007., Results: A total of 1,115 patients admitted to the ICU needed mechanical ventilation. The mortality rate was 51%. The mean age (± standard deviation) was 57±18 years, and the mean Acute Physiology and Chronic Health Evaluation II (APACHE II) score was 22.6±8.3. The variables independently associated with mortality were (i) conditions present at the beginning of mechanical ventilation, age (hazard ratio: 1.01; p<0.001); the APACHE II score (hazard ratio: 1.01; p<0.005); acute lung injury/acute respiratory distress syndrome (hazard ratio: 1.38; p=0.009), sepsis (hazard ratio: 1.33; p=0.003), chronic obstructive pulmonary disease (hazard ratio: 0.58; p=0.042), and pneumonia (hazard ratio: 0.78; p=0.013) as causes of mechanical ventilation; and renal (hazard ratio: 1.29; p=0.011) and neurological (hazard ratio: 1.25; p=0.024) failure, and (ii) conditions occurring during the course of mechanical ventilation, acute lung injuri/acute respiratory distress syndrome (hazard ratio: 1.31; p<0.010); sepsis (hazard ratio: 1.53; p<0.001); and renal (hazard ratio: 1.75; p<0.001), cardiovascular (hazard ratio: 1.32; p≤0.009), and hepatic (hazard ratio: 1.67; p≤0.001) failure., Conclusions: This large cohort study provides a comprehensive profile of mechanical ventilation patients in South America. The mortality rate of patients who required mechanical ventilation was higher, which may have been related to the severity of illness of the patients admitted to our ICU. Risk factors for hospital mortality included conditions present at the start of mechanical ventilation conditions that occurred during mechanical support.

Published

2016

23. Assessment of the Safety of the Shiitake Culinary-Medicinal Mushroom, Lentinus edodes (Agaricomycetes), in Rats: Biochemical, Hematological, and Antioxidative Parameters.

Author

Grotto D, Bueno DC, Ramos GK, da Costa SR, Spim SR, and Gerenutti M

Subjects

Animals, Blood Cell Count, Hematology, Male, Oxidative Stress drug effects, Rats, Rats, Wistar, Antioxidants metabolism, Food Safety, Shiitake Mushrooms chemistry

Abstract

Lentinus edodes is an edible mushroom studied for use, or as an adjunct, in the prevention of illnesses such as hypertension, hypercholesterolemia, diabetes, and cancer. Despite the functional properties of L. edodes, the doses commonly reported in experimental studies are much higher than those actually consumed. Thus, we aimed to establish the optimum intake levels of L. edodes in vivo. Four groups of male Wistar rats received dry and powdered L. edodes reconstituted in water for 30 days: control (water only), L. edodes 100 mg/kg, L. edodes 400 mg/kg, and L. edodes 800 mg/kg. Biochemical and hematological parameters were assessed using commercial kits. Antioxidant parameters were quantified spectrophotometrically. Neither cholesterol, triglycerides, glucose, nor transaminase activity was different among any of the L. edodes concentrations. However, fructosamine concentrations were significantly decreased in groups consuming L. edodes at 100 or 400 mg/kg. A significant decrease in hemoglobin concentration was found in the 400 and 800 mg/kg/day L. edodes groups, and leukopenia occurred in rats that consumed L. edodes 800 mg/kg/day compared with the control group. L. edodes at 100 and 400 mg/kg increased amounts of reduced glutathione compared with the control group. L. edodes was effective as an antioxidant at 100 and 400 mg/kg, but at 400 and 800 mg/kg some disturbances were observed, such as reductions in hemoglobin and leukocytes. In summary, this study has potential benefits for scientific development because the safe daily intake of L. edodes (at 100 mg/kg) is, to our knowledge, reported for the first time in a preclinical study.

Published

2016

24. Microbial Biotransformation to Obtain New Antifungals.

Author

Bianchini LF, Arruda MF, Vieira SR, Campelo PM, Grégio AM, and Rosa EA

Abstract

Antifungal drugs belong to few chemical groups and such low diversity limits the therapeutic choices. The urgent need of innovative options has pushed researchers to search new bioactive molecules. Literature regarding the last 15 years reveals that different research groups have used different approaches to achieve such goal. However, the discovery of molecules with different mechanisms of action still demands considerable time and efforts. This review was conceived to present how Pharmaceutical Biotechnology might contribute to the discovery of molecules with antifungal properties by microbial biotransformation procedures. Authors present some aspects of (1) microbial biotransformation of herbal medicines and food; (2) possibility of major and minor molecular amendments in existing molecules by biocatalysis; (3) methodological improvements in processes involving whole cells and immobilized enzymes; (4) potential of endophytic fungi to produce antimicrobials by bioconversions; and (5) in silico research driving to the improvement of molecules. All these issues belong to a new conception of transformation procedures, so-called "green chemistry," which aims the highest possible efficiency with reduced production of waste and the smallest environmental impact.

Published

2015

25. Early rehabilitation using a passive cycle ergometer on muscle morphology in mechanically ventilated critically ill patients in the Intensive Care Unit (MoVe-ICU study): study protocol for a randomized controlled trial.

Author

dos Santos LJ, de Aguiar Lemos F, Bianchi T, Sachetti A, Dall' Acqua AM, da Silva Naue W, Dias AS, and Vieira SR

Subjects

Brazil, Clinical Protocols, Critical Illness, Diaphragm physiopathology, Ergometry, Humans, Muscle Strength, Muscular Atrophy diagnostic imaging, Muscular Atrophy etiology, Muscular Atrophy physiopathology, Quadriceps Muscle physiopathology, Recovery of Function, Research Design, Single-Blind Method, Time Factors, Treatment Outcome, Ultrasonography, Bicycling, Diaphragm diagnostic imaging, Exercise Therapy methods, Intensive Care Units, Muscular Atrophy rehabilitation, Quadriceps Muscle diagnostic imaging, Respiration, Artificial adverse effects

Abstract

Background: Patients in Intensive Care Units (ICU) are often exposed to prolonged immobilization which, in turn, plays an important role in neuromuscular complications. Exercise with a cycle ergometer is a treatment option that can be used to improve the rehabilitation of patients on mechanical ventilation (MV) in order to minimize the harmful effects of immobility., Methods/design: A single-blind randomized controlled trial (the MoVe ICU study) will be conducted to evaluate and compare the effects of early rehabilitation using a bedside cycle ergometer with conventional physical therapy on the muscle morphology of the knee extensors and diaphragm in critical ill patients receiving MV. A total of 28 adult patients will be recruited for this study from among those admitted to the intensive care department at the Hospital de Clínicas de Porto Alegre. Eligible patients will be treated with MV from a period of 24 to 48 h, will have spent maximum of 1 week in hospital and will not exhibit any characteristics restricting lower extremity mobility. These subjects will be randomized to receive either conventional physiotherapy or conventional physiotherapy with an additional cycle ergometer intervention. The intervention will be administered passively for 20 min, at 20 revolutions per minute (rpm), once per day, 7 days a week, throughout the time the patients remain on MV. Outcomes will be cross-sectional quadriceps thickness, length of fascicle, pennation angle of fascicles, thickness of vastus lateralis muscle, diaphragm thickness and excursion of critical ICU patients on MV measured with ultrasound., Discussion: The MoVe-ICU study will be the first randomized controlled trial to test the hypothesis that early rehabilitation with a passive cycle ergometer can preserve the morphology of knee extensors and diaphragm in critical patients on MV in ICUs., Trial Registration: NCT02300662 (25 November 2014).

