BACKGROUND: Chair-sitting may allow for more readily activated scalene, sternocleidomastoid, and parasternal intercostal muscles, and may raise and enlarge the upper thoracic cage, thereby allowing the thoracic cage to be more easily compressed. OBJECTIVE: To evaluate the effect of chair-sitting during exercise training on respiratory muscle function in mechanically ventilated patients. METHODS: We randomized 16 patients to a control group and 18 patients to a chair-sitting group. The patients in the chair-sitting group were transferred by 2 intensive care unit nurses from bed to armchair and rested for at least 30 min, based on the individual patient's tolerance. We measured heart rate, blood pressure, S(pO(2)), and respiratory rate. In the treatment group, before transferring the patient from bed to armchair, and 30 min after the completion of chair-sitting we measured respiratory muscle function variables, including the ratio of respiratory rate (f) to tidal volume (V(T)), S(pO(2)), maximum inspiratory pressure (P(Imax)) and maximum expiratory pressure (P(Emax)). In the control patients we took those same measurements while the patient was in semirecumbent position, before and after treatments, for at least 6 days or until the patient was discharged from the intensive care unit or died. RESULTS: The 2 groups did not significantly differ in age, sex, or clinical outcomes. Respiratory rate, V(T), f/V(T), S(pO(2)), P(Imax), and P(Emax) were not significantly better in the chair-sitting group. The study period significantly improved respiratory rate, V(T), P(Imax), and P(Emax) (all P < .001), but not f/V(T). CONCLUSIONS: Six days of chair-sitting exercise training did not significantly improve respiratory muscle function in mechanically ventilated patients.
RCT Entities:
BACKGROUND: Chair-sitting may allow for more readily activated scalene, sternocleidomastoid, and parasternal intercostal muscles, and may raise and enlarge the upper thoracic cage, thereby allowing the thoracic cage to be more easily compressed. OBJECTIVE: To evaluate the effect of chair-sitting during exercise training on respiratory muscle function in mechanically ventilated patients. METHODS: We randomized 16 patients to a control group and 18 patients to a chair-sitting group. The patients in the chair-sitting group were transferred by 2 intensive care unit nurses from bed to armchair and rested for at least 30 min, based on the individual patient's tolerance. We measured heart rate, blood pressure, S(pO(2)), and respiratory rate. In the treatment group, before transferring the patient from bed to armchair, and 30 min after the completion of chair-sitting we measured respiratory muscle function variables, including the ratio of respiratory rate (f) to tidal volume (V(T)), S(pO(2)), maximum inspiratory pressure (P(Imax)) and maximum expiratory pressure (P(Emax)). In the control patients we took those same measurements while the patient was in semirecumbent position, before and after treatments, for at least 6 days or until the patient was discharged from the intensive care unit or died. RESULTS: The 2 groups did not significantly differ in age, sex, or clinical outcomes. Respiratory rate, V(T), f/V(T), S(pO(2)), P(Imax), and P(Emax) were not significantly better in the chair-sitting group. The study period significantly improved respiratory rate, V(T), P(Imax), and P(Emax) (all P < .001), but not f/V(T). CONCLUSIONS: Six days of chair-sitting exercise training did not significantly improve respiratory muscle function in mechanically ventilated patients.
Authors: T Bein; M Bischoff; U Brückner; K Gebhardt; D Henzler; C Hermes; K Lewandowski; M Max; M Nothacker; T Staudinger; M Tryba; S Weber-Carstens; H Wrigge Journal: Anaesthesist Date: 2015-08 Impact factor: 1.041
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Authors: Carol L Hodgson; Kathy Stiller; Dale M Needham; Claire J Tipping; Megan Harrold; Claire E Baldwin; Scott Bradley; Sue Berney; Lawrence R Caruana; Doug Elliott; Margot Green; Kimberley Haines; Alisa M Higgins; Kirsi-Maija Kaukonen; Isabel Anne Leditschke; Marc R Nickels; Jennifer Paratz; Shane Patman; Elizabeth H Skinner; Paul J Young; Jennifer M Zanni; Linda Denehy; Steven A Webb Journal: Crit Care Date: 2014-12-04 Impact factor: 9.097
Authors: Juultje Sommers; Raoul H H Engelbert; Daniela Dettling-Ihnenfeldt; Rik Gosselink; Peter E Spronk; Frans Nollet; Marike van der Schaaf Journal: Clin Rehabil Date: 2015-02-13 Impact factor: 3.477
Authors: Th Bein; M Bischoff; U Brückner; K Gebhardt; D Henzler; C Hermes; K Lewandowski; M Max; M Nothacker; Th Staudinger; M Tryba; S Weber-Carstens; H Wrigge Journal: Anaesthesist Date: 2015-12 Impact factor: 1.041