Targeted resistive ventilatory muscle training in chronic obstructive pulmonary disease

Belman, Michael J.; Shadmehr, Reza

doi:10.1152/jappl.1988.65.6.2726

Cited by 102 publications

(113 citation statements)

References 19 publications

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“…In Group 2 only 3 patients increased their IMPO and it was due to an increment in both factors. These results are in agreement with those reported by BELMAN and SHADMEHR [10], who also showed that IMT increases Vmax.…”

Section: Discussionsupporting

confidence: 94%

“…In agreement with previous reports [9][10][11][12][13][14], our study confirms that the magnitude of the load used for inspiratory muscle training is a critical determinant of the results in patients with CAL; with an adequate load, IMT has a favourable effect on inspiratory muscle function, dyspnoea and physical capacity. Our study also shows that maximal inspiratory muscle power output is useful for evaluating the effects of training, and that patients can develop a strategy to cope with respiratory loads without reaching the critical area of inspiratory muscle fatigue [18].…”

Section: Discussionsupporting

confidence: 92%

“…In the present study, we used 30% PImax as a target load, based on the report of LARSON et al [9], who studies using a sufficient target load [9][10][11]13]. Results for endurance cannot be compared, since we used SIP, whilst most of the other studies have evaluated Tlim (endurance time).…”

Section: Discussionmentioning

confidence: 99%

“…This problem can be solved if the patient uses a system to control the pressure or flow developed during training or uses a threshold pressure device, which is independent of the flow rate [9][10][11][12][13][14]. Whilst studies in which the load is not controlled are controversial, the results of those in which a target load is achieved and maintained have demonstrated that IMT improves inspiratory muscle strength and/or endurance in patients with CAL [9][10][11][12][13][14].…”

mentioning

confidence: 99%

“…BELMAN and SHADMEHR used over 50% PImax [10]; HARVER et al employed around 30% [11]; DEKHUIJZEN et al [14] trained with a load of 70%; and PATESSIO et al [13] used 50% PImax. With threshold inspiratory trainers, on the other hand, the loads used have been between 30-43% PImax [9,12].…”

mentioning

confidence: 99%

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Inspiratory muscle training in chronic airflow limitation: comparison of two different training loads with a threshold device

Lisboa¹,

Muñoz²,

Beroiza³

et al. 1994

Eur Respir J

102

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I In ns sp pi ir ra at to or ry y m mu us sc cl le e t tr ra ai in ni in ng g i in n c ch hr ro on ni ic c a ai ir rf fl lo ow w l li im mi it ta at ti io on n: : c co om mp pa ar ri is so on n o of f t tw wo o d di if ff fe er re en nt t t tr ra ai in ni in ng g l lo oa ad ds s w wi it th h a a t th hr re es sh ho ol ld ABSTRACT: The usefulness of inspiratory muscle training (IMT) in chronic airflow limitation (CAL) patients is a controversial issue, mainly due to differences in the training load. To further evaluate this aspect, we studied the effect of the magnitude of the load using a threshold pressure trainer.Ten CAL patients (5 males, 5 females), 67±2 yrs (mean±SEM) and forced expiratory volume in one second (FEV 1 ) 36±2% pred, were trained for 30 min a day using a load of 30% of their maximal inspiratory mouth pressure (PImax) (Group 1). Another 10 CAL patients (5 males, 5 females), 73±2 yrs and FEV 1 37±2% pred), were trained using only 12% of their PImax (Group 2). Training was assessed by PImax, inspiratory muscle power output (IMPO), sustainable inspiratory pressure (SIP), maximal inspiratory flow rate (VImax), pattern of breathing during loaded breathing, Mahler's dyspnoea score, and the 6 min walking distance (6MWD).After 5 weeks of training, Group 1 exhibited significant increments in: PImax (34±11%); IMPO (92±16%); SIP (36±9%); and VImax (34±13%). Dyspnoea was also reduced, and the 6MWD increased by 48±22 m. We observed no significant changes in Group 2. During loaded breathing, Group 1 showed a significant increment in tidal volume (VT) and mean inspiratory flow (VT/TI), and a reduction in inspiratory time (TI). In Group 2, VT and VT/TI also increased significantly, but the breathing frequency increased with a reduction of expiratory time. When comparing both groups after training, significant differences in PImax, IMPO, VImax and dyspnoea were observed, with no significant changes in the other parameters.We conclude that, in patients with chronic airflow limitation, inspiratory muscle training with a high enough load improves inspiratory muscle strength and power output, reduces dyspnoea, and makes the pattern of breathing adequate during loaded breathing. These changes may allow patients to cope better with increased loads imposed by physical effort and exacerbation of symptoms.

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Section: Discussionsupporting

confidence: 94%