Published

2015

26. Blood markers of oxidative stress predict weaning failure from mechanical ventilation.

Author

Verona C, Hackenhaar FS, Teixeira C, Medeiros TM, Alabarse PV, Salomon TB, Shüller ÁK, Maccari JG, Condessa RL, Oliveira RP, Rios Vieira SR, and Benfato MS

Subjects

Aged, Aged, 80 and over, Ascorbic Acid blood, Catalase blood, Female, Glutathione blood, Glutathione Disulfide blood, Glutathione Peroxidase blood, Humans, Male, Malondialdehyde blood, Middle Aged, Nitric Oxide blood, Nitrites blood, Outcome Assessment, Health Care methods, Predictive Value of Tests, Superoxide Dismutase blood, Biomarkers blood, Oxidative Stress, Respiration, Artificial methods, Ventilator Weaning methods

Abstract

Patients undergoing mechanical ventilation (MV) often experience respiratory muscle dysfunction, which complicates the weaning process. There is no simple means to predict or diagnose respiratory muscle dysfunction because diagnosis depends on measurements in muscle diaphragmatic fibre. As oxidative stress is a key mechanism contributing to MV-induced respiratory muscle dysfunction, the aim of this study was to determine if differences in blood measures of oxidative stress in patients who had success and failure in a spontaneous breathing trial (SBT) could be used to predict the outcome of MV. This was a prospective analysis of MV-dependent patients (≥72 hrs; n = 34) undergoing a standard weaning protocol. Clinical, laboratory and oxidative stress analyses were performed. Measurements were made on blood samples taken at three time-points: immediately before the trial, 30 min. into the trial in weaning success (WS) patients, or immediately before return to MV in weaning failure (WF) patients, and 6 hrs after the trial. We found that blood measures of oxidative stress distinguished patients who would experience WF from patients who would experience WS. Before SBT, WF patients presented higher oxidative damage in lipids and higher antioxidant levels and decreased nitric oxide concentrations. The observed differences in measures between WF and WS patients persisted throughout and after the weaning trial. In conclusion, WF may be predicted based on higher malondialdehyde, higher vitamin C and lower nitric oxide concentration in plasma., (© 2015 The Authors. Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine.)

Published

2015

27. Weaning from mechanical ventilation: a cross-sectional study of reference values and the discriminative validity of aging.

Author

Corbellini C, Trevisan CB, Villafañe JH, Doval da Costa A, and Vieira SR

Abstract

[Purpose] To evaluate pre-extubation variables and check the discriminative validity of age as well as its correlation with weaning failure in elderly patients. [Subjects and Methods] Two hundred thirty-nine consecutive patients (48% female) who were on mechanical ventilation and had undergone orotracheal intubation were divided into four subgroups according to their age: <59 years, 60-69 years, 70-79 years, and >80 years old. The expiratory volume (VE), respiratory frequency (f), tidal volume (VT), and respiratory frequency/tidal volume ratio (f/VT) were used to examine differences in weaning parameters between the four subgroups, and age was correlated with weaning failure. [Results] The rate of weaning failure was 27.8% in patients aged >80 years and 22.1% in patients aged <60 years old. Elderly patients presented higher f/VT and f values and lower VT values. The areas under the receiver operating characteristic curves for f/VT ratio were smaller than those published previously. [Conclusion] Our results indicate that aging influences weaning criteria without causing an increase in weaning failure.

Published

2015

28. Contrasting effects of preexisting hyperglycemia and higher body size on hospital mortality in critically ill patients: a prospective cohort study.

Author

Viana MV, Moraes RB, Fabbrin AR, Santos MF, Torman VB, Vieira SR, Gross JL, Canani LH, and Gerchman F

Subjects

Blood Glucose analysis, Body Mass Index, Body Size, Brazil, Female, Follow-Up Studies, Humans, Intensive Care Units, Male, Middle Aged, Prognosis, Prospective Studies, Risk Factors, Critical Illness mortality, Hospital Mortality trends, Hospitalization statistics & numerical data, Hyperglycemia physiopathology, Obesity physiopathology

Abstract

Background: Obesity and diabetes mellitus are well-defined risk factors for cardiovascular mortality. The impact of antecedent hyperglycemia and body size on mortality in critical ill patients in intensive care units (ICUs) may vary across their range of values. Therefore, we prospectively analyzed the relationship between in-hospital mortality and preexisting hyperglycemia and body size in critically ill ICU patients to understand how mortality varied among normal, overweight, and obese patients and those with low, intermediate, and high glycated hemoglobin (HbA1c) levels., Methods: Medical history, weight, height, physiologic variables, and HbA1c were obtained during the first 24 h for patients who were consecutively admitted to the high complexity ICU of Hospital de Clínicas de Porto Alegre, Brazil, from April to August 2011. The relationships between mortality and obesity and antecedent hyperglycemia were prospectively analyzed by cubic spline analysis and a Cox proportional hazards model., Results: The study comprised 199 patients. The overall hospital mortality rate was 43.2% during a median 16 (8-28) days of follow-up. There was a progressive risk of in-hospital mortality with higher HbA1c levels, with the relationship becoming significant at HbA1c >9.3% compared with lower levels (hazard ratio 1.74; 95% confidence interval with Bonferroni correction 1.49-2.80). In contrast, mean body mass index (BMI) was higher in survivors than in nonsurvivors (27.2 kg/m2 ± 7.3 vs. 24.7 kg/m2 ± 5.0 P = 0.031, respectively). Cubic spline analysis showed that these relationships differed nonlinearly through the spectrum of BMI values. In a Cox proportional hazards model adjusted for Acute Physiology and Chronic Health Evaluation II score and HbA1c, the risk of in-hospital mortality progressively decreased with increasing BMI (BMI <20 vs. 20-23.9 kg/m2, P = 0.032; BMI <20 vs. 24-34.9 kg/m2, P = 0.010; BMI <20 vs. ≥35 kg/m2, P = 0.032)., Conclusions: Our findings suggest that significant hyperglycemia prior to ICU admission is a risk factor for in-hospital mortality. Conversely, increasing BMI may confer an advantageous effect against mortality in critical illness independently of previous glycemic control.

