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This systematic review examined whether IMT plus PR provides benefits beyond PR alone in adults with moderate to severe COPD. Methods PubMed, ScienceDirect, Cochrane Library, and Web of Science were searched from inception to January 2023. Randomized controlled trials (RCTs) comparing IMT+PR with PR alone in adults with moderate to severe COPD were included. Primary outcomes were inspiratory muscle strength (PImax), dyspnea, health related quality of life (HRQoL), exercise capacity [six minute walk test (6MWT)], and pulmonary function tests (PFTs). Risk of bias was assessed using the Cochrane RoB 2.0 tool. Results Nine RCTs (n=295) met the inclusion criteria. IMT+PR improved PImax in 6/9 studies, with gains of 5.2 to 22.9 cmH2O. Dyspnea improved in 6/8 studies, often exceeding the minimal clinically important difference (MCID). HRQoL improved in all studies assessing this outcome (6/6), although superiority of IMT+PR over PR or control conditions was not consistently demonstrated. Exercise capacity findings were mixed, with significant within-group 6MWT gains in 4 of 7 studies but inconsistent between-group differences. PFTs (FEV1, FVC) were generally unchanged, while limited data from single-center trials suggest reductions in dynamic hyperinflation and small increases in inspiratory capacity. Conclusion Adding IMT to PR meaningfully improves PImax and HRQoL in moderate to severe COPD, with frequent but less consistent benefits for dyspnea and 6MWT performance and minimal effect on spirometry. IMT may be most appropriate for patients with inspiratory muscle weakness (PImax <60 cmH2O or <50% predicted). Further RCTs should define optimal IMT protocols and clarify which COPD phenotypes derive the greatest benefit. 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F1000Research 2026, 15 :19 ( https://doi.org/10.12688/f1000research.175598.2 ) NOTE: If applicable, it is important to ensure the information in square brackets after the title is included in all citations of this article. Close Copy Citation Details Export Export Citation Sciwheel EndNote Ref. Manager Bibtex ProCite Sente EXPORT Select a format first Track Share ▬ ✚ Systematic Review Revised Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] Fahad Algharbi https://orcid.org/0009-0006-4196-3454 1,2 , Shibili Nuhmani 1 , Mohammed Asiri 1,3 , Alsayed Shanb https://orcid.org/0000-0002-4878-5025 1 , Mohammed Al-Subaiei 1 Fahad Algharbi https://orcid.org/0009-0006-4196-3454 1,2 , Shibili Nuhmani 1 , [...] Mohammed Asiri 1,3 , Alsayed Shanb https://orcid.org/0000-0002-4878-5025 1 , Mohammed Al-Subaiei 1 PUBLISHED 13 Mar 2026 Author details Author details 1 Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Eastern Province, Saudi Arabia 2 Royal Commission Health Services program, Royal Commission for Jubail and Yanbu, Al Jubail, Eastern Province, Saudi Arabia 3 Department of Respiratory Therapy, Maternity and Children Hospital, Kharj, Saudi Arabia Fahad Algharbi Roles: Conceptualization, Data Curation, Formal Analysis, Investigation, Methodology, Validation, Visualization, Writing – Original Draft Preparation Shibili Nuhmani Roles: Conceptualization, Methodology, Supervision, Validation, Writing – Review & Editing Mohammed Asiri Roles: Data Curation, Investigation, Methodology, Validation, Writing – Review & Editing Alsayed Shanb Roles: Project Administration, Supervision, Writing – Review & Editing Mohammed Al-Subaiei Roles: Project Administration, Supervision, Writing – Review & Editing OPEN PEER REVIEW DETAILS REVIEWER STATUS Abstract Background Pulmonary rehabilitation (PR) is an established intervention for COPD, but the added value of inspiratory muscle training (IMT) within PR remains uncertain. This systematic review examined whether IMT plus PR provides benefits beyond PR alone in adults with moderate to severe COPD. Methods PubMed, ScienceDirect, Cochrane Library, and Web of Science were searched from inception to January 2023. Randomized controlled trials (RCTs) comparing IMT+PR with PR alone in adults with moderate to severe COPD were included. Primary outcomes were inspiratory muscle strength (PImax), dyspnea, health related quality of life (HRQoL), exercise capacity [six minute walk test (6MWT)], and pulmonary function tests (PFTs). Risk of bias was assessed using the Cochrane RoB 2.0 tool. Results Nine RCTs (n=295) met the inclusion criteria. IMT+PR improved PImax in 6/9 studies, with gains of 5.2 to 22.9 cmH 2 O. Dyspnea improved in 6/8 studies, often exceeding the minimal clinically important difference (MCID). HRQoL improved in all studies assessing this outcome (6/6), although superiority of IMT+PR over PR or control conditions was not consistently demonstrated. Exercise capacity findings were mixed, with significant within-group 6MWT gains in 4 of 7 studies but inconsistent between-group differences. PFTs (FEV 1 , FVC) were generally unchanged, while limited data from single-center trials suggest reductions in dynamic hyperinflation and small increases in inspiratory capacity. Conclusion Adding IMT to PR meaningfully improves PImax and HRQoL in moderate to severe COPD, with frequent but less consistent benefits for dyspnea and 6MWT performance and minimal effect on spirometry. IMT may be most appropriate for patients with inspiratory muscle weakness (PImax <60 cmH 2 O or <50% predicted). Further RCTs should define optimal IMT protocols and clarify which COPD phenotypes derive the greatest benefit. READ ALL READ LESS Keywords Chronic Obstructive Pulmonary Disease, Pulmonary Rehabilitation, Respiratory training Corresponding Author(s) Fahad Algharbi ( [email protected] ) Close Corresponding author: Fahad Algharbi Competing interests: No competing interests were disclosed. Grant information: The author(s) declared that no grants were involved in supporting this work. Copyright: © 2026 Algharbi F et al . This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. How to cite: Algharbi F, Nuhmani S, Asiri M et al. Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.12688/f1000research.175598.2 ) First published: 07 Jan 2026, 15 :19 ( https://doi.org/10.12688/f1000research.175598.1 ) Latest published: 05 May 2026, 15 :19 ( https://doi.org/10.12688/f1000research.175598.3 ) Revised Amendments from Version 1 The PROSPERO registration (ID: CRD420251251860) was added to the Methods section in this version. The PROSPERO registration (ID: CRD420251251860) was added to the Methods section in this version. See the authors' detailed response to the review by Noppawan Charususin See the authors' detailed response to the review by Patsaki Irini READ REVIEWER RESPONSES There is a newer version of this article available. Suppress this message for one day. Introduction Chronic obstructive pulmonary disease (COPD) is a slowly progressive disorder characterized by persistent, largely irreversible airflow limitation resulting from a combination of small airway disease and parenchymal destruction (emphysema). COPD is a leading cause of morbidity and mortality worldwide, by 2030, it is projected to rank as the fifth leading cause of global disease burden (up from 12th in 1990) and the third leading cause of death (up from sixth in 1990), with an estimated three million deaths annually ( Mathers & Loncar, 2006 ). People with COPD typically present with chronic cough, sputum production, breathlessness, and wheezing, along with reduced exercise capacity and physical activity levels ( GBD, 2017 ). Dyspnea and fatigue are particularly prominent, and deconditioning frequently leads to further reductions in physical activity and exercise tolerance, thereby exacerbating functional limitations and disability. Multiple pathophysiological factors contribute to these impairments, including dynamic hyperinflation, gas exchange abnormalities, cardiovascular comorbidities, and respiratory muscle dysfunction. Pulmonary rehabilitation (PR) is an evidence-based, multidisciplinary intervention that includes structured exercise training, education, psychosocial support, and nutritional counseling, and is recommended as a cornerstone of COPD management. PR has been shown to improve dyspnea, exercise capacity, physical fitness, and health-related quality of life, and to reduce hospital admissions and mortality, particularly in patients with frequent exacerbations ( Puhan et al., 2011 ). Inspiratory muscle training (IMT) has attracted particular interest as a potential adjunct to PR. The American Thoracic Society and European Respiratory Society recommend that IMT may be considered within PR programs for selected patients with COPD ( Spruit et al., 2013 ). IMT can be delivered using three main modalities (flow-resistive loading, volume-based devices, and pressure-threshold loading) with the primary aim of increasing inspiratory muscle strength and endurance, thereby improving overall functional capacity ( Geddes et al., 2005 ). The rationale for IMT in COPD is based on two main points: maximal inspiratory pressure (PImax) is frequently decreased, indicating weakened inspiratory muscles, and exercise capacity may be partly restricted due to fatigue of the respiratory muscles ( Charususin et al., 2013 ). Core outcome measures of PR include respiratory muscle strength, six-minute walk distance (6MWD), pulmonary function indices, and dyspnea scales. IMT has been proposed as an adjunct to PR to further enhance these outcomes, yet its role remains controversial. Since its introduction in the 1980s, IMT has generated considerable debate owing to inconsistent findings regarding its clinical benefits in COPD. While the efficacy of IMT has been more clearly demonstrated in other populations including healthy individuals ( Illi et al., 2012 ), patients with neuromuscular disease ( Human and Morrow, 2021 ), chronic heart failure ( Wu et al., 2018 ), and asthma ( Lista-Paz et al., 2022 ) the largest body of evidence is associated with COPD. Within this population, IMT has been investigated both as a stand-alone intervention and in combination with other exercise modalities and/or comprehensive PR. Numerous trials and meta-analyses have shown that IMT as a stand-alone therapy can improve inspiratory muscle strength, inspiratory endurance, functional exercise capacity, quality of life, and dyspnea. A systematic review and meta-analysis of 32 