Effects of Air Stacking on Dyspnea and Lung Function in Neuromuscular Diseases

To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs. Interventional, before-after study. A neurorehabilitati...

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Published inArchives of physical medicine and rehabilitation Vol. 102; no. 8; pp. 1562 - 1567
Main Authors Pellegrino, Giulia Michela, Corbo, Massimo, Di Marco, Fabiano, Pompilio, Pasquale, Dellacà, Raffaele, Banfi, Paolo, Pellegrino, Riccardo, Sferrazza Papa, Giuseppe Francesco
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.08.2021
Subjects
Cough
Dyspnea
Neuromuscular diseases
Rehabilitation
Respiratory muscles
Neuromuscular diseases
R5
SNIP
ALS
FOT
VC
Cough
R5-19
AS
Dyspnea
SaO2
Respiratory muscles
Rehabilitation
R19
X5
dyspnea
forced oscillation technique
lung function
air stacking
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Abstract To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs. Interventional, before-after study. A neurorehabilitation inpatient and outpatient center. Fifteen consecutive adult patients affected by neuromuscular diseases (N=15). AS treatment. Patients had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. We measured Borg score, oxygen saturation, and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R5-19) with the forced oscillation technique before and 5, 30, 60, and 120 minutes after applying AS. Before AS, Borg score was significantly related to R5-19 (r2 0.46, P<.05) but not to VC % predicted, SNIP % predicted, and time since symptom onset. After AS, average Borg score gradually decreased (P=.005), whereas inspiratory flow resistance at 5 Hz, R5-19, and inspiratory reactance at 5 Hz tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 minutes after AS significantly correlated with baseline R5-19 (r2 0.49, P<.01 and r2 0.29, P<.05, respectively), but not with VC % predicted, SNIP % predicted, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis. These findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.
AbstractList To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs.OBJECTIVETo investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs.Interventional, before-after study.DESIGNInterventional, before-after study.A neurorehabilitation inpatient and outpatient center.SETTINGA neurorehabilitation inpatient and outpatient center.Fifteen consecutive adult patients affected by neuromuscular diseases (N=15).PARTICIPANTSFifteen consecutive adult patients affected by neuromuscular diseases (N=15).AS treatment.INTERVENTIONSAS treatment.Patients had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. We measured Borg score, oxygen saturation, and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R5-19) with the forced oscillation technique before and 5, 30, 60, and 120 minutes after applying AS.MAIN OUTCOME MEASURESPatients had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. We measured Borg score, oxygen saturation, and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R5-19) with the forced oscillation technique before and 5, 30, 60, and 120 minutes after applying AS.Before AS, Borg score was significantly related to R5-19 (r2 0.46, P<.05) but not to VC % predicted, SNIP % predicted, and time since symptom onset. After AS, average Borg score gradually decreased (P=.005), whereas inspiratory flow resistance at 5 Hz, R5-19, and inspiratory reactance at 5 Hz tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 minutes after AS significantly correlated with baseline R5-19 (r2 0.49, P<.01 and r2 0.29, P<.05, respectively), but not with VC % predicted, SNIP % predicted, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis.RESULTSBefore AS, Borg score was significantly related to R5-19 (r2 0.46, P<.05) but not to VC % predicted, SNIP % predicted, and time since symptom onset. After AS, average Borg score gradually decreased (P=.005), whereas inspiratory flow resistance at 5 Hz, R5-19, and inspiratory reactance at 5 Hz tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 minutes after AS significantly correlated with baseline R5-19 (r2 0.49, P<.01 and r2 0.29, P<.05, respectively), but not with VC % predicted, SNIP % predicted, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis.These findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.CONCLUSIONSThese findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.