Published

2014

29. Inflammatory and perfusion markers as risk factors and predictors of critically ill patient readmission.

Author

Santos MC, Boniatti MM, Lincho CS, Pellegrini JA, Vidart J, Rodrigues Filho EM, and Vieira SR

Subjects

Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Biomarkers metabolism, Critical Illness, Female, Humans, Intensive Care Units, Lactic Acid metabolism, Male, Middle Aged, Multivariate Analysis, Patient Isolation statistics & numerical data, Prospective Studies, Risk Factors, Young Adult, C-Reactive Protein metabolism, Inflammation pathology, Oxygen blood, Patient Readmission statistics & numerical data

Abstract

Objective: To assess the performance of central venous oxygen saturation, lactate, base deficit, and C-reactive protein levels and SOFA and SWIFT scores on the day of discharge from the intensive care unit as predictors of patient readmission to the intensive care unit., Methods: This prospective and observational study collected data from 1,360 patients who were admitted consecutively to a clinical-surgical intensive care unit from August 2011 to August 2012. The clinical characteristics and laboratory data of readmitted and non-readmitted patients after discharge from the intensive care unit were compared. Using a multivariate analysis, the risk factors independently associated with readmission were identified., Results: The C-reactive protein, central venous oxygen saturation, base deficit, and lactate levels and the SWIFT and SOFA scores did not correlate with the readmission of critically ill patients. Increased age and contact isolation because of multidrug-resistant organisms were identified as risk factors that were independently associated with readmission in this study group., Conclusion: Inflammatory and perfusion parameters were not associated with patient readmission. Increased age and contact isolation because of multidrug-resistant organisms were identified as predictors of readmission to the intensive care unit.

Published

2014

30. Chest compression with a higher level of pressure support ventilation: effects on secretion removal, hemodynamics, and respiratory mechanics in patients on mechanical ventilation.

Author

Naue Wda S, Forgiarini Junior LA, Dias AS, and Vieira SR

Subjects

Aged, Aged, 80 and over, Case-Control Studies, Cross-Over Studies, Female, Humans, Intensive Care Units, Male, Middle Aged, Physical Therapy Modalities, Thorax, Tidal Volume, Respiration, Artificial methods, Respiratory Mechanics

Abstract

Objective: To determine the efficacy of chest compression accompanied by a 10-cmH2O increase in baseline inspiratory pressure on pressure support ventilation, in comparison with that of aspiration alone, in removing secretions, normalizing hemodynamics, and improving respiratory mechanics in patients on mechanical ventilation., Methods: This was a randomized crossover clinical trial involving patients on mechanical ventilation for more than 48 h in the ICU of the Porto Alegre Hospital de Clínicas, in the city of Porto Alegre, Brazil. Patients were randomized to receive aspiration alone (control group) or compression accompanied by a 10-cmH2O increase in baseline inspiratory pressure on pressure support ventilation (intervention group). We measured hemodynamic parameters, respiratory mechanics parameters, and the amount of secretions collected., Results: We included 34 patients. The mean age was 64.2 ± 14.6 years. In comparison with the control group, the intervention group showed a higher median amount of secretions collected (1.9 g vs. 2.3 g; p = 0.004), a greater increase in mean expiratory tidal volume (16 ± 69 mL vs. 56 ± 69 mL; p = 0.018), and a greater increase in mean dynamic compliance (0.1 ± 4.9 cmH2O vs. 2.8 ± 4.5 cmH2O; p = 0.005)., Conclusions: In this sample, chest compression accompanied by an increase in pressure support significantly increased the amount of secretions removed, the expiratory tidal volume, and dynamic compliance. (ClinicalTrials.gov Identifier:NCT01155648 [http://www.clinicaltrials.gov/]).

Published

2014

31. Physicochemical evaluation of acid-base disorders after liver transplantation and the contribution from administered fluids.

Author

Boniatti MM, Filho EM, Cardoso PR, and Vieira SR

Subjects

Acidosis blood, Acidosis physiopathology, Adult, Albumins adverse effects, Alkalosis blood, Alkalosis etiology, Alkalosis physiopathology, Biomarkers blood, Chlorides blood, Female, Gelatin adverse effects, Hospitals, University, Humans, Hydrogen-Ion Concentration, Hydroxyethyl Starch Derivatives adverse effects, Intensive Care Units, Isotonic Solutions adverse effects, Male, Middle Aged, Prospective Studies, Ringer's Lactate, Sodium Chloride adverse effects, Treatment Outcome, Acid-Base Equilibrium, Acidosis etiology, Blood Substitutes adverse effects, Fluid Therapy adverse effects, Liver Transplantation adverse effects

Abstract

Objectives: To analyze the mechanism of acid-base disorders in liver transplant recipients and to examine the relationship between these disorders and the fluids administered during surgery., Methods: This prospective study in a university-affiliated hospital intensive care unit (ICU) included 52 patients admitted to the ICU from December 2009 to January 2011. We examined the contributions of inorganic ion differences, lactate, unmeasured anions, phosphate, and albumin to metabolic acidosis. In addition to laboratory variables, we collected demographic and clinical data., Results: Metabolic acidosis (standard base excess ≤ -2.0 mmol/L) was identified in 37 (71.2%) patients during the immediate postoperative period. The inorganic ion difference was the main determinant of acidosis, accounting for -6.17 mEq/L of acidifying effect. The acidemia was attenuated mainly by the alkalinizing effect of albumin reduction, which contributed +6.03 mEq/L. There was an inverse proportional relationship between the quantity of saline solution used during surgery and the inorganic ion difference during the immediate postoperative period., Conclusions: Hyperchloremia is the primary contributor to metabolic acidosis in liver transplant recipients. Possibly the use of chloride-rich solutions increases the incidence of this disorder., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

32. Factors influencing physical functional status in intensive care unit survivors two years after discharge.

Author

Haas JS, Teixeira C, Cabral CR, Fleig AH, Freitas AP, Treptow EC, Rizzotto MI, Machado AS, Balzano PC, Hetzel MP, Dallegrave DM, Oliveira RP, Savi A, and Vieira SR