randomized controlled trials evaluating IMT alone in COPD demonstrated significant benefits over control for PImax (+13 cmH 2 O), inspiratory endurance time (+261 s), 6MWD (+32 m), quality of life (+3.8 points on the Chronic Respiratory Questionnaire), and dyspnea (−2.8 points on the Transitional Dyspnea Index) ( Gosselink et al., 2011 ). However, when IMT is integrated into a structured PR program, its additional contribution becomes less clear. Beaumont et al. (2018) synthesized 43 studies (642 patients) and reported that, although IMT improved inspiratory muscle strength, it did not confer additional benefits in dyspnea, quality of life, or exercise capacity when combined with PR. Similarly, the 2023 Cochrane review by Ammous et al. concluded that adding IMT to PR increased PImax by approximately 11.46 cmH 2 O but did not significantly enhance dyspnea or functional exercise performance compared with PR alone. In contrast, individual high-quality randomized controlled trials have reported clinically important additive effects of IMT when combined with PR in carefully selected patients. Charususin et al. (2018) , in a large multicenter trial (n = 219) of COPD patients with inspiratory muscle weakness (defined as PImax <60 cmH 2 O or <50% predicted), found that adding IMT to PR produced significantly greater improvements in endurance cycling time (+225 s vs. +163 s), endurance breathing time (+353 s vs. +162 s), and PImax (+22 cmH 2 O vs. +9 cmH 2 O) than PR alone. These findings suggest that patient phenotyping, particularly the presence of inspiratory muscle weakness, may be critical in determining the additive value of IMT within PR. Overall, the available literature presents a heterogeneous and sometimes conflicting picture: meta-analytic evidence indicates that IMT is clearly efficacious as a stand-alone intervention, whereas its incremental benefit when layered onto PR appears conditional and context dependet. The benefits of including IMT in a standard PR training program are still unclear and debatable. This systematic review addresses two core questions: (1) In adults with moderate-to-severe COPD, does adding IMT to PR improve PImax, dyspnea, HRQoL, 6MWT performance, and pulmonary function compared with PR alone? (2) Are the effects of IMT as an adjunct to PR consistent across these outcome domains, or do patient phenotypes and protocol parameters explain heterogeneity? Methods This systematic review followed recommendations proposed by the Cochrane Collaboration ( Higgins and Green, 2011 ) and the PRISMA Statement ( Moher et al., 2010 ). The review was registered in PROSPERO (ID: CRD420251251860), and all methods adhered strictly to Cochrane Collaboration standards and PRISMA 2020 guidelines to ensure methodological rigor and reproducibility. The research question used the PICOS strategy (P: subjects diagnosed with chronic obstructive pulmonary diseases; I: inspiratory muscle training; C: pulmonary rehabilitation program; O: inspiratory muscle strength, dyspnea, quality of life, exercise capacity, and PFT; S: RCT, CT, and cohort studies). The review addressed two core questions. First, in adults with COPD, does adding IMT to PR improve PImax, dyspnea scores, HRQoL, 6MWT or ISWT performance, and PFT outcomes compared with PR alone. Second, across eligible RCTs and CTs, are the effects of IMT as an adjunct to PR consistent across these outcome domains. Eligibility criteria Randomized controlled trials (RCT), non-randomized controlled trials (CT), and cohort studies that investigate the effect of IMT with pulmonary rehabilitation in comparison with pulmonary rehabilitation alone were included in this systematic review. Subjects’ criteria include COPD patients diagnosed by spirometry and the stage moderate or above as per GOLD criteria in most participants ( GOLD, 2020 ). The following outcomes were considered: inspiratory muscle strength, dyspnea, quality of life, exercise capacity, and PFT. Studies with insufficient or incomplete data were excluded. Search strategy Two independent reviewers (FG, MA) searched the following electronic databases: PubMed, ScienceDirect, Cochrane Library, and Web of Science, from their inception to January 2023. The title and abstracts were reviewed by the two reviewers. Further searches were done for the cited references in the article reference list. Any disagreement was resolved by consensus and discussed with the third investigator (SN). Search terms combined subject headings (MeSH/Emtree) and keywords: (“inspiratory muscle training” OR “respiratory muscle training” OR “IMT”) AND (“chronic obstructive pulmonary disease” OR “COPD” OR “chronic obstructive airway disease”) AND (“pulmonary rehabilitation” OR “respiratory rehabilitation” OR “exercise training”). The full electronic search strategies for all databases are provided in the extended data ( Search strategy ). No restriction was placed on the publication year. Only full-text RCT, CT, and cohort studies in the English language conducted on human subjects and published in peer-reviewed journals were included in this systematic review. Review papers, grey literature, conference proceedings, case studies, and studies using animal subjects or non-COPD participants were excluded. Interventions IMT protocol description : Inspiratory muscle training was delivered using pressure-threshold or flow-resistive devices as an adjunct to the pulmonary rehabilitation program. Protocols typically involved once- or twice-daily sessions of 15–30 minutes, at least five days per week for 6–12 weeks, with intensities around 30–50 percent of baseline maximal inspiratory pressure, progressed according to regular reassessment and patient tolerance. Training was usually initiated under supervision in the rehabilitation center and then continued at home, supported by periodic follow-up to reinforce technique and adjust the training load. The PR description: Pulmonary rehabilitation in the included trials was delivered as a supervised outpatient program combining aerobic endurance training, upper- and lower-limb resistance exercises, breathing training, and education in self-management. Sessions were typically held two to three times per week for 6–12 weeks, lasted about 60–90 minutes, and included warm-up, lower-limb endurance training on a treadmill or cycle ergometer, upper-limb strengthening, and cool-down. Educational components usually addressed inhaler technique, airway clearance strategies, energy conservation, smoking cessation, and psychosocial support. Data collection process Data collection were performed by the primary investigator following the standards format. Data included: (1) general characteristics: author’s first name, year of publication, study type; (2) sample: case numbers, intervention/control group, male/female, mean age; (3) program duration: session/week, duration; (4) intervention; (5) PR method; (6) outcome measures: primary (inspiratory muscle strength, “maximal inspiratory pressure PImax”) and secondary (dyspnea “Borg scale,” quality of life, exercise capacity “6MWT, ISWT” and PFT “FEV1/FVC, FEV1, FVC”); (7) Results; (8) Conclusion. Risk of bias assessment The Cochrane collaboration tool to assess the risk of bias for randomization control studies (Rob 2.0) was used for risk bias assessment. Two independent reviewers performed the assessment. The tool has five domains measuring: (1) bias arising from the randomization process, (2) bias due to deviation from intended interventions, (3) bias due to missing outcome data, (4) bias in the measurement of the outcome, and (5) bias in the selection of the reported results. Answers leadS to judgments of “low risk of bias” “some concerns,” or “high risk of bias.” Results Selection of studies The initial search identified 1034 abstracts, 72 considered potentially relevant. Only nine RCT’s studies ( Abedi et al., 2019 ; Bavarsad et al., 2015 ; Beaumont et al., 2015 ; Chuang et al., 2017 ; Leelarungrayub et al., 2017 ; Petrovic et al., 2012 ; Tounsi et al., 2021 ; Tout et al., 2013 ; Wang et al., 2017 ) met the eligibility criteria and were included in this systematic review. Non-randomized studies were also eligible, but none met the final inclusion criteria. The studies selected and the flow chart are shown in Figure 1 . Figure 1. PRISMA flow diagram. Study characteristics The characteristics of the included studies are available as Table 1 in the extended data. All of the research that was selected was published between 2012 and 2021. These nine studies included a total of 295 individuals. The pressure threshold loading IMT device was the most prevalent type (n = 5). The investigations also used volume-based devices (n = 1) and flow resistive loading devices (n = 2), and in one study, the type of device was not reported (n = 1). The majority of the studies met the PR program’s recommended minimum duration of eight weeks (n = 7). In most studies, either the participants’ genders were not given (n = 3), or the number of male participants was substantially greater (n = 3). In two studies, the participants’ mean ages were in the 50s; for the other studies, the mean age was above 60. Methodological quality The Rob 2.0 scale was used to evaluate the risk of bias in the chosen studies. All of the studies included were described as randomized, and the baseline between the two randomization arms appears to be balanced. Three studies ( Abedi et al., 2019 ; Leelarungrayub et al., 2017 ; Wang et al., 2017 ) were rated as high risk of bias due to lack of blinded outcome assessment for patient-reported outcomes (dyspnea, quality of life), which may have inflated treatment effects ( Figure 2 ). Overall, 4 studies had low risk, 2 had some concerns, and 3 had high risk across all RoB 2.0 domains. Figure 2. Risk of bias. IMT effects on the outcome measures A detailed summary of outcome effects across included studies is provided in Table 2 in the extended data. Inspiratory muscle strength (PImax) Inspiratory muscle strength was reported in seven studies: Beaumont et al. (2015) , Chuang et al. (2017) , Leelarungrayub et al. (2017) , Petrovic et al. (2012) , Tout et al. (2013) , Wang et al. (2017) , and Tounsi et al. (2021) . Six studies (85.7%) demonstrated statistically significant PImax improvements following IMT. Petrovic et al. (2012) reported an increase of 14.0 cmH 2 O (77.5 ± 4.7 to 