Objective: To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs. Design: Interventional, before-after study. Setting: A neurorehabilitation inpatient and outpatient center. Participants Fifteen consecutive adult patients affected by neuromuscular diseases (N=15). Interventions: AS treatment. Main Outcome Measures Patients had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. We measured Borg score, oxygen saturation, and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R~5-19) with the forced oscillation technique before and 5, 30, 60, and 120 minutes after applying AS. Results: Before AS, Borg score was significantly related to R~5-19(r 2 0.46, P <.05) but not to VC % predicted, SNIP % predicted, and time since symptom onset. After AS, average Borg score gradually decreased (P =.005), whereas inspiratory flow resistance at 5 Hz, R~5-19, and inspiratory reactance at 5 Hz tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 minutes after AS significantly correlated with baseline R~5-19(r 2 0.49, P <.01 and r 2 0.29, P <.05, respectively), but not with VC % predicted, SNIP % predicted, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis. Conclusions: These findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.
To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle force and ensuing chest wall restriction or heterogeneous ventilation across the lungs. Interventional, before-after study. A neurorehabilitation inpatient and outpatient center. Fifteen consecutive adult patients affected by neuromuscular diseases (N=15). AS treatment. Patients had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. We measured Borg score, oxygen saturation, and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R5-19) with the forced oscillation technique before and 5, 30, 60, and 120 minutes after applying AS. Before AS, Borg score was significantly related to R5-19 (r2 0.46, P<.05) but not to VC % predicted, SNIP % predicted, and time since symptom onset. After AS, average Borg score gradually decreased (P=.005), whereas inspiratory flow resistance at 5 Hz, R5-19, and inspiratory reactance at 5 Hz tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 minutes after AS significantly correlated with baseline R5-19 (r2 0.49, P<.01 and r2 0.29, P<.05, respectively), but not with VC % predicted, SNIP % predicted, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis. These findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.
To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscles force and ensuing chest wall restriction or heterogeneous ventilation across the lungs. interventional, before-after study. a neurorehabilitation, inpatient and outpatient center. 15 consecutive adult patients affected by neuromuscular diseases. AS treatment. subjects had vital capacity (VC) and sniff nasal inspiratory pressure (SNIP) measured. Borg score, oxygen saturation and ventilation heterogeneity across the lung as estimated from the difference between respiratory resistance at 5 and 19 Hz (R ) with the forced oscillation technique were measured before and 5, 30, 60, and 120 min after applying AS. Before AS, Borg score was significantly related to R (r 0.46, p< 0.05), but not to VC % pred, SNIP % pred, and time since symptom onset. After AS, average Borg score gradually decreased (p=0.005), whereas R , R and X tended to improve, despite not reaching statistical significance. The decrease in dyspnea at 60 and 120 min after AS significantly correlated with baseline R (r 0.49, p< 0.01 and r 0.29, p< 0.05, respectively), but not with VC % pred, SNIP % pred, time since symptom onset, and clinical severity score for patients affected by amyotrophic lateral sclerosis. these findings suggest that dyspnea in neuromuscular diseases is related to heterogeneous ventilation rather than inspiratory muscle force and/or lung volumes decrease. Restoring ventilation distribution across the lungs with AS appears to improve dyspnea.
Author Pompilio, Pasquale
Corbo, Massimo
Di Marco, Fabiano
Sferrazza Papa, Giuseppe Francesco
Pellegrino, Riccardo
Dellacà, Raffaele
Pellegrino, Giulia Michela
Banfi, Paolo
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/33711277$$D View this record in MEDLINE/PubMed
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Issue 8
Keywords Neuromuscular diseases
R5
SNIP
ALS
FOT
VC
Cough
R5-19
AS
Dyspnea
SaO2
Respiratory muscles
Rehabilitation
R19
X5
dyspnea
forced oscillation technique
lung function
air stacking
Language English
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Snippet To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscle...
To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased inspiratory muscles...
Objective: To investigate whether the decrease in dyspnea in neuromuscular diseases after air stacking (AS) occurs mostly in patients with decreased...
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SubjectTerms Cough
Dyspnea
Neuromuscular diseases
Rehabilitation
Respiratory muscles
Title Effects of Air Stacking on Dyspnea and Lung Function in Neuromuscular Diseases
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https://dx.doi.org/10.1016/j.apmr.2021.01.092
https://www.ncbi.nlm.nih.gov/pubmed/33711277
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