Abstract

Background: Studies suggest that in patients admitted to intensive care units (ICU), physical functional status (PFS) improves over time, but does not return to the same level as before ICU admission. The goal of this study was to assess physical functional status two years after discharge from an ICU and to determine factors influencing physical status in this population., Methods: The study reviewed all patients admitted to two non-trauma ICUs during a one-year period and included patients with age ≥ 18 yrs, ICU stay ≥ 24 h, and who were alive 24 months after ICU discharge. To assess PFS, Karnofsky Performance Status Scale scores and Lawton-Instrumental Activities of Daily Living (IADL) scores at ICU admission (K-ICU and L-ICU) were compared to the scores at the end of 24 months (K-24mo and L-24mo). Data at 24 months were obtained through telephone interviews., Results: A total of 1,216 patients were eligible for the study. Twenty-four months after ICU discharge, 499 (41.6%) were alive, agreed to answer the interview, and had all hospital data available. PFS (K-ICU: 86.6 ± 13.8 vs. K-24mo: 77.1 ± 19.6, p < 0.001) and IADL (L-ICU: 27.0 ± 11.7 vs. L-24mo: 22.5 ± 11.5, p < 0.001) declined in patients with medical and unplanned surgical admissions. Most strikingly, the level of dependency increased in neurological patients (K-ICU: 86 ± 12 vs. K-24mo: 64 ± 21, relative risk [RR] 2.6, 95% CI, 1.8-3.6, p < 0.001) and trauma patients (K-ICU: 99 ± 2 vs. K-24mo: 83 ± 21, RR 2.7, 95% CI, 1.6-4.6, p < 0.001). The largest reduction in the ability to perform ADL occurred in neurological patients (L-ICU: 27 ± 7 vs. L-24mo: 15 ± 12, RR 3.3, 95% CI, 2.3-4.6 p < 0.001), trauma patients (L-ICU: 32 ± 0 vs. L-24mo: 25 ± 11, RR 2.8, 95% CI, 1.5-5.1, p < 0.001), patients aged ≥ 65 years (RR 1.4, 95% CI, 1.07-1.86, p = 0.01) and those who received mechanical ventilation for ≥ 8 days (RR 1.48, 95% CI, 1.02-2.15, p = 0.03)., Conclusions: Twenty-four months after ICU discharge, PFS was significantly poorer in patients with neurological injury, trauma, age ≥ 65 tears, and mechanical ventilation ≥ 8 days. Future studies should focus on the relationship between PFS and health-related quality of life in this population.

Published

2013

33. Inspiratory muscle training did not accelerate weaning from mechanical ventilation but did improve tidal volume and maximal respiratory pressures: a randomised trial.

Author

Condessa RL, Brauner JS, Saul AL, Baptista M, Silva AC, and Vieira SR

Subjects

Aged, Aged, 80 and over, Diaphragm physiology, Humans, Middle Aged, Pressure, Respiration, Artificial, Respiratory Function Tests, Respiratory Muscles physiology, Treatment Outcome, Breathing Exercises, Inhalation physiology, Respiratory Therapy methods, Tidal Volume physiology, Ventilator Weaning methods

Abstract

Question: Does inspiratory muscle training accelerate weaning from mechanical ventilation? Does it improve respiratory muscle strength, tidal volume, and the rapid shallow breathing index?, Design: Randomised trial with concealed allocation and intention-to-treat analysis., Participants: 92 patients receiving pressure support ventilation were included in the study and followed up until extubation, tracheostomy, or death., Intervention: The experimental group received usual care and inspiratory muscle training using a threshold device, with a load of 40% of their maximal inspiratory pressure with a regimen of 5 sets of 10 breaths, twice a day, 7 days a week. The control group received usual care only., Outcome Measures: The primary outcome was the duration of the weaning period. The secondary outcomes were the changes in respiratory muscle strength, tidal volume, and the rapid shallow breathing index., Results: Although the weaning period was a mean of 8 hours shorter in the experimental group, this difference was not statistically significant (95% CI -16 to 32). Maximal inspiratory and expiratory pressures increased in the experimental group and decreased in the control group, with significant mean differences of 10cmH2O (95% CI 5 to 15) and 8cmH2O (95% CI 2 to 13), respectively. The tidal volume also increased in the experimental group and decreased in the control group (mean difference 72 ml, 95% CI 17 to 128). The rapid shallow breathing index did not differ significantly between the groups., Conclusion: Inspiratory muscle training did not shorten the weaning period significantly but it increased respiratory muscle strength and tidal volume., (Copyright © 2013 Australian Physiotherapy Association. Published by .. All rights reserved.)

Published

2013

34. Effects of educational intervention on adherence to the technical recommendations for tracheobronchial aspiration in patients admitted to an intensive care unit.

Author

de Lima ED, Fleck CS, Borges JJ, Condessa RL, and Vieira SR

Subjects

Adolescent, Adult, Bronchi, Catheterization methods, Catheterization standards, Female, Gloves, Protective, Health Personnel education, Humans, Male, Middle Aged, Practice Guidelines as Topic, Suction methods, Suction standards, Trachea, Young Adult, Catheter-Related Infections prevention & control, Cross Infection prevention & control, Guideline Adherence, Intensive Care Units

Abstract

Objective: To evaluate the effectiveness of an educational intervention on healthcare professionals' adherence to the technical recommendations for tracheobronchial aspiration in intensive care unit patients., Methods: A quasi-experimental study was performed to evaluate intensive care unit professionals' adherence to the tracheobronchial aspiration technical recommendations in intensive care unit patients both before and after a theoretical and practical educational intervention. Comparisons were performed using the chi-square test, and the significance level was set to p<0.05., Results: A total of 124 procedures, pre- and post-intervention, were observed. Increased adherence was observed in the following actions: the use of personal protective equipment (p=0.01); precaution when opening the catheter package (p<0.001); the use of a sterile glove on the dominant hand to remove the catheter (p=0.003); the contact of the sterile glove with the catheter only (p<0.001); the execution of circular movements during the catheter removal (p<0.001); wrapping the catheter in the sterile glove at the end of the procedure (p=0.003); the use of distilled water, opened at the start of the procedure, to wash the connection latex (p=0.002); the disposal of the leftover distilled water at the end of the procedure (p<0.001); and the performance of the aspiration technique procedures (p<0.001)., Conclusion: There was a low adherence by health professionals to the preventive measures against hospital infection, indicating the need to implement educational strategies. The educational intervention used was shown to be effective in increasing adherence to the technical recommendations for tracheobronchial aspiration.

Published

2013

35. Is SAPS 3 better than APACHE II at predicting mortality in critically ill transplant patients?

Author

Oliveira VM, Brauner JS, Rodrigues Filho E, Susin RG, Draghetti V, Bolzan ST, and Vieira SR

Subjects

APACHE, Brazil, Critical Illness mortality, Humans, Intensive Care Units, Prognosis, ROC Curve, Risk Assessment, Severity of Illness Index, Health Status Indicators, Hospital Mortality, Kidney Transplantation mortality, Liver Transplantation mortality, Lung Transplantation mortality, Pancreas Transplantation mortality

Abstract

Objectives: This study compared the accuracy of the Simplified Acute Physiology Score 3 with that of Acute Physiology and Chronic Health Evaluation II at predicting hospital mortality in patients from a transplant intensive care unit., Method: A total of 501 patients were enrolled in the study (152 liver transplants, 271 kidney transplants, 54 lung transplants, 24 kidney-pancreas transplants) between May 2006 and January 2007. The Simplified Acute Physiology Score 3 was calculated using the global equation (customized for South America) and the Acute Physiology and Chronic Health Evaluation II score; the scores were calculated within 24 hours of admission. A receiver-operating characteristic curve was generated, and the area under the receiver-operating characteristic curve was calculated to identify the patients at the greatest risk of death according to Simplified Acute Physiology Score 3 and Acute Physiology and Chronic Health Evaluation II scores. The Hosmer-Lemeshow goodness-of-fit test was used for statistically significant results and indicated a difference in performance over deciles. The standardized mortality ratio was used to estimate the overall model performance., Results: The ability of both scores to predict hospital mortality was poor in the liver and renal transplant groups and average in the lung transplant group (area under the receiver-operating characteristic curve = 0.696 for Simplified Acute Physiology Score 3 and 0.670 for Acute Physiology and Chronic Health Evaluation II). The calibration of both scores was poor, even after customizing the Simplified Acute Physiology Score 3 score for South America., Conclusions: The low predictive accuracy of the Simplified Acute Physiology Score 3 and Acute Physiology and Chronic Health Evaluation II scores does not warrant the use of these scores in critically ill transplant patients.