91.5 ± 5.2 cmH 2 O; p < 0.001), while Tounsi et al. (2021) documented an increase of 22.9 ± 5.8 cmH 2 O (61.9 ± 21.8 to 84.8 ± 20.9 cmH 2 O; p < 0.001). Chuang et al. (2017) observed an improvement of 17.6 ± 0.18 cmH 2 O (p < 0.001) compared to a small change of 2.21 ± 0.4 cmH 2 O in controls after 8 weeks of threshold IMT. Wang et al. (2017) reported a modest but significant increase of 5.20 ± 0.89 cmH 2 O (p < 0.001) in participants receiving combined cycle ergometer training and IMT. Leelarungrayub et al. (2017) demonstrated significant PImax increases in both the standard threshold group (54.0 ± 5.16 to 84.0 ± 7.07 cmH 2 O; p = 0.007) and prototype device group (53.50 ± 5.20 to 83.6 ± 4.40 cmH 2 O; p < 0.001), with no change in the control group. The IMT group in Tout et al. (2013) also reported significant PImax increases (p = 0.008). Two studies reported no significant PImax changes. Bavarsad et al. (2015) showed no improvement despite gains in exercise capacity and dyspnea, suggesting that mechanisms beyond inspiratory muscle strengthening contribute to clinical outcomes. Beaumont et al. (2015) enrolled patients with preserved baseline PImax (80 ± 7 cmH 2 O, 95% predicted), indicating a ceiling effect, patients with baseline inspiratory muscle weakness derive greater benefit from IMT than those with preserved function. The magnitude of PImax improvements ranged from 5.2 to 22.9 cmH 2 O, with most exceeding established MCID thresholds. Heterogeneity in responses appears influenced by baseline strength, device characteristics, intervention duration, and training intensity. Studies employing higher-intensity protocols ( Tounsi et al., 2021 : 50% to 80% PImax; Petrovic et al., 2012 : ≥80%) achieved larger absolute gains. Expiratory muscle strength (PEmax) Expiratory muscle strength was assessed in only three studies. Leelarungrayub et al. (2017) reported that PEmax improved significantly in both the standard and prototype device groups, while the control group showed no significant change. Wang et al. (2017) presented ΔPEmax values of −5.29 ± 1.97 cmH 2 O in the control group, 5.42 ± 1.92 cmH 2 O in the CET group, and 2.37 ± 1.88 cmH 2 O in the combined CET+IMT group (p = 0.001), indicating both intervention groups were superior to control. However, Tout et al. (2013) found no significant change in PEmax in any group. These findings suggest that standard IMT protocols predominantly target inspiratory musculature and do not substantially enhance expiratory muscle function. Dyspnea Dyspnea was assessed in seven studies using validated instruments including the mMRC scale, Borg category-ratio scale, BDI/TDI, and MDP questionnaires. six studies reported within-group dyspnea improvement in at least one active group; however, between-group superiority for IMT was not consistently demonstrated. Bavarsad et al. (2015) showed Borg scale improvement from 3.76 ± 2.49 to 1.13 ± 1.39 (p < 0.0001), a reduction of approximately 2.63 points, exceeding the established MCID of 1.0 point. Petrovic et al. (2012) reported Borg CR10 reduction from 5.0 ± 1.0 to 4.0 ± 1.1 (p < 0.01), and during constant-load testing from 7.0 ± 0.7 to 5.0 ± 0.9 (p < 0.001). Chuang et al. (2017) demonstrated BDI/TDI improvement from 4.48 ± 2.12 to 9.0 ± 2.27 (p < 0.001), indicating substantial clinical change. Tout et al. (2013) showed that all four groups (IMT, PEP, IMT+PEP, and control) improved significantly on the Sadoul scale, with no between-group differentiation. Wang et al. (2017) reported greater improvements in mMRC and CAT scores in both intervention groups compared to control. Leelarungrayub et al. (2017) revealed a nuanced pattern: while peak dyspnea during maximal exercise increased slightly, resting dyspnea and dyspnea at standardized workloads decreased significantly (p < 0.006). This suggests improved ventilatory efficiency, where patients may perceive greater respiratory sensation at maximum effort but experience reduced dyspnea during submaximal activities. Beaumont et al. (2015) reported modest improvement, possibly due to the short intervention duration (3 weeks) and preserved baseline inspiratory function. The mechanisms underlying dyspnea reduction appear multifactorial, including improvements in inspiratory muscle strength and endurance, reductions in dynamic hyperinflation, and enhanced self-efficacy. The consistency across diverse populations, protocols, and instruments suggests dyspnea reduction represents a robust IMT outcome. Exercise capacity (6-minute walk test) Seven studies evaluated exercise capacity using 6MWT. Four studies demonstrated statistically significant within-group improvements. Bavarsad et al. (2015) increased 6MWT distance by 45.46 meters (445.6 ± 89.05 to 491.06 ± 93.8 meters; p < 0.0001), exceeding the established MCID of 25-30 meters. Chuang et al. (2017) reported improvement of 47.8 ± 1.46 meters (p < 0.001). Between-group comparisons revealed heterogeneous patterns. Beaumont et al. (2015) found no significant between-group differences in 6MWT improvements, with both IMT and control groups showing modest gains (p = 0.7). Wang et al. (2017) reported significant between-group differences Δ6MWD was -1.64 ± 4.64 m in controls, 32.55 ± 4.59 m in the CET group, and 21.68 ± 4.51 m in the combined group; between-group comparison was significant (p < 0.001). Tounsi et al. (2021) provided evidence for time-dependent effects: at 4-week assessment, no significant between-group differences emerged (p = 0.92), but by 8 weeks, the IMT+endurance training group demonstrated substantially greater improvement (42.6 ± 9.8 versus 29.8 ± 7.4 meters), suggesting IMT benefits for exercise capacity may require adequate duration to manifest. Overall, four studies demonstrated within-group improvements meeting the MCID threshold (≥25 meters). However, the inconsistent between-group superiority of PR+IMT over PR alone suggests that while IMT produces meaningful absolute improvements, these often occur similarly in standard PR, indicating that additional IMT benefit may be modest or time-dependent. Quality of life Health-related quality of life (HRQoL) was assessed in five studies using SGRQ, SF-36, CCQ, ABC, and BBS instruments. All five studies (100%) reported statistically significant HRQoL improvements following IMT. Abedi et al. (2019) showed SGRQ total score improvement after 8 weeks in all groups, with the greatest change in the combined IMT+aerobic group (Δ5.5 ± 3.54; p < 0.001). Chuang et al. (2017) reported substantial improvement in SF-36 physical component score (24.58 ± 20.54; p < 0.001) and mental component score (26.14 ± 22.24; p < 0.001), both exceeding established MCID thresholds (5–10 points). Leelarungrayub et al. (2017) demonstrated significant improvements across all CCQ domains in both device groups (p < 0.05). Tout et al. (2013) found significant SGRQ improvements in all groups (IMT, PEP, IMT+PEP, and control), with no clear superiority of any active modality. Wang et al. (2017) reported greater SGRQ improvements in CET (−3.51 ± 0.54) and combined groups (−3.32 ± 0.54) compared to control (0.95 ± 0.56), with significant between-group differences (p < 0.001). The universal HRQoL improvement across all studies contrasts with the more variable exercise capacity findings, suggesting that patient-perceived benefits may surpass objective functional gains measured by performance-based tests. Pulmonary function tests (FEV 1 and FVC) Spirometric parameters were assessed in four studies. Bavarsad et al. (2015) and Wang et al. (2017) reported no changes in any pulmonary function measures (FEV 1 , FVC, FEV 1 /FVC, FEF25–75) in either group. Similarly, Tout et al. (2013) observed statistically significant improvements only in the IMT-only group, where FEV 1 increased from 0.93 ± 0.39 to 1.44 ± 0.57 L (p = 0.03) and PEFR from 0.57 ± 0.14 to 0.76 ± 0.16 L (p = 0.01); all other groups and PFT measures were non-significant. Leelarungrayub et al. (2017) reported increases in FVC and FEV 1 /FVC ratio in both standard and prototype device groups, suggesting potential improvements in ventilatory mechanics without absolute FEV 1 changes, possibly reflecting reduced dynamic hyperinflation. The consistent absence of substantial spirometric improvement has important mechanistic implications. Structural airway resistance from fibrosis and alveolar destruction cannot be reversed by IMT, which targets respiratory muscle performance rather than fixed airway obstruction. This dissociation confirms that IMT primarily operates at the neuromuscular level, serving as a symptomatic rather than disease-modifying intervention. Dynamic hyperinflation and exercise endurance Petrovic et al. (2012) provided mechanistic insight by evaluating dynamic hyperinflation parameters. During the constant-load test at 75% peak work rate, exercise time increased from 597.1 ± 80.8 to 733.6 ± 74.3 seconds (22.9% increase; p < 0.001). Inspiratory muscle endurance (tlim) increased from 348 ± 54 to 467 ± 58 seconds (34% increase; p < 0.001). Inspiratory fraction (IF) increased significantly in both incremental (0.41 ± 0.05 to 0.45 ± 0.05; p < 0.001) and constant-load tests (0.43 ± 0.03 to 0.44 ± 0.03; p < 0.001), indicating meaningful reduction in dynamic hyperinflation. Wang et al. (2017) reported improvement in inspiratory capacity (IC) in both intervention groups relative to control: 0.06 ± 0.02 L in the CET group, and 0.10 ± 0.02 L in the combined group (p < 0.001). These findings demonstrate that IMT benefits extend beyond static assessments to functional exercise performance and mechanistic parameters of respiratory limitation. Summary of outcome patterns A clear pattern emerges across nine studies and multiple outcome domains. PImax improved significantly in 85.7% of studies, with non-responders generally demonstrating ceiling effects from preserved baseline function. Dyspnea reduction represented one of the most responsive patient-centered outcomes, with all studies showing within-group improvement, although between-group superiority was inconsistent. Exercise capacity improvements were less consistently significant in between-group comparisons, though 71.4% of studies reported within-group improvements that met MCID thresholds. HRQoL demonstrated uniform improvement (100%), suggesting robust patient-perceived benefits despite variable objective measures. Spirometric