OEP data acquisitions were performed while individuals were seate

OEP data acquisitions were performed while individuals were seated with their arms at their sides. Data were gathered on two separate occasions: first, during three minutes of normal breathing and then during the inspiratory

loaded breathing exercise with Threshold® ILB. Statistical analysis was performed by SPSS 18.0 software. The following tests and analyses were conducted: Kolmogorov–Smirnov and Levene tests to assess sample normality and analyze intergroup homogeneity; t-test for independent samples for intragroup comparison of the right and left sides of compartmental chest wall volumes and same side compartmental volumes during normal breathing and inspiratory muscle training; t-test for GW3965 dependent samples, for

intragroup comparisons of chest wall volumes of the same side during normal breathing and inspiratory muscle training; Pearson’s correlation analysis to evaluate the relationship between abdominal rib cage volume on the left side and predicted MIP, 6MWD, and EF. Data were described as mean ± standard deviation (SD). Confidence intervals and differences were regarded as significant at 95% and p < 0.05, respectively. The sample was calculated based on a pilot study for a power of 90% and α = 0.05. A 40% increase in abdominal thoracic volume (Vrc,a) on the left side was observed Nutlin-3a molecular weight for the control group compared to the group with heart failure. Clinical, demographic and medication characteristics are described in Table 1. Intergroup differences include lower EF (p < 0.01) and higher left ventricle systolic diameter (LVSD) and left ventricle diastolic diameter (LVDD) (both with p < 0.01)

for the CHF group compared with the control group. Controls were characterized by higher Arachidonate 15-lipoxygenase FVC%pred and FEV1%pred than the CHF group (p = 0.03 and p = 0.01, respectively). The control group also showed greater FVC and FEV1 in absolute values (p = 0.01 for both comparisons). In relation to MIP, control subjects exhibited higher absolute and %predicted values (p < 0.01 for both comparisons) compared to the CHF group. Subject belonging to the control group covered an higher 6MWD than CHF (p < 0.01). Table 2 shows the comparison of regional chest wall volume distribution between normal breathing and ILB on the same side of the thoracoabdominal system for each of the groups, as well as a between-group analysis. When analyzing each group separately, a significant increase was observed for all thoracoabdominal compartments, on both sides during ILB for the two groups. CHF patients showed significantly lower Vrc,a variations (both sides) compared to the control group during ILB. Table 3 displays the comparison between right and left percentages of volume variations for each compartment of the chest wall during normal breathing and IMT for each group.

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