Published

2013

36. Pulse pressure variation and prediction of fluid responsiveness in patients ventilated with low tidal volumes.

Author

Oliveira-Costa CD, Friedman G, Vieira SR, and Fialkow L

Subjects

Adult, Aged, Aged, 80 and over, Cardiac Output physiology, Critical Illness, Cross-Sectional Studies, Female, Fluid Therapy, Humans, Male, Middle Aged, Predictive Value of Tests, ROC Curve, Shock, Septic physiopathology, Young Adult, Blood Pressure physiology, Blood Volume physiology, Respiration, Artificial methods, Tidal Volume physiology

Abstract

Objective: To determine the utility of pulse pressure variation (ΔRESP PP) in predicting fluid responsiveness in patients ventilated with low tidal volumes (V T) and to investigate whether a lower ΔRESP PP cut-off value should be used when patients are ventilated with low tidal volumes., Method: This cross-sectional observational study included 37 critically ill patients with acute circulatory failure who required fluid challenge. The patients were sedated and mechanically ventilated with a V T of 6-7 ml/kg ideal body weight, which was monitored with a pulmonary artery catheter and an arterial line. The mechanical ventilation and hemodynamic parameters, including ΔRESP PP, were measured before and after fluid challenge with 1,000 ml crystalloids or 500 ml colloids. Fluid responsiveness was defined as an increase in the cardiac index of at least 15%. ClinicalTrial.gov: NCT01569308., Results: A total of 17 patients were classified as responders. Analysis of the area under the ROC curve (AUC) showed that the optimal cut-off point for ΔRESP PP to predict fluid responsiveness was 10% (AUC = 0.74). Adjustment of the ΔRESP PP to account for driving pressure did not improve the accuracy (AUC = 0.76). A ΔRESP PP ≥ 10% was a better predictor of fluid responsiveness than central venous pressure (AUC = 0.57) or pulmonary wedge pressure (AUC = 051). Of the 37 patients, 25 were in septic shock. The AUC for ΔRESP PP ≥ 10% to predict responsiveness in patients with septic shock was 0.484 (sensitivity, 78%; specificity, 93%)., Conclusion: The parameter D RESP PP has limited value in predicting fluid responsiveness in patients who are ventilated with low tidal volumes, but a ΔRESP PP>10% is a significant improvement over static parameters. A ΔRESP PP ≥ 10% may be particularly useful for identifying responders in patients with septic shock.

Published

2012

37. Impact of a mechanical ventilation weaning protocol on the extubation failure rate in difficult-to-wean patients.

Author

Teixeira C, Maccari JG, Vieira SR, Oliveira RP, Savi A, Machado AS, Tonietto TF, Cremonese RV, Wickert R, Pinto KB, Callefe F, Gehm F, Borges LG, and Oliveira ES

Subjects

Airway Extubation methods, Epidemiologic Methods, Female, Humans, Male, Middle Aged, Pulmonary Disease, Chronic Obstructive epidemiology, Treatment Failure, Treatment Outcome, Airway Extubation adverse effects, Airway Extubation statistics & numerical data, Clinical Protocols standards, Decision Making, Pulmonary Disease, Chronic Obstructive therapy, Ventilator Weaning methods

Abstract

Objective: To determine whether the predictive accuracy of clinical judgment alone can be improved by supplementing it with an objective weaning protocol as a decision support tool., Methods: This was a multicenter prospective cohort study carried out at three medical/surgical ICUs. The study involved all consecutive difficult-to-wean ICU patients (failure in the first spontaneous breathing trial [SBT]), on mechanical ventilation (MV) for more than 48 h, admitted between January of 2002 and December of 2005. The patients in the protocol group (PG) were extubated after a T-piece weaning trial and were compared with patients who were otherwise extubated (non-protocol group, NPG). The primary outcome measure was reintubation within 48 h after extubation., Results: We included 731 patients-533 (72.9%) and 198 (27.1%) in the PG and NPG, respectively. The overall reintubation rate was 17.9%. The extubation success rates in the PG and NPG were 86.7% and 69.6%, respectively (p < 0.001). There were no significant differences between the groups in terms of age, gender, severity score, or pre-inclusion time on MV. However, COPD was more common in the NPG than in the PG (44.4% vs. 17.6%; p < 0.001), whereas sepsis and being a post-operative patient were more common in the PG (23.8% vs. 11.6% and 42.4% vs. 26.4%, respectively; p < 0.001 for both). The time on MV after the failure in the first SBT was higher in the PG than in the NPG (9 ± 5 days vs. 7 ± 2 days; p < 0.001)., Conclusions: In this sample of difficult-to-wean patients, the use of a weaning protocol improved the decision-making process, decreasing the possibility of extubation failure.

Published

2012

38. Weaning predictors do not predict extubation failure in simple-to-wean patients.

Author

Savi A, Teixeira C, Silva JM, Borges LG, Pereira PA, Pinto KB, Gehm F, Moreira FC, Wickert R, Trevisan CB, Maccari JG, Oliveira RP, and Vieira SR

Subjects

Adult, Aged, Clinical Protocols, Critical Illness, Female, Follow-Up Studies, Humans, Male, Middle Aged, Prospective Studies, Treatment Failure, Airway Extubation, Ventilator Weaning

Abstract

Background: Predictor indexes are often included in weaning protocols and may help the intensive care unit (ICU) staff to reach expected weaning outcome in patients on mechanical ventilation., Objective: The objective of this study is to evaluate the potential of weaning predictors during extubation., Design: This is a prospective clinical study., Settings: The study was conducted in 3 medical-surgical ICUs., Patients: Five hundred consecutive unselected patients ventilated for more than 48 hours were included., Methods and Measurements: All patients were extubated after 30 minutes of successful spontaneous breathing trial and followed up for 48 hours. The protocol evaluated hemodynamics, ventilation parameters, arterial blood gases, and the weaning indexes frequency to tidal volume ratio; compliance, respiratory rate, oxygenation, and pressure; maximal inspiratory pressure; maximal expiratory pressure; Pao(2)/fraction of inspired oxygen; respiratory frequency; and tidal volume during mechanical ventilation and in the 1st and 30th minute of spontaneous breathing trial., Results: Reintubation rate was 22.8%, and intensive care mortality was higher in the reintubation group (10% vs 31%; P < .0001). The areas under the receiver operating characteristic curve showed that tests did not discriminate which patients could tolerate extubation., Conclusion: Usual weaning indexes are poor predictors for extubation outcome in the overall ICU population., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