indices remained largely unchanged, with only isolated improvement in selected parameters, confirming that IMT does not modify underlying fixed airflow obstruction. Heterogeneity appears attributable to: (1) baseline inspiratory muscle strength, with weaker patients showing greater improvement potential; (2) device characteristics; (3) patient selection criteria, particularly confirmed inspiratory muscle weakness versus unselected cohorts; (4) intervention duration and training intensity; (5) integration with standard pulmonary rehabilitation; and (6) methodological rigor. Understanding these sources of heterogeneity is essential for clinicians designing future IMT protocols and for interpreting findings within individual patient contexts. Discussion The principal finding of this systematic review is that adding IMT to pulmonary rehabilitation for moderate-to-severe COPD consistently improves inspiratory muscle strength and health-related quality of life, while effects on dyspnea and exercise capacity are clinically meaningful but more variable in between-group comparisons. These findings establish IMT as a patient-centered adjunct that primarily addresses symptomatic burden and quality of life, even in the absence of consistent improvements in walk distance or spirometry beyond standard rehabilitation. Our systematic review aligns with the conclusions of the contemporaneous Cochrane review ( Ammous et al., 2023 ). Using different search strategies, both reviews converge on the same pattern: adding IMT to PR significantly improves PImax (ranging from 5.2 to ~30 cmH 2 O in our review) but does not consistently improve dyspnea or exercise capacity significantly beyond PR alone. This agreement strengthens the evidence that while routine addition of IMT to all PR programs may not be necessary, it provides distinct benefits for specific outcomes. Our review extends these findings by demonstrating that 100% of the six included studies measuring quality of life reported statistically significant improvements, indicating a strong patient-centered signal that appears more consistent than functional exercise outcomes. Prior systematic reviews, such as Beaumont et al. (2018) , which found no added effect of IMT on dyspnea during PR, noted conflicting evidence for combined interventions. In this review, the inclusion of recent RCTs with diverse protocols reveals a detailed picture: IMT confers the greatest benefit when targeted to patients with specific deficits or when using sufficiently intensive protocols ( Tounsi et al., 2021 , using 50–80% intensity). Importantly, while exercise capacity improved within groups in the majority of studies (57.1%), the inconsistent superiority of PR+IMT over PR alone suggests that the additional functional gain from IMT may be limited when a comprehensive rehabilitation program is already in place. The physiological rationale for these improvements centers on neuromuscular adaptations. IMT enhances inspiratory muscle strength (PImax) and endurance, as evidenced by significant gains in all seven studies reporting this outcome. Mechanistically, studies documenting improvements in inspiratory capacity ( Wang et al., 2017 ) and reductions in dynamic hyperinflation ( Petrovic et al., 2012 ) support the role of IMT in enhancing operational lung volumes, potentially reducing the sense of breathlessness for a given workload. These adaptations likely underlie the uniform benefits seen for quality of life, even in the absence of changes in spirometric indices (FEV 1 or FVC), which remained unchanged in nearly all studies. This dissociation confirms that IMT operates as a symptomatic intervention targeting respiratory muscle performance rather than modifying fixed airway obstruction. Heterogeneity in clinical outcomes appears attributable to several factors identified in our analysis. Intervention characteristics varied widely, with protocols ranging from 3 to 8 weeks and utilizing different device types (pressure-threshold vs. flow-volumetric). Patient selection was a key source of variability; for instance, Beaumont et al. (2015) enrolled patients with preserved baseline inspiratory strength and found no significant benefit, whereas studies including weaker patients (e.g., Chuang et al., 2017 ) demonstrated larger effects. Methodological differences, including the choice of dyspnea instrument (Borg vs. mMRC vs. BDI/TDI) and the intensity of the control intervention, further contributed to outcome variability. The overall strength of this evidence is moderate. While inspiratory muscle strength and quality of life showed consistent positive signals, precision was limited by generally small sample sizes and short intervention durations (typically 8 weeks or less). Risk of bias was significant in approximately one-third of studies, primarily due to lack of assessor blinding for patient-reported outcomes. However, the coherence of findings across diverse settings, especially the universal improvement in quality of life, supports the reliability of the main conclusions. Clinically, these findings argue for the selective inclusion of IMT in pulmonary rehabilitation. It is most strongly indicated for patients with confirmed inspiratory muscle weakness, or those who remain highly symptomatic with poor quality of life despite standard therapy. Programmatic implications include the need for baseline PImax assessment to identify responders and the use of progressive, high-intensity protocols to maximize strength gains. From a clinical implementation perspective, the data support IMT as a high-value adjunct for targeted populations rather than a mandatory component for all COPD patients. Limitations This systematic review has several limitations. First, the small sample sizes of individual studies limited statistical power to consistently detect between-group differences. Second, substantial methodological heterogeneity prevented formal meta-analysis: protocols varied across device type, training intensity, and duration. Third, the lack of long-term follow-up restricts conclusions about the durability of IMT benefits. Fourth, measurement inconsistency, with diverse tools used for dyspnea and quality of life, complicated cross-study comparison. Finally, the exclusion of non-English studies and potential publication bias inherent in small trials may influence the generalizability of findings. Despite these limitations, the consistent signal for patient-centered benefit supports the clinical utility of IMT in appropriate contexts. Conclusions This systematic review provides moderate-quality evidence that inspiratory muscle training, when incorporated into pulmonary rehabilitation programs, yields consistent improvements in patient-centered outcomes for individuals with moderate-to-severe COPD. Inspiratory muscle strength and dyspnea demonstrate significant improvements in six of seven (85.7%) and all seven (100%) reporting studies respectively, while health-related quality of life shows universal enhancement across all assessing studies. Exercise capacity benefits, though more variable in between-group comparisons, frequently meet clinically meaningful thresholds within intervention groups. Spirometric indices remain largely unaffected, confirming IMT’s targeted mechanism on respiratory muscle function rather than fixed airflow obstruction. The evidence indicates that IMT provides greatest benefit when targeted to patients with confirmed inspiratory muscle weakness, escalated to progressive intensity (starting 30–50% PImax, advancing to 60–80%), and sustained for adequate duration (≥8 weeks). While methodological heterogeneity limits definitive protocol optimization, the cumulative evidence supports selective IMT integration into pulmonary rehabilitation for appropriately phenotyped patients. Future research priorities include adequately powered, multicenter trials with standardized protocols, extended follow-up to assess durability, comparative evaluations of different device types and intensity regimens, mechanistic studies linking dynamic hyperinflation reduction to symptom benefits, and cost-effectiveness analyses to inform implementation strategies. Clinicians should consider baseline inspiratory muscle assessment, individualized IMT prescription, and monitoring of adherence when incorporating IMT into comprehensive COPD rehabilitation programs. Ethics and consent Ethical approval and consent were not required. Data availability All data underlying the results are included in this article; no new datasets were generated. Extended data (Extended data: Search strategy and study selection, and the PRISMA 2020 checklist) are available on Figshare: https://doi.org/10.6084/m9.figshare.30957968 ( Algharbi et al., 2025 ). Data are available under the terms of the Creative Commons Attribution 4.0 International license .data waiver ( CC BY 4.0 Public domain dedication). Reporting guidelines The PRISMA 2020 checklist for this systematic review is included in the Extended data on Figshare (see Data availability statement) https://doi.org/10.6084/m9.figshare.30957968 ( Algharbi et al., 2025 ). 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PubMed Abstract | Publisher Full Text Comments on this article Comments (0) Version 3 VERSION 3 PUBLISHED 07 Jan 2026 ADD YOUR COMMENT Comment Author details Author details 1 Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Eastern Province, Saudi Arabia 2 Royal Commission Health Services program, Royal Commission for Jubail and Yanbu, Al Jubail, Eastern Province, Saudi Arabia 3 Department of Respiratory Therapy, Maternity and Children Hospital, Kharj, Saudi Arabia Fahad Algharbi Roles: Conceptualization, Data Curation, Formal Analysis, Investigation, Methodology, Validation, Visualization, Writing – Original Draft Preparation Shibili Nuhmani Roles: Conceptualization, Methodology, Supervision, Validation, Writing – Review & Editing Mohammed Asiri Roles: Data Curation, Investigation, Methodology, Validation, Writing – Review & Editing Alsayed Shanb Roles: Project Administration, Supervision, Writing – Review & Editing Mohammed Al-Subaiei Roles: Project Administration, Supervision, Writing – Review & Editing Competing interests No competing interests were disclosed. Grant information The author(s) declared that no grants were involved in supporting this work. Article Versions (3) version 3 Revised Published: 05 May 2026, 15:19 https://doi.org/10.12688/f1000research.175598.3 version 2 Revised Published: 13 Mar 2026, 15:19 https://doi.org/10.12688/f1000research.175598.2 version 1 Published: 07 Jan 2026, 15:19 https://doi.org/10.12688/f1000research.175598.1 Copyright © 2026 Algharbi F et al . This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Download Export To Sciwheel Bibtex EndNote ProCite Ref. Manager (RIS) Sente metrics Views Downloads F1000Research - - PubMed Central info_outline Data from PMC are received and updated monthly. - - Citations open_in_new 0 open_in_new 0 open_in_new SEE MORE DETAILS CITE how to cite this article Algharbi F, Nuhmani S, Asiri M et al. Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.12688/f1000research.175598.2 ) NOTE: If applicable, it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS track receive updates on this article Track an article to receive email alerts on any updates to this article. TRACK THIS ARTICLE Share Open Peer Review Current Reviewer Status: ? Key to Reviewer Statuses VIEW HIDE Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Version 2 VERSION 2 PUBLISHED 13 Mar 2026 Revised Views 0 Cite How to cite this report: Irini P. Reviewer Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.197361.r470806 ) The direct URL for this report is: https://f1000research.com/articles/15-19/v2#referee-response-470806 NOTE: it is important to ensure the information in square brackets after the title is included in this citation. Close Copy Citation Details Reviewer Report 21 Apr 2026 Patsaki Irini , University of West Attica, Egaleo, Greece Approved with Reservations VIEWS 0 https://doi.org/10.5256/f1000research.197361.r470806 Algharbi and co- authors have investigated the effectiveness of inspiratory muscle training along with pulmonary rehabilitation in COPD population. As IMT is a well established intervention that could alleviate symptoms in this population and positively effect exercise capacity and quality ... Continue reading READ ALL Algharbi and co- authors have investigated the effectiveness of inspiratory muscle training along with pulmonary rehabilitation in COPD population. As IMT is a well established intervention that could alleviate symptoms in this population and positively effect exercise capacity and quality of life, the authors have tried to underline that should be included in pulmonary rehabilitation as this exceeds the benefits of a stand alone rehabilitation program. COPD patients could manifest significant inspiratory muscle weakness that restricts their functionality, as it limits their exercise capacity. Thus IMT is proposed as the most suitable intervention, and this supports the hypothesis of the authors. The manuscript is well written, and its methodology is well presented. The authors have described in detail their findings in all outcomes investigated. Major concerns. 1. its main limitation is that included studies up to January 2023. And this is my major concern as since then, we have more published studies on this topic and the use of new devices and techniques regarding IMT. 2. The authors need to present the reasons for all excluded studies in figure 1 for reasons of transparency. 3. There is a need for the authors to include a table following the PICOs framework, presenting all information of the included studies with the outcomes included in each study, along with the main findings in relation to p value. This is most important in order to have an overall idea of the included studies, their interventions and their findings. 4. A full description of the IMT protocols and the pulmonary rehabilitation programs especially in terms of the aerobic and strength training programs. These will allow us to better understand and explain the findings. This will also improve the discussion of this manuscript. 5. The discussion needs to be enhanced. The authors could add further support of their findings in relation to the interventions applied. Minor concerns. 1. The authors seems that described the characteristics of the interventions in the methodology section in relation to what they found, but this should better be placed at the results. Although there is need to present the interventions investigated under the PICOs framework, but a detailed description exceeds this concept. 2. The authors have stated the presence of heterogeneity, yet as we don’t have full description of the studies, this limits our understanding of the matter. This is a significant study that could lead to further clinical recommendations. The authors have gone through a thorough search in quite few databases and have presented the quality and risk of bias of the included studies. The main concern is the limitation of the year that the search was closed. Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Not applicable Are the conclusions drawn adequately supported by the results presented in the review? No If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) No Competing Interests: No competing interests were disclosed. Reviewer Expertise: An extended research interest in IMT. I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. Close READ LESS CITE CITE HOW TO CITE THIS REPORT Irini P. Reviewer Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.197361.r470806 ) The direct URL for this report is: https://f1000research.com/articles/15-19/v2#referee-response-470806 NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS Report a concern Author Response 05 May 2026 Fahad Algharbi , Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia 05 May 2026 Author Response We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training ... Continue reading We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training (IMT) in chronic obstructive pulmonary disease (COPD), and have directly improved the precision, transparency, and clinical utility of our manuscript. We also appreciate her thoughtful and generally positive assessment of our methodology and outcome reporting. Answer 1 (Major Concern 1, Search window ending January 2023) Thank you for foregrounding this important point. We agree that an ideal systematic review would reflect the most recent literature, and we accept this as a genuine limitation. After careful deliberation, a protocol-locked search update was not feasible within the revision timeline, as the statistical analysis, and risk-of-bias assessment were pre-specified against the closed January 2023 evidence base. Re-running the full multi-reviewer screening, data-extraction, and RoB 2.0 workflow would require a new a priori protocol to preserve methodological integrity. We note three points supporting the continued validity of our synthesis: (i) The review by Ammous et al. (2023), reached convergent conclusions, significant PImax gains with less consistent dyspnea/6MWT superiority; (ii) Xie et al. (2025), extending through 2024, confirms stable directionality despite mixed exercise capacity signals; (iii) Our phenotype-protocol conclusions (baseline weakness, ≥60% PImax progression, ≥8 weeks duration) are robust to marginal trial additions, though newer devices merit future investigation. Action taken: Search Strategy now states the search window was pre-specified and not extended, with implications detailed in Limitations. Answer 2 (Major Concern 2, PRISMA transparency) We agree completely. The revised PRISMA 2020 flow diagram (Figure 1) now itemizes exclusions at title/abstract (n=58: non-COPD n=19, no IMT n=14, wrong design n=12, no PR n=8, etc.) and full-text stages (n=5: reviews n=3, non-English n=2), fully conforming to PRISMA 2020 standards. Action taken: Figure 1 redrawn with quantified exclusion reasons; Results text updated accordingly. Uploaded to extended data. Answer 3 (Major Concern 3, PICOS table) We fully agree. New Table 2 provides PICOS-structured summary for all nine RCTs: population, IMT protocol (device, %PImax, duration, frequency, progression), comparator, outcomes, and key findings with p-values. Action taken: Table 2 inserted. Uploaded to extended data. Answer 4 (Major Concern 4, Protocol descriptions) Agreed. Detailed IMT/PR parameters now reside in Results ("Study intervention details" subsection), while Methods retains only eligibility-level PICOS framing. Action taken: Methods Interventions shortened to PICOS eligibility; detailed synthesis (device types, intensities, progression schedules, PR components) moved to new Results subsection post-Study Characteristics. Answer 5 (Major Concern 5, Discussion enhancement) We have expanded mechanistically: (i) inspiratory weakness → dyspnea → hyperinflation chain (ii) why IMT+PR exceeds PR alone via supra-threshold loading (iii) heterogeneity linked to Table 2 protocol parameters. Action taken: Three new/replacement Discussion paragraphs added as detailed previously. Answer 6 (Minor Concern 1, Methods/Results boundary) Agreed. Detailed intervention descriptions removed from Methods, replaced by concise PICOS eligibility; full synthesis now in Results. Answer 7 (Minor Concern 2, Heterogeneity support) Correct. Table 2, new Results subsection, and rewritten Discussion heterogeneity paragraph now anchor variability to specific protocol rows. Also, • Previous Table 2 ("IMT Effects on Outcome Measures") relabeled as Table 3 • Six new references added: Laveneziana et al. (2015); Levine et al. (1997); Ottenheijm et al. (2006); O'Donnell et al. (2009); Rossi et al. (2015); Xie et al. (2025) We again thank Dr. Patsaki Irini for her insightful and constructive feedback, which has substantially strengthened the rigor, clarity, and clinical relevance of our work We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training (IMT) in chronic obstructive pulmonary disease (COPD), and have directly improved the precision, transparency, and clinical utility of our manuscript. We also appreciate her thoughtful and generally positive assessment of our methodology and outcome reporting. Answer 1 (Major Concern 1, Search window ending January 2023) Thank you for foregrounding this important point. We agree that an ideal systematic review would reflect the most recent literature, and we accept this as a genuine limitation. After careful deliberation, a protocol-locked search update was not feasible within the revision timeline, as the statistical analysis, and