Michel Toussaint1, Kurt Pernet2, Marc Steens2, Jurn Haan2, Nicole Sheers3. 1. Ziekenhuis Inkendaal, Vlezenbeek, Belgium. michel.toussaint@inkendaal.be. 2. Ziekenhuis Inkendaal, Vlezenbeek, Belgium. 3. Victorian Respiratory Support Service and Institute for Breathing and Sleep, Austin Health, Heidelberg, Victoria, Australia.
Abstract
BACKGROUND:Air stacking improves cough effectiveness in people with Duchenne muscular dystrophy (DMD) and respiratory muscle weakness. However, it is not known whether air stacking is more effective via a resuscitator bag or a home ventilator. METHODS: This prospective randomized study investigated the effect of air stacking via a volume-cycled home ventilator versus via a resuscitator bag in participants with DMD. Maximum insufflation capacity and peak expiratory flow during spontaneous (cough peak flow) and air stacking-assisted cough maneuvers (air stacking-assisted cough peak flow) were measured. RESULTS:Fifty-two adult DMD subjects receiving noninvasive ventilation were included in the study: 27 participants performedair stacking via their home ventilator (home-ventilator group; age = 25.3 ± 5.1 y; forced vital capacity (FVC) = 809 ± 555 mL), and 25 participants used a resuscitator bag (resuscitator-bag group; age = 24.7 ± 5.7 y, FVC = 807 ± 495 mL). Following a single training session, air stacking could be performed successfully by 89% (home ventilator) and 88% (resuscitator bag) of participants. There were comparable maximum insufflation capacities (1,481 mL for the home-ventilator group vs 1,344 mL for the resuscitator-bag group, P = .33) and mean air stacking-assisted cough peak flow values (199 L/min for the home-ventilator group vs 186 L/min for the resuscitator-bag group, P = .33) between techniques. Air stacking-assisted cough peak flow increased significantly compared with baseline in both groups (mean increase: +51% [home ventilator] vs +49% [resuscitator bag], P < .001), with individual air stacking-assisted cough peak flow improvements ranging from -20 to 245%. CONCLUSIONS: Cough augmentation is an important component of the respiratory management of people with a neuromuscular disorder. No difference in cough effectiveness as measured by air stacking-assisted cough peak flow was found in air stacking via a ventilator compared with via a resuscitator bag. Both methods achieved mean air stacking-assisted cough peak flow values of >160 L/min. Provision of an inexpensive resuscitator bag can effectively improve cough capacity, and it is simple to use, which may improve access to respiratory care in people with DMD.
RCT Entities:
BACKGROUND: Air stacking improves cough effectiveness in people with Duchenne muscular dystrophy (DMD) and respiratory muscle weakness. However, it is not known whether air stacking is more effective via a resuscitator bag or a home ventilator. METHODS: This prospective randomized study investigated the effect of air stacking via a volume-cycled home ventilator versus via a resuscitator bag in participants with DMD. Maximum insufflation capacity and peak expiratory flow during spontaneous (cough peak flow) and air stacking-assisted cough maneuvers (air stacking-assisted cough peak flow) were measured. RESULTS: Fifty-two adult DMD subjects receiving noninvasive ventilation were included in the study: 27 participants performed air stacking via their home ventilator (home-ventilator group; age = 25.3 ± 5.1 y; forced vital capacity (FVC) = 809 ± 555 mL), and 25 participants used a resuscitator bag (resuscitator-bag group; age = 24.7 ± 5.7 y, FVC = 807 ± 495 mL). Following a single training session, air stacking could be performed successfully by 89% (home ventilator) and 88% (resuscitator bag) of participants. There were comparable maximum insufflation capacities (1,481 mL for the home-ventilator group vs 1,344 mL for the resuscitator-bag group, P = .33) and mean air stacking-assisted cough peak flow values (199 L/min for the home-ventilator group vs 186 L/min for the resuscitator-bag group, P = .33) between techniques. Air stacking-assisted cough peak flow increased significantly compared with baseline in both groups (mean increase: +51% [home ventilator] vs +49% [resuscitator bag], P < .001), with individual air stacking-assisted cough peak flow improvements ranging from -20 to 245%. CONCLUSIONS: Cough augmentation is an important component of the respiratory management of people with a neuromuscular disorder. No difference in cough effectiveness as measured by air stacking-assisted cough peak flow was found in air stacking via a ventilator compared with via a resuscitator bag. Both methods achieved mean air stacking-assisted cough peak flow values of >160 L/min. Provision of an inexpensive resuscitator bag can effectively improve cough capacity, and it is simple to use, which may improve access to respiratory care in people with DMD.
Authors: Brenda Morrow; Andrew Argent; Marco Zampoli; Anri Human; Lieselotte Corten; Michel Toussaint Journal: Cochrane Database Syst Rev Date: 2021-04-22
Authors: J A Gascón-Navarro; J Torres-Borrego; M J De La Torre-Aguilar; J A Fernández-Ramos; J L Pérez-Navero Journal: Ital J Pediatr Date: 2021-11-16 Impact factor: 2.638
Authors: Esther S Veldhoen; Femke Vercoelen; Leandra Ros; Laura P Verweij-van den Oudenrijn; Roelie M Wösten-van Asperen; Erik Hj Hulzebos; Bart Bartels; Michael A Gaytant; Kors van der Ent; W Ludo van der Pol Journal: Chron Respir Dis Date: 2022 Jan-Dec Impact factor: 3.115