39. Is hyperchloremia associated with mortality in critically ill patients? A prospective cohort study.

Author

Boniatti MM, Cardoso PR, Castilho RK, and Vieira SR

Subjects

Adult, Age Factors, Aged, Female, Hospitals, University statistics & numerical data, Humans, Intensive Care Units statistics & numerical data, Male, Middle Aged, Prospective Payment System, Serum Albumin analysis, Acid-Base Equilibrium, Chlorine blood, Critical Illness mortality, Hospital Mortality, Sepsis blood, Sepsis mortality

Abstract

Purpose: The aim of the study was to determine if acid-base variables are associated with hospital mortality., Materials and Methods: This prospective cohort study took place in a university-affiliated hospital intensive care unit (ICU). One hundred seventy-five patients admitted to the ICU during the period of February to May 2007 were included in the study. We recorded clinical data and acid-base variables from all patients at ICU admission. A logistic regression model was constructed using Sepsis-related Organ Failure Assessment (SOFA) score, age, and the acid-base variables., Results: Individually, none of the variables appear to be good predictors of hospital mortality. However, using the multivariate stepwise logistic regression, we had a model with good discrimination containing SOFA score, age, chloride, and albumin (area under receiver operating characteristic curve, 0.80; 95% confidence interval, 0.73-0.87)., Conclusions: Hypoalbuminemia and hyperchloremia were associated with mortality. This result involving chloride is something new and should be tested in future studies., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

40. Energy expenditure during weaning from mechanical ventilation: is there any difference between pressure support and T-tube?

Author

dos Santos LJ, Hoff FC, Condessa RL, Kaufmann ML, and Vieira SR

Subjects

Adult, Aged, Biometry, Calorimetry, Indirect, Cross-Over Studies, Female, Humans, Male, Middle Aged, Reproducibility of Results, Ventilator Weaning instrumentation, Energy Metabolism, Ventilator Weaning methods

Abstract

Background: The objectives of this study were to compare patients' energy expenditure (EE) during pressure support (PS) and T-tube (TT) weaning from mechanical ventilation (MV) through indirect calorimetry (IC) and to crosscheck these findings with the results calculated using Harris-Benedict (HB) equation., Methods: This study is a randomized crossover controlled trial. Patients with clinical criteria for weaning from MV were randomized to PS-TT or TT-PS, with EE measurement for 20 minutes in PS and TT through IC. Energy expenditure was estimated through HB equation with and without activity factor. Statistical analysis used the Student t test for paired samples and Pearson correlation coefficient, as well as Bland-Altman method., Results: Forty patients were included. The mean age and Acute Physiology and Chronic Health Evaluation II score were 56 ± 16 years and 23 ± 8, respectively, with predominance of male patients (70%). Mean EE of patients in TT (1782 ± 375 kcal/d) was 14.4% higher than in PS (1558 ± 304 kcal/d; P < .001). In relation to the EE obtained with the HB equation, the mean (SD) value calculated was 1455 (210) kcal/d, and when considering the activity factor, it was 1609 (236) kcal/d, all of them presenting correlation with the values from IC in PS (r = 0.647) and TT (r = 0.539). However, the limits of agreement between the measured EE and the estimated EE suggest that the HB equation tends to underestimate the EE., Conclusion: Comparison of EE in PS and in TT through IC demonstrated that there is increased EE in the TT mode. The results suggest that the HB equation underestimates the EE of patients in weaning from MV., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

41. Increasing pressure support does not enhance secretion clearance if applied during manual chest wall vibration in intubated patients: a randomised trial.

Author

Naue Wda S, da Silva AC, Güntzel AM, Condessa RL, de Oliveira RP, and Rios Vieira SR

Subjects

Aged, Aged, 80 and over, Chronic Disease, Critical Care methods, Female, Humans, Lung Diseases mortality, Male, Middle Aged, Mucus metabolism, Outcome Assessment, Health Care, Oxygen blood, Pressure, Chest Wall Oscillation methods, Intubation, Intratracheal, Lung Diseases therapy, Respiration, Artificial

Abstract

Questions: What is the effect of increasing pressure support during the application of manual chest wall compression with vibrations for secretion clearance in intubated patients in intensive care?, Design: A randomised trial with concealed allocation, assessor blinding and intention-to-treat analysis., Participants: 66 patients receiving mechanical ventilation for greater than 48 hours., Intervention: All participants were positioned supine in bed with the backrest elevated 30 degrees. The experimental group received manual chest wall compression with vibrations during which their pressure support ventilation was increased by 10 cm H(2)O over its existing level. The control group received manual chest wall compression with vibrations but no adjustment of the ventilator settings. Both groups then received airway suction., Outcome Measures: The primary outcome was the weight of the aspirate. Secondary outcomes were pulmonary and haemodynamic measures and oxygenation., Results: Although both treatments increased the weight of the aspirate compared to baseline, the addition of increased pressure support during manual chest wall compression with vibrations did not significantly increase the clearance of secretions, mean between-group difference in weight of the aspirate 0.4 g, 95% CI -0.5 to 1.4. Although several other measures also improved in one or both groups with treatment, there were no significant differences between the groups for any of the secondary outcomes., Conclusion: Although increasing pressure support has previously been shown to increase secretion clearance in intubated patients, the current study did not show any benefits when it was added to chest wall compression with vibrations., Trial Registration: NCT01155648., (Copyright © 2011 Australian Physiotherapy Association. Published by .. All rights reserved.)

Published

2011

42. Characteristics of chronically critically ill patients: comparing two definitions.

Author

Boniatti MM, Friedman G, Castilho RK, Vieira SR, and Fialkow L

Subjects

Epidemiologic Methods, Female, Humans, Intensive Care Units statistics & numerical data, Length of Stay statistics & numerical data, Male, Middle Aged, Time Factors, Chronic Disease, Critical Illness, Respiration, Artificial statistics & numerical data, Tracheostomy statistics & numerical data

Published

2011

43. Echocardiographic evaluation during weaning from mechanical ventilation.

Author

Schifelbain LM, Vieira SR, Brauner JS, Pacheco DM, and Naujorks AA

Subjects

APACHE, Adult, Aged, Aged, 80 and over, Analysis of Variance, Female, Humans, Intensive Care Units, Male, Middle Aged, Pressure, Time Factors, Young Adult, Echocardiography, Doppler, Heart physiology, Respiration, Artificial, Ventilator Weaning methods

Abstract

Introduction: Echocardiographic, electrocardiographic and other cardiorespiratory variables can change during weaning from mechanical ventilation., Objectives: To analyze changes in cardiac function, using Doppler echocardiogram, in critical patients during weaning from mechanical ventilation, using two different weaning methods: pressure support ventilation and T-tube; and comparing patient subgroups: success vs. failure in weaning., Methods: Randomized crossover clinical trial including patients under mechanical ventilation for more than 48 h and considered ready for weaning. Cardiorespiratory variables, oxygenation, electrocardiogram and Doppler echocardiogram findings were analyzed at baseline and after 30 min in pressure support ventilation and T-tube. Pressure support ventilation vs. T-tube and weaning success vs. failure were compared using ANOVA and Student's t-test. The level of significance was p<0.05., Results: Twenty-four adult patients were evaluated. Seven patients failed at the first weaning attempt. No echocardiographic or electrocardiographic differences were observed between pressure support ventilation and T-tube. Weaning failure patients presented increases in left atrium, intraventricular septum thickness, posterior wall thickness and diameter of left ventricle and shorter isovolumetric relaxation time. Successfully weaned patients had higher levels of oxygenation., Conclusion: No differences were observed between Doppler echocardiographic variables and electrocardiographic and other cardiorespiratory variables during pressure support ventilation and T-tube. However cardiac structures were smaller, isovolumetric relaxation time was larger, and oxygenation level was greater in successfully weaned patients.