risk-of-bias assessment were pre-specified against the closed January 2023 evidence base. Re-running the full multi-reviewer screening, data-extraction, and RoB 2.0 workflow would require a new a priori protocol to preserve methodological integrity. We note three points supporting the continued validity of our synthesis: (i) The review by Ammous et al. (2023), reached convergent conclusions, significant PImax gains with less consistent dyspnea/6MWT superiority; (ii) Xie et al. (2025), extending through 2024, confirms stable directionality despite mixed exercise capacity signals; (iii) Our phenotype-protocol conclusions (baseline weakness, ≥60% PImax progression, ≥8 weeks duration) are robust to marginal trial additions, though newer devices merit future investigation. Action taken: Search Strategy now states the search window was pre-specified and not extended, with implications detailed in Limitations. Answer 2 (Major Concern 2, PRISMA transparency) We agree completely. The revised PRISMA 2020 flow diagram (Figure 1) now itemizes exclusions at title/abstract (n=58: non-COPD n=19, no IMT n=14, wrong design n=12, no PR n=8, etc.) and full-text stages (n=5: reviews n=3, non-English n=2), fully conforming to PRISMA 2020 standards. Action taken: Figure 1 redrawn with quantified exclusion reasons; Results text updated accordingly. Uploaded to extended data. Answer 3 (Major Concern 3, PICOS table) We fully agree. New Table 2 provides PICOS-structured summary for all nine RCTs: population, IMT protocol (device, %PImax, duration, frequency, progression), comparator, outcomes, and key findings with p-values. Action taken: Table 2 inserted. Uploaded to extended data. Answer 4 (Major Concern 4, Protocol descriptions) Agreed. Detailed IMT/PR parameters now reside in Results ("Study intervention details" subsection), while Methods retains only eligibility-level PICOS framing. Action taken: Methods Interventions shortened to PICOS eligibility; detailed synthesis (device types, intensities, progression schedules, PR components) moved to new Results subsection post-Study Characteristics. Answer 5 (Major Concern 5, Discussion enhancement) We have expanded mechanistically: (i) inspiratory weakness → dyspnea → hyperinflation chain (ii) why IMT+PR exceeds PR alone via supra-threshold loading (iii) heterogeneity linked to Table 2 protocol parameters. Action taken: Three new/replacement Discussion paragraphs added as detailed previously. Answer 6 (Minor Concern 1, Methods/Results boundary) Agreed. Detailed intervention descriptions removed from Methods, replaced by concise PICOS eligibility; full synthesis now in Results. Answer 7 (Minor Concern 2, Heterogeneity support) Correct. Table 2, new Results subsection, and rewritten Discussion heterogeneity paragraph now anchor variability to specific protocol rows. Also, • Previous Table 2 ("IMT Effects on Outcome Measures") relabeled as Table 3 • Six new references added: Laveneziana et al. (2015); Levine et al. (1997); Ottenheijm et al. (2006); O'Donnell et al. (2009); Rossi et al. (2015); Xie et al. (2025) We again thank Dr. Patsaki Irini for her insightful and constructive feedback, which has substantially strengthened the rigor, clarity, and clinical relevance of our work Competing Interests: The authors declare no competing interests in relation to the present manuscript or its peer review. Close Report a concern Respond or Comment COMMENTS ON THIS REPORT Author Response 05 May 2026 Fahad Algharbi , Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia 05 May 2026 Author Response We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training ... Continue reading We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training (IMT) in chronic obstructive pulmonary disease (COPD), and have directly improved the precision, transparency, and clinical utility of our manuscript. We also appreciate her thoughtful and generally positive assessment of our methodology and outcome reporting. Answer 1 (Major Concern 1, Search window ending January 2023) Thank you for foregrounding this important point. We agree that an ideal systematic review would reflect the most recent literature, and we accept this as a genuine limitation. After careful deliberation, a protocol-locked search update was not feasible within the revision timeline, as the statistical analysis, and risk-of-bias assessment were pre-specified against the closed January 2023 evidence base. Re-running the full multi-reviewer screening, data-extraction, and RoB 2.0 workflow would require a new a priori protocol to preserve methodological integrity. We note three points supporting the continued validity of our synthesis: (i) The review by Ammous et al. (2023), reached convergent conclusions, significant PImax gains with less consistent dyspnea/6MWT superiority; (ii) Xie et al. (2025), extending through 2024, confirms stable directionality despite mixed exercise capacity signals; (iii) Our phenotype-protocol conclusions (baseline weakness, ≥60% PImax progression, ≥8 weeks duration) are robust to marginal trial additions, though newer devices merit future investigation. Action taken: Search Strategy now states the search window was pre-specified and not extended, with implications detailed in Limitations. Answer 2 (Major Concern 2, PRISMA transparency) We agree completely. The revised PRISMA 2020 flow diagram (Figure 1) now itemizes exclusions at title/abstract (n=58: non-COPD n=19, no IMT n=14, wrong design n=12, no PR n=8, etc.) and full-text stages (n=5: reviews n=3, non-English n=2), fully conforming to PRISMA 2020 standards. Action taken: Figure 1 redrawn with quantified exclusion reasons; Results text updated accordingly. Uploaded to extended data. Answer 3 (Major Concern 3, PICOS table) We fully agree. New Table 2 provides PICOS-structured summary for all nine RCTs: population, IMT protocol (device, %PImax, duration, frequency, progression), comparator, outcomes, and key findings with p-values. Action taken: Table 2 inserted. Uploaded to extended data. Answer 4 (Major Concern 4, Protocol descriptions) Agreed. Detailed IMT/PR parameters now reside in Results ("Study intervention details" subsection), while Methods retains only eligibility-level PICOS framing. Action taken: Methods Interventions shortened to PICOS eligibility; detailed synthesis (device types, intensities, progression schedules, PR components) moved to new Results subsection post-Study Characteristics. Answer 5 (Major Concern 5, Discussion enhancement) We have expanded mechanistically: (i) inspiratory weakness → dyspnea → hyperinflation chain (ii) why IMT+PR exceeds PR alone via supra-threshold loading (iii) heterogeneity linked to Table 2 protocol parameters. Action taken: Three new/replacement Discussion paragraphs added as detailed previously. Answer 6 (Minor Concern 1, Methods/Results boundary) Agreed. Detailed intervention descriptions removed from Methods, replaced by concise PICOS eligibility; full synthesis now in Results. Answer 7 (Minor Concern 2, Heterogeneity support) Correct. Table 2, new Results subsection, and rewritten Discussion heterogeneity paragraph now anchor variability to specific protocol rows. Also, • Previous Table 2 ("IMT Effects on Outcome Measures") relabeled as Table 3 • Six new references added: Laveneziana et al. (2015); Levine et al. (1997); Ottenheijm et al. (2006); O'Donnell et al. (2009); Rossi et al. (2015); Xie et al. (2025) We again thank Dr. Patsaki Irini for her insightful and constructive feedback, which has substantially strengthened the rigor, clarity, and clinical relevance of our work We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training (IMT) in chronic obstructive pulmonary disease (COPD), and have directly improved the precision, transparency, and clinical utility of our manuscript. We also appreciate her thoughtful and generally positive assessment of our methodology and outcome reporting. Answer 1 (Major Concern 1, Search window ending January 2023) Thank you for foregrounding this important point. We agree that an ideal systematic review would reflect the most recent literature, and we accept this as a genuine limitation. After careful deliberation, a protocol-locked search update was not feasible within the revision timeline, as the statistical analysis, and risk-of-bias assessment were pre-specified against the closed January 2023 evidence base. Re-running the full multi-reviewer screening, data-extraction, and RoB 2.0 workflow would require a new a priori protocol to preserve methodological integrity. We note three points supporting the continued validity of our synthesis: (i) The review by Ammous et al. (2023), reached convergent conclusions, significant PImax gains with less consistent dyspnea/6MWT superiority; (ii) Xie et al. (2025), extending through 2024, confirms stable directionality despite mixed exercise capacity signals; (iii) Our phenotype-protocol conclusions (baseline weakness, ≥60% PImax progression, ≥8 weeks duration) are robust to marginal trial additions, though newer devices merit future investigation. Action taken: Search Strategy now states the search window was pre-specified and not extended, with implications detailed in Limitations. Answer 2 (Major Concern 2, PRISMA transparency) We agree completely. The revised PRISMA 2020 flow diagram (Figure 1) now itemizes exclusions at title/abstract (n=58: non-COPD n=19, no IMT n=14, wrong design n=12, no PR n=8, etc.) and full-text stages (n=5: reviews n=3, non-English n=2), fully conforming to PRISMA 2020 standards. Action taken: Figure 1 redrawn with quantified exclusion reasons; Results text updated accordingly. Uploaded to extended data. Answer 3 (Major Concern 3, PICOS table) We fully agree. New Table 2 provides PICOS-structured summary for all nine RCTs: population, IMT protocol (device, %PImax, duration, frequency, progression), comparator, outcomes, and key findings with p-values. Action taken: Table 2 inserted. Uploaded to extended data. Answer 4 (Major Concern 4, Protocol descriptions) Agreed. Detailed IMT/PR parameters now reside in Results ("Study intervention details" subsection), while Methods retains only eligibility-level PICOS framing. Action taken: Methods Interventions shortened to PICOS eligibility; detailed synthesis (device types, intensities, progression schedules, PR components) moved to new Results subsection