The effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke: a meta-analysis

doi:10.1186/s11556-024-00338-7

Review

. 2024 Feb 22;21(1):4.

doi: 10.1186/s11556-024-00338-7.

The effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke: a meta-analysis

Yun-Shan Zhang¹, Kai Zhang², Lang Huang³, Jing-Xue Wei³, Zi-Ting Bi³, Jing-Hua Xiao³, Jian Huang⁴, Chao-Song Luo⁴, Ying-Dong Li⁵, Jia-Mei Zhang⁶

Affiliations

¹ Department of Rehabilitation Medicine, The First Affiliated Hospital of Guangxi Medical University, Nanning, 530021, China. 835969435@qq.com.
² Department of Rehabilitation Medicine, Sir Run Run Shaw Hospital of Zhejiang University, Hangzhou, 310016, China.
³ Department of Rehabilitation Medicine, The First Affiliated Hospital of Guangxi Medical University, Nanning, 530021, China.
⁴ Cardiopulmonary Rehabilitation Center, Jiangbin Hospital of Guangxi Zhuang Autonomous Region, Nanning, 530000, China.
⁵ Department of Rehabilitation Medicine, The Guangxi Zhuang Autonomous Region Workers' Hospital, Nanning, 530000, China.
⁶ Department of Rehabilitation Medicine, Guangxi International Zhuang Medicine Hospital, NanningNanning, 530000, China.

PMID: 38383309
PMCID: PMC10882726
DOI: 10.1186/s11556-024-00338-7

Review

The effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke: a meta-analysis

Yun-Shan Zhang et al. Eur Rev Aging Phys Act. 2024.

. 2024 Feb 22;21(1):4.

doi: 10.1186/s11556-024-00338-7.

Authors

Yun-Shan Zhang¹, Kai Zhang², Lang Huang³, Jing-Xue Wei³, Zi-Ting Bi³, Jing-Hua Xiao³, Jian Huang⁴, Chao-Song Luo⁴, Ying-Dong Li⁵, Jia-Mei Zhang⁶

Affiliations

¹ Department of Rehabilitation Medicine, The First Affiliated Hospital of Guangxi Medical University, Nanning, 530021, China. 835969435@qq.com.
² Department of Rehabilitation Medicine, Sir Run Run Shaw Hospital of Zhejiang University, Hangzhou, 310016, China.
³ Department of Rehabilitation Medicine, The First Affiliated Hospital of Guangxi Medical University, Nanning, 530021, China.
⁴ Cardiopulmonary Rehabilitation Center, Jiangbin Hospital of Guangxi Zhuang Autonomous Region, Nanning, 530000, China.
⁵ Department of Rehabilitation Medicine, The Guangxi Zhuang Autonomous Region Workers' Hospital, Nanning, 530000, China.
⁶ Department of Rehabilitation Medicine, Guangxi International Zhuang Medicine Hospital, NanningNanning, 530000, China.

PMID: 38383309
PMCID: PMC10882726
DOI: 10.1186/s11556-024-00338-7

Abstract

Background: Respiratory muscle training is a continuous and standardized training of respiratory muscles, but the evidence of the effects on early stroke patients is not clear. This meta-analysis aimed to investigate the effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke.

Methods: PubMed, Embase, PEDro, ScienceDirect, AMED, CINAHL, and China National Knowledge Infrastructure databases were searched from inception to December 8, 2023 for articles about studies that 1) stroke patients with age ≥ 18 years old. Early stroke < 3 months at the time of diagnosis, 2) respiratory muscle training, including inspiratory and expiratory muscle training, 3) the following measurements are the outcomes: respiratory muscle strength, respiratory muscle endurance, pulmonary function testing, dyspnea fatigue score, and functional capacity, 4) randomized controlled trials. Studies that met the inclusion criteria were extracted data and appraised the methodological quality and risk of bias using the Physiotherapy Evidence Database scale and the Cochrane Risk of Bias tool by two independent reviewers. RevMan 5.4 with a random effect model was used for data synthesis and analysis. Mean differences (MD) or standard mean differences (SMD), and 95% confidence interval were calculated (95%CI).

Results: Nine studies met inclusion criteria, recruiting 526 participants (mean age 61.6 years). Respiratory muscle training produced a statistically significant effect on improving maximal inspiratory pressure (MD = 10.93, 95%CI: 8.51-13.36), maximal expiratory pressure (MD = 9.01, 95%CI: 5.34-12.69), forced vital capacity (MD = 0.82, 95%CI: 0.54-1.10), peak expiratory flow (MD = 1.28, 95%CI: 0.94-1.63), forced expiratory volume in 1 s (MD = 1.36, 95%CI: 1.13-1.59), functional capacity (SMD = 0.51, 95%CI: 0.05-0.98) in patients with early stroke. Subgroup analysis showed that inspiratory muscle training combined with expiratory muscle training was beneficial to the recovery of maximal inspiratory pressure (MD = 9.78, 95%CI: 5.96-13.60), maximal expiratory pressure (MD = 11.62, 95%CI: 3.80-19.43), forced vital capacity (MD = 0.87, 95%CI: 0.47-1.27), peak expiratory flow (MD = 1.51, 95%CI: 1.22-1.80), forced expiratory volume in 1 s (MD = 0.76, 95%CI: 0.41-1.11), functional capacity (SMD = 0.61, 95%CI: 0.08-1.13), while inspiratory muscle training could improve maximal inspiratory pressure (MD = 11.60, 95%CI: 8.15-15.05), maximal expiratory pressure (MD = 7.06, 95%CI: 3.50-10.62), forced vital capacity (MD = 0.71, 95%CI: 0.21-1.21), peak expiratory flow (MD = 0.84, 95%CI: 0.37-1.31), forced expiratory volume in 1 s (MD = 0.40, 95%CI: 0.08-0.72).