Published

2011

44. Expiratory positive airway pressure in postoperative cardiac hemodynamics.

Author

Santos Sena AC, Ribeiro SP, Condessa RL, and Vieira SR

Subjects

Aged, Analysis of Variance, Catheterization, Swan-Ganz, Female, Humans, Male, Positive-Pressure Respiration instrumentation, Postoperative Period, Cardiac Surgical Procedures, Hemodynamics physiology, Positive-Pressure Respiration adverse effects

Abstract

Background: [Corrected] Expiratory positive airway pressure (EPAP) is used in after cardiac surgeries. However, its hemodynamic effects have not been clearly studied., Objective: To evaluate the hemodynamic changes caused by EPAP in patients after cardiac surgery monitored by Swan-Ganz., Methods: Patients at the first or second cardiac surgery postoperative period hemodynamically stable with a Swan-Ganz catheter were included in the study. They were assessed at rest and after using 10 cmH2O EPAP at random. The variables studied were: oxygen saturation, heart rate and respiratory rate, mean artery pressures and pulmonary artery mean pressures (MAP and PAMP), central venous pressure (CVP) and pulmonary capillary wedge pressure (PAOP), cardiac output and index, and systemic and pulmonary vascular resistances. Patients were divided into subgroups (with ejection fraction <; 50% or > 50%) and data were compared by t test and ANOVA., Results: Twenty-eight patients were studied (22 men, aged 68 ± 11 years). Comparing the period of rest versus EPAP, the changes observed were: PAOP (11.9 ± 3.8 to 17.1 ± 4.9 mmHg, p < 0.001), PVC (8.7 ± 4.1 to 10.9 ± 4.3 mmHg, p = 0.014), PAMP (21.5 ± 4.2 to 26.5 ± 5.8 mmHg, p < 0.001), MAP (76 ± 10 for 80 ± 10 mmHg, p = 0.035). The other variables showed no significant differences., Conclusion: EPAP was well tolerated by patients and the hemodynamic changes found showed an increase in pressure measurements of right and left ventricular filling, as well as mean arterial pressure.

Published

2010

45. Mild therapeutic hypothermia after cardiac arrest: mechanism of action and protocol development.

Author

Rech TH and Vieira SR

Abstract

Cardiac arrest is a high mortality event and the associated brain ischemia frequently causes severe neurological damage and persistent vegetative state. Therapeutic hypothermia is an important tool for the treatment of post-anoxic coma after cardiopulmonary resuscitation. It has been shown to reduce mortality and to improve neurological outcomes after cardiac arrest. Nevertheless, hypothermia is underused in critical care units. This manuscript aims to review the hypothermia mechanism of action in cardiac arrest survivors and to propose a simple protocol, feasible to be implemented in any critical care unit.

Published

2010

46. Central venous saturation is a predictor of reintubation in difficult-to-wean patients.

Author

Teixeira C, da Silva NB, Savi A, Vieira SR, Nasi LA, Friedman G, Oliveira RP, Cremonese RV, Tonietto TF, Bressel MA, Maccari JG, Wickert R, and Borges LG

Subjects

Blood Gas Analysis, Cohort Studies, Confidence Intervals, Female, Humans, Intensive Care Units, Intubation, Intratracheal, Male, Middle Aged, Odds Ratio, Oxygen Consumption, Predictive Value of Tests, Treatment Outcome, Oxygen blood, Ventilator Weaning methods

Abstract

Objective: To evaluate the predictive value of central venous saturation to detect extubation failure in difficult-to-wean patients., Design: Cohort, multicentric, clinical study., Setting: Three medical-surgical intensive care units., Patients: All difficult-to-wean patients (defined as failure to tolerate the first 2-hr T-tube trial), mechanically ventilated for >48 hrs, were extubated after undergoing a two-step weaning protocol (measurements of predictors followed by a T-tube trial). Extubation failure was defined as the need of reintubation within 48 hrs., Interventions: The weaning protocol evaluated hemodynamic and ventilation parameters, and arterial and venous gases during mechanical ventilation (immediately before T-tube trial), and at the 30th min of spontaneous breathing trial., Measurements and Main Results: Seventy-three patients were enrolled in the study over a 6-mo period. Reintubation rate was 42.5%. Analysis by logistic regression revealed that central venous saturation was the only variable able to discriminate outcome of extubation. Reduction of central venous saturation by >4.5% was an independent predictor of reintubation, with odds ratio of 49.4 (95% confidence interval 12.1-201.5), a sensitivity of 88%, and a specificity of 95%. Reduction of central venous saturation during spontaneous breathing trial was associated with extubation failure and could reflect the increase of respiratory muscles oxygen consumption., Conclusions: Central venous saturation was an early and independent predictor of extubation failure and may be a valuable accurate parameter to be included in weaning protocols of difficult-to-wean patients.

Published

2010

47. Energy expenditure in mechanical ventilation: is there an agreement between the Ireton-Jones equation and indirect calorimetry?

Author

Santos LJ, Balbinotti L, Marques AY, Alscher S, and Vieira SR

Abstract

Objective: Assess the agreement between the energy expenditure measured by indirect calorimetry and that estimated by the Ireton-Jones formula of critically ill patients under assisted mechanical ventilation., Methods: Participated in the study individuals able to interrupt ventilation support, admitted at the center of intensive care of the Hospital de Clínicas de Porto Alegre - RS, between August 2006 and January 2007. Energy expenditure was measured by indirect calorimetry using a specific monitor, as well as estimated by the Ireton-Jones formula. Values found were analyzed using the Student's t test and the Bland and Altman method and expressed in mean, ± standard deviation with a significance level of p<0.05., Results: The study included forty patients with a mean age of 56±16 years and APACHE II score of 23±8. Energy expenditure measured by indirect calorimetry was of 1558±304kcal/24h, while that estimated by Ireton-Jones was of 1689±246kcal/24h. There was a significant statistical difference between means of energy expenditure measured and estimated of the same individual (p<0.004). The agreement thresholds between indirect calorimetry and the Ireton-Jones equation were of -680.51 to 417.81 kcal., Conclusion: Energy expenditure estimated by the Ireton-Jones formula did not present good agreement with that measured by indirect calorimetry, however, considering aspects related to availability of the equipment, this equation may be useful in the nutritional planning for critically ill patients.