post-Study Characteristics. Answer 5 (Major Concern 5, Discussion enhancement) We have expanded mechanistically: (i) inspiratory weakness → dyspnea → hyperinflation chain (ii) why IMT+PR exceeds PR alone via supra-threshold loading (iii) heterogeneity linked to Table 2 protocol parameters. Action taken: Three new/replacement Discussion paragraphs added as detailed previously. Answer 6 (Minor Concern 1, Methods/Results boundary) Agreed. Detailed intervention descriptions removed from Methods, replaced by concise PICOS eligibility; full synthesis now in Results. Answer 7 (Minor Concern 2, Heterogeneity support) Correct. Table 2, new Results subsection, and rewritten Discussion heterogeneity paragraph now anchor variability to specific protocol rows. Also, • Previous Table 2 ("IMT Effects on Outcome Measures") relabeled as Table 3 • Six new references added: Laveneziana et al. (2015); Levine et al. (1997); Ottenheijm et al. (2006); O'Donnell et al. (2009); Rossi et al. (2015); Xie et al. (2025) We again thank Dr. Patsaki Irini for her insightful and constructive feedback, which has substantially strengthened the rigor, clarity, and clinical relevance of our work Competing Interests: The authors declare no competing interests in relation to the present manuscript or its peer review. Close Report a concern COMMENT ON THIS REPORT Version 1 VERSION 1 PUBLISHED 07 Jan 2026 Views 0 Cite How to cite this report: Charususin N. Reviewer Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.193598.r452337 ) The direct URL for this report is: https://f1000research.com/articles/15-19/v1#referee-response-452337 NOTE: it is important to ensure the information in square brackets after the title is included in this citation. Close Copy Citation Details Reviewer Report 25 Feb 2026 Noppawan Charususin , Thammasat University, Bangkok, Bangkok, Thailand Approved with Reservations VIEWS 0 https://doi.org/10.5256/f1000research.193598.r452337 The authors performed a systematic review to examine whether inspiratory muscle training plus pulmonary rehabilitation provides benefits beyond PR alone in adults with moderate to severe COPD. This systematic review provides moderate-quality evidence that inspiratory muscle training, when incorporated ... Continue reading READ ALL The authors performed a systematic review to examine whether inspiratory muscle training plus pulmonary rehabilitation provides benefits beyond PR alone in adults with moderate to severe COPD. This systematic review provides moderate-quality evidence that inspiratory muscle training, when incorporated into pulmonary rehabilitation programs, yields consistent improvements in health-related quality of life for individuals with COPD. I have two major concerns; the first one is the rational for performing this systematic review since the recent Cochrane Database Syst. Rev. (Ammous et al., 2023) has already performed this systematic review as mentioned in the discussion section. What are the strong reasons to support this systematic review again after only a few years? The reason should not be only the different search strategies. Secondly, what is the reason why the authors did not register in PROSPERO? Although all methods strictly follow the Cochrane Collaboration standards and PRISMA 2020 guidelines. It would be better to register this review in PROSPERO. Are the rationale for, and objectives of, the Systematic Review clearly stated? Partly Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Partly Are the conclusions drawn adequately supported by the results presented in the review? Yes If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Yes Competing Interests: No competing interests were disclosed. Reviewer Expertise: Pulmonary rehabilitation, inspiratory muscle training I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. Close READ LESS CITE CITE HOW TO CITE THIS REPORT Charususin N. Reviewer Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.193598.r452337 ) The direct URL for this report is: https://f1000research.com/articles/15-19/v1#referee-response-452337 NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article. COPY CITATION DETAILS Report a concern Author Response 13 Mar 2026 Fahad Algharbi , Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia 13 Mar 2026 Author Response Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane ... Continue reading Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane review by Ammous et al. is the highest-level synthesis on IMT in COPD, both as a stand-alone intervention and when combined with PR, and we wish to clarify the distinct and complementary rationale for our review. While the Cochrane review evaluates two broad questions together (IMT alone and IMT plus PR) the key operational decision in clinical services is specifically whether adding IMT to an established PR pathway is worth the additional time, equipment, supervision, and adherence burden; our review isolates this integration question entirely, synthesizing outcomes and protocols exclusively in the context where PR is already being delivered, which is the precise scenario clinicians and rehabilitation programs face. Second, the Cochrane authors themselves explicitly acknowledge that a larger effect in people with inspiratory muscle weakness and with longer training durations remains to be confirmed, and that future research should focus on people with weakened breathing muscles; our review was designed to respond to this exact gap by extracting trial-level details that matter for service delivery ( baseline PImax, intensity progression, duration, device type, and supervision ) and by examining whether clinically meaningful signals appear stronger in more impaired patients and longer programs, thereby providing an implementation-oriented synthesis that directly addresses the uncertainty Cochrane identified rather than simply replicating its conclusions. Also, the Ammous et al., 2023 review applied strict methodological exclusions, removing trials that used resistive devices without a controlled breathing pattern or with training loads below 30% of PImax; while methodologically rigorous, this means that many protocols actually used in PR settings ( particularly in frailer patients or early training phases ) are not represented in the Cochrane evidence base, and our broader, PR-embedded protocol mapping provides practical insight into what appears effective, tolerable, and deliverable across the range of real-world rehabilitation pathways. Lastly, and perhaps most importantly, while Cochrane reports that PR plus IMT probably increases PImax without reaching their cited MCID of 17.2 cmH₂O, and that effects on 6MWD and HRQoL versus PR alone are uncertain or small at the pooled level, our review complements this by translating study-level findings into clinically interpretable ranges, demonstrating individual trial PImax gains of 5.2 to 22.9 cmH₂O, identifying that 100% of studies assessing HRQoL across multiple instruments “SF-36, CCQ, ABC, and BBS” reported statistically significant improvements that the SGRQ-focused Cochrane meta-analysis does not capture, highlighting where within-group changes exceed established MCID thresholds for 6MWT and dyspnea, and identifying the ceiling-effect pattern in patients with preserved baseline inspiratory strength that the Cochrane subgroup analysis could not resolve, all of which translate the existing evidence into a format directly applicable to patient selection and clinical decision-making in ways that a pooled mean difference structurally cannot. Answer 2: The review was registered in PROSPERO (ID: CRD420251251860), and the manuscript has been updated accordingly. Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane review by Ammous et al. is the highest-level synthesis on IMT in COPD, both as a stand-alone intervention and when combined with PR, and we wish to clarify the distinct and complementary rationale for our review. While the Cochrane review evaluates two broad questions together (IMT alone and IMT plus PR) the key operational decision in clinical services is specifically whether adding IMT to an established PR pathway is worth the additional time, equipment, supervision, and adherence burden; our review isolates this integration question entirely, synthesizing outcomes and protocols exclusively in the context where PR is already being delivered, which is the precise scenario clinicians and rehabilitation programs face. Second, the Cochrane authors themselves explicitly acknowledge that a larger effect in people with inspiratory muscle weakness and with longer training durations remains to be confirmed, and that future research should focus on people with weakened breathing muscles; our review was designed to respond to this exact gap by extracting trial-level details that matter for service delivery ( baseline PImax, intensity progression, duration, device type, and supervision ) and by examining whether clinically meaningful signals appear stronger in more impaired patients and longer programs, thereby providing an implementation-oriented synthesis that directly addresses the uncertainty Cochrane identified rather than simply replicating its conclusions. Also, the Ammous et al., 2023 review applied strict methodological exclusions, removing trials that used resistive devices without a controlled breathing pattern or with training loads below 30% of PImax; while methodologically rigorous, this means that many protocols actually used in PR settings ( particularly in frailer patients or early training phases ) are not represented in the Cochrane evidence base, and our broader, PR-embedded protocol mapping provides practical insight into what appears effective, tolerable, and deliverable across the range of real-world rehabilitation pathways. Lastly, and perhaps most importantly, while Cochrane reports that PR plus IMT probably increases PImax without reaching their cited MCID of 17.2 cmH₂O, and that effects on 6MWD and HRQoL versus PR alone are uncertain or small at the pooled level, our review complements this by translating study-level findings into clinically interpretable ranges, demonstrating individual trial PImax gains of 5.2 to 22.9 cmH₂O, identifying that 100% of studies assessing HRQoL across multiple instruments “SF-36, CCQ, ABC, and BBS” reported statistically significant improvements that