Conclusions: This study provides good-quality evidence that respiratory muscle training is effective in improving respiratory muscle strength, pulmonary function, and functional capacity for patients with early stroke. Inspiratory muscle training combined with expiratory muscle training seems to promote functional recovery in patients with early stroke more than inspiratory muscle training alone.

Trial registration: Prospero registration number: CRD42021291918.

Keywords: Early stroke; Functional capacity; Respiratory function; Respiratory muscle training.

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Conflict of interest statement

The authors have no relevant financial or non-financial interests to disclose.

Figures

**Fig. 2**
Risk of bias graph the included 9 studies

**Fig. 3**
The pooled effect size of respiratory muscle training (RMT) on Maximal Inspiratory Pressure (MIP) between RMT and control groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

**Fig. 4**
The pooled effect size of respiratory muscle training (RMT) on Maximal Expiratory Pressure (MEP) between RMT and control groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

**Fig. 5**
The pooled effect size of respiratory muscle training (RMT) on Forced Vital Capacity (FVC) between RMT and control groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

**Fig. 6**
The pooled effect size of respiratory muscle training (RMT) on Peak Expiratory Flow (PEF) between RMT and control groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

**Fig. 7**
The pooled effect size of respiratory muscle training (RMT) on Forced Expiratory Volume in 1 s (FEV1) between RMT and control groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

**Fig. 8**
The pooled effect size of respiratory muscle training (RMT) on functional capacity between RMT and groups. IMT = inspiratory muscle training; EMT = expiratory muscle training

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References

1. Kritikou P, Vemmos K, Payne KA. In-patient hospital costs of stroke: a focused literature review. Value Health. 2014;17(7):A502. - PubMed
1. Feigin VL, Nguyen G, Cercy K, et al. Global, regional, and country-specific lifetime risks of stroke, 1990 and 2016. N Engl J Med. 2018;379(25):2429–2437. - PMC - PubMed
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1. Catalá-Ripoll JV, Monsalve-Naharro J, Hernández-Fernández F. Incidence and predictive factors of diaphragmatic dysfunction in acute stroke. BMC Neurol. 2020;20(1):79. - PMC - PubMed
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[1] Kritikou P, Vemmos K, Payne KA. In-patient hospital costs of stroke: a focused literature review. Value Health. 2014;17(7):A502. - PubMed

[2] Kritikou P, Vemmos K, Payne KA. In-patient hospital costs of stroke: a focused literature review. Value Health. 2014;17(7):A502. - PubMed

[3] Feigin VL, Nguyen G, Cercy K, et al. Global, regional, and country-specific lifetime risks of stroke, 1990 and 2016. N Engl J Med. 2018;379(25):2429–2437. - PMC - PubMed

[4] Feigin VL, Nguyen G, Cercy K, et al. Global, regional, and country-specific lifetime risks of stroke, 1990 and 2016. N Engl J Med. 2018;379(25):2429–2437. - PMC - PubMed

[5] Phipps MS, Cronin CA. Management of acute ischemic stroke. BMJ. 2020;368:l6983. - PubMed

[6] Phipps MS, Cronin CA. Management of acute ischemic stroke. BMJ. 2020;368:l6983. - PubMed

[7] Catalá-Ripoll JV, Monsalve-Naharro J, Hernández-Fernández F. Incidence and predictive factors of diaphragmatic dysfunction in acute stroke. BMC Neurol. 2020;20(1):79. - PMC - PubMed

[8] Catalá-Ripoll JV, Monsalve-Naharro J, Hernández-Fernández F. Incidence and predictive factors of diaphragmatic dysfunction in acute stroke. BMC Neurol. 2020;20(1):79. - PMC - PubMed

[9] Stinear CM, Lang CE, Zeiler S, Byblow WD. Advances and challenges in stroke rehabilitation. Lancet Neurol. 2020;19(4):348–360. - PubMed

[10] Stinear CM, Lang CE, Zeiler S, Byblow WD. Advances and challenges in stroke rehabilitation. Lancet Neurol. 2020;19(4):348–360. - PubMed

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The effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke: a meta-analysis

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The effects of respiratory muscle training on respiratory function and functional capacity in patients with early stroke: a meta-analysis

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