Published

2009

48. Short-term effects of positive expiratory airway pressure in patients being weaned from mechanical ventilation.

Author

Rieder Mde M, Costa AD, and Vieira SR

Subjects

Epidemiologic Methods, Female, Hemodynamics physiology, Humans, Male, Middle Aged, Positive-Pressure Respiration methods, Pulmonary Disease, Chronic Obstructive physiopathology, Ventilator Weaning instrumentation, Work of Breathing physiology, Positive-Pressure Respiration adverse effects, Pulmonary Disease, Chronic Obstructive therapy, Ventilator Weaning methods

Abstract

Objective: To investigate the feasibility and the cardiorespiratory effects of using positive expiratory airway pressure, a physiotherapeutic tool, in comparison with a T-tube, to wean patients from mechanical ventilation., Methods/design: A prospective, randomized, cross-over study., Setting: Two intensive care units., Patients and Interventions: We evaluated forty patients who met weaning criteria and had been mechanically-ventilated for more than 48 hours, mean age 59 years, including 23 males. All patients were submitted to the T-tube and Expiratory Positive Airway Pressure devices, at 7 cm H2O, during a 30-minute period. Cardiorespiratory variables including work of breathing, respiratory rate (rr), peripheral oxygen saturation (SpO2), heart rate (hr), systolic, diastolic and mean arterial pressures (SAP, DAP, MAP) were measured in the first and thirtieth minutes. The condition was analyzed as an entire sample set (n=40) and was also divided into subconditions: chronic obstructive pulmonary disease (n=14) and non-chronic obstructive pulmonary disease (non- chronic obstructive pulmonary disease) (n=26) categories. Comparisons were made using a t-test and Analysis of Variance. The level of significance was p < 0.05., Results: Our data showed an increase in work of breathing in the first and thirtieth minutes in the EPAP condition (0.86+ 0.43 and 1.02+1.3) as compared with the T-tube condition (0.25+0.26 and 0.26+0.35) (p<0.05), verified by the flow-sensor monitor (values in J/L). No statistical differences were observed when comparing the Expiratory Positive Airway Pressure and T-tube conditions with regard to cardiorespiratory measurements. The same result was observed for both chronic obstructive pulmonary disease and non- chronic obstructive pulmonary disease subconditions., Conclusions: Our study demonstrated that, in weaning patients from mechanical ventilation, the use of a fixed level of Expiratory Positive Airway Pressure caused an increase in work of breathing that was not accompanied by any other significant cardiorespiratory changes. Therefore, we have to be cautious when using Expiratory Positive Airway Pressure as a physiotherapeutic tool during weaning from mechanical ventilation.

Published

2009

49. Anatomical indicators of dominance between the coronary arteries in swine.

Author

Vieira TH, Moura PC Jr, Vieira SR, Moura PR, Silva NC, Wafae GC, Ruiz CR, and Wafae N

Subjects

Animals, Coronary Circulation, Coronary Vessels physiology, Female, Humans, Male, Species Specificity, Coronary Vessels anatomy & histology, Sus scrofa anatomy & histology

Abstract

The interest in experimental use of coronary arteries of swine as a stage towards their application in human hearts justifies the need for obtaining a detailed anatomical understanding of those arteries, particularly to evaluate similarities and differences. However, we did not find any citations about anatomical indicators of coronary dominance among swine in the literature. Many authors have used the crux cordis and the origin of the posterior interventricular branch as references for defining three types of pattern in human hearts: right, balanced and left dominance. We used 30 hearts fixed in 10% formalin from male and female Landrace swine aged five to six months, weighing 80 to 110 kg. The branch corresponding to the subsinuosal interventricular sulcus came from the right coronary artery (96.7%) or from both coronary arteries (3.3%). The subsinuosal interventricular branch presented at least one small branch that went beyond the crux cordis. The apical area presented predominance of the paraconal interventricular (left anterior descending) branch in 43.3%, the subsinuosal interventricular branch in 23.3% and presence of both arteries in 33.3%. The left coronary artery emitted 54.5% of the ventricular branches and the right coronary artery 46.5%. Taking the crux cordis and the subsinuosal interventricular branch as references, the arterial pattern in swine hearts is right dominance. The diversity of the apical pattern and the balance in the distribution of ventricular branches do not allow this to be used as an approach in isolation. The similarities between human and swine hearts also apply to the coronary artery pattern.

Published

2008

50. Noninvasive mechanical ventilation may be useful in treating patients who fail weaning from invasive mechanical ventilation: a randomized clinical trial.

Author

Trevisan CE and Vieira SR

Subjects

Aged, Chi-Square Distribution, Female, Humans, Lung Diseases, Obstructive physiopathology, Male, Middle Aged, Pneumonia etiology, Pneumonia prevention & control, Positive-Pressure Respiration methods, Risk Factors, Treatment Outcome, Lung Diseases, Obstructive therapy, Respiration, Artificial methods, Ventilator Weaning methods

Abstract

Introduction: The use of noninvasive positive-pressure mechanical ventilation (NPPV) has been investigated in several acute respiratory failure situations. Questions remain about its benefits when used in weaning patients from invasive mechanical ventilation (IMV). The objective of this study was to evaluate the use of bi-level NPPV for patients who fail weaning from IMV., Methods: This experimental randomized clinical trial followed up patients undergoing IMV weaning, under ventilation for more than 48 hours, and who failed a spontaneous breathing T-piece trial. Patients with contraindications to NPPV were excluded. Before T-piece placement, arterial gases, maximal inspiratory pressure, and other parameters of IMV support were measured. During the trial, respiratory rate, tidal volume, minute volume, rapid shallow breathing index, heart rate, arterial blood pressure, and peripheral oxygen saturation were measured at 1 and 30 minutes. After failing a T-piece trial, patients were randomly divided in two groups: (a) those who were extubated and placed on NPPV and (b) those who were returned to IMV. Group results were compared using the Student t test and the chi-square test., Results: Of 65 patients who failed T-piece trials, 28 were placed on NPPV and 37 were placed on IMV. The ages of patients in the NPPV and IMV groups were 67.6 +/- 15.5 and 59.7 +/- 17.6 years, respectively. Heart disease, post-surgery respiratory failure, and chronic pulmonary disease aggravation were the most frequent causes of IMV use. In both groups, ventilation time before T-piece trial was 7.3 +/- 4.1 days. Heart and respiratory parameters were similar for the two groups at 1 and 30 minutes of T-piece trial. The percentage of complications in the NPPV group was lower (28.6% versus 75.7%), with lower incidences of pneumonia and tracheotomy. Length of stay in the intensive care unit and mortality were not statistically different when comparing the groups., Conclusion: The results suggest that NPPV is a good alternative for ventilation of patients who fail initial weaning attempts. NPPV reduces the incidence of pneumonia associated with mechanical ventilation and the need for tracheotomy., Trial Registration: CEP HCPA (02-114).

Published

2008