the SGRQ-focused Cochrane meta-analysis does not capture, highlighting where within-group changes exceed established MCID thresholds for 6MWT and dyspnea, and identifying the ceiling-effect pattern in patients with preserved baseline inspiratory strength that the Cochrane subgroup analysis could not resolve, all of which translate the existing evidence into a format directly applicable to patient selection and clinical decision-making in ways that a pooled mean difference structurally cannot. Answer 2: The review was registered in PROSPERO (ID: CRD420251251860), and the manuscript has been updated accordingly. Competing Interests: We have no competing interests to disclose that could be construed to influence our judgment of the article’s or peer review report’s validity or importance. Close Report a concern Respond or Comment COMMENTS ON THIS REPORT Author Response 13 Mar 2026 Fahad Algharbi , Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia 13 Mar 2026 Author Response Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane ... Continue reading Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane review by Ammous et al. is the highest-level synthesis on IMT in COPD, both as a stand-alone intervention and when combined with PR, and we wish to clarify the distinct and complementary rationale for our review. While the Cochrane review evaluates two broad questions together (IMT alone and IMT plus PR) the key operational decision in clinical services is specifically whether adding IMT to an established PR pathway is worth the additional time, equipment, supervision, and adherence burden; our review isolates this integration question entirely, synthesizing outcomes and protocols exclusively in the context where PR is already being delivered, which is the precise scenario clinicians and rehabilitation programs face. Second, the Cochrane authors themselves explicitly acknowledge that a larger effect in people with inspiratory muscle weakness and with longer training durations remains to be confirmed, and that future research should focus on people with weakened breathing muscles; our review was designed to respond to this exact gap by extracting trial-level details that matter for service delivery ( baseline PImax, intensity progression, duration, device type, and supervision ) and by examining whether clinically meaningful signals appear stronger in more impaired patients and longer programs, thereby providing an implementation-oriented synthesis that directly addresses the uncertainty Cochrane identified rather than simply replicating its conclusions. Also, the Ammous et al., 2023 review applied strict methodological exclusions, removing trials that used resistive devices without a controlled breathing pattern or with training loads below 30% of PImax; while methodologically rigorous, this means that many protocols actually used in PR settings ( particularly in frailer patients or early training phases ) are not represented in the Cochrane evidence base, and our broader, PR-embedded protocol mapping provides practical insight into what appears effective, tolerable, and deliverable across the range of real-world rehabilitation pathways. Lastly, and perhaps most importantly, while Cochrane reports that PR plus IMT probably increases PImax without reaching their cited MCID of 17.2 cmH₂O, and that effects on 6MWD and HRQoL versus PR alone are uncertain or small at the pooled level, our review complements this by translating study-level findings into clinically interpretable ranges, demonstrating individual trial PImax gains of 5.2 to 22.9 cmH₂O, identifying that 100% of studies assessing HRQoL across multiple instruments “SF-36, CCQ, ABC, and BBS” reported statistically significant improvements that the SGRQ-focused Cochrane meta-analysis does not capture, highlighting where within-group changes exceed established MCID thresholds for 6MWT and dyspnea, and identifying the ceiling-effect pattern in patients with preserved baseline inspiratory strength that the Cochrane subgroup analysis could not resolve, all of which translate the existing evidence into a format directly applicable to patient selection and clinical decision-making in ways that a pooled mean difference structurally cannot. Answer 2: The review was registered in PROSPERO (ID: CRD420251251860), and the manuscript has been updated accordingly. Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane review by Ammous et al. is the highest-level synthesis on IMT in COPD, both as a stand-alone intervention and when combined with PR, and we wish to clarify the distinct and complementary rationale for our review. While the Cochrane review evaluates two broad questions together (IMT alone and IMT plus PR) the key operational decision in clinical services is specifically whether adding IMT to an established PR pathway is worth the additional time, equipment, supervision, and adherence burden; our review isolates this integration question entirely, synthesizing outcomes and protocols exclusively in the context where PR is already being delivered, which is the precise scenario clinicians and rehabilitation programs face. Second, the Cochrane authors themselves explicitly acknowledge that a larger effect in people with inspiratory muscle weakness and with longer training durations remains to be confirmed, and that future research should focus on people with weakened breathing muscles; our review was designed to respond to this exact gap by extracting trial-level details that matter for service delivery ( baseline PImax, intensity progression, duration, device type, and supervision ) and by examining whether clinically meaningful signals appear stronger in more impaired patients and longer programs, thereby providing an implementation-oriented synthesis that directly addresses the uncertainty Cochrane identified rather than simply replicating its conclusions. Also, the Ammous et al., 2023 review applied strict methodological exclusions, removing trials that used resistive devices without a controlled breathing pattern or with training loads below 30% of PImax; while methodologically rigorous, this means that many protocols actually used in PR settings ( particularly in frailer patients or early training phases ) are not represented in the Cochrane evidence base, and our broader, PR-embedded protocol mapping provides practical insight into what appears effective, tolerable, and deliverable across the range of real-world rehabilitation pathways. Lastly, and perhaps most importantly, while Cochrane reports that PR plus IMT probably increases PImax without reaching their cited MCID of 17.2 cmH₂O, and that effects on 6MWD and HRQoL versus PR alone are uncertain or small at the pooled level, our review complements this by translating study-level findings into clinically interpretable ranges, demonstrating individual trial PImax gains of 5.2 to 22.9 cmH₂O, identifying that 100% of studies assessing HRQoL across multiple instruments “SF-36, CCQ, ABC, and BBS” reported statistically significant improvements that the SGRQ-focused Cochrane meta-analysis does not capture, highlighting where within-group changes exceed established MCID thresholds for 6MWT and dyspnea, and identifying the ceiling-effect pattern in patients with preserved baseline inspiratory strength that the Cochrane subgroup analysis could not resolve, all of which translate the existing evidence into a format directly applicable to patient selection and clinical decision-making in ways that a pooled mean difference structurally cannot. Answer 2: The review was registered in PROSPERO (ID: CRD420251251860), and the manuscript has been updated accordingly. Competing Interests: We have no competing interests to disclose that could be construed to influence our judgment of the article’s or peer review report’s validity or importance. Close Report a concern COMMENT ON THIS REPORT Comments on this article Comments (0) Version 3 VERSION 3 PUBLISHED 07 Jan 2026 ADD YOUR COMMENT Comment keyboard_arrow_left keyboard_arrow_right Open Peer Review Reviewer Status info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Reviewer Reports Invited Reviewers 1 2 Version 3 (revision) 05 May 26 Version 2 (revision) 13 Mar 26 read Version 1 07 Jan 26 read Noppawan Charususin , Thammasat University, Bangkok, Thailand Patsaki Irini , University of West Attica, Egaleo, Greece Comments on this article All Comments (0) Add a comment Sign up for content alerts Sign Up You are now signed up to receive this alert Browse by related subjects keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2026 Irini P. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 21 Apr 2026 | for Version 2 Patsaki Irini , University of West Attica, Egaleo, Greece 0 Views copyright © 2026 Irini P. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (1) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions Algharbi and co- authors have investigated the effectiveness of inspiratory muscle training along with pulmonary rehabilitation in COPD population. As IMT is a well established intervention that could alleviate symptoms in this population and positively effect exercise capacity and quality of life, the authors have tried to underline that should be included in pulmonary rehabilitation as this exceeds the benefits of a stand alone rehabilitation program. COPD patients could manifest significant inspiratory muscle weakness that restricts their functionality, as it limits their exercise capacity. Thus IMT is proposed as the most suitable intervention, and this supports the hypothesis of the authors. The manuscript is well written, and its methodology is well presented. The authors have described in detail their findings in all outcomes investigated. Major concerns. 1. its main limitation is that included studies up to January 2023. And this is my major concern as since then, we have more published studies on this topic and the use of new devices and techniques regarding IMT. 2. The authors need to present the reasons for all excluded studies in figure 1 for reasons of transparency. 3. There is a need for the authors to include a table following the PICOs framework, presenting all information of the included studies with the outcomes included in each study, along with the main findings in relation to p value. This is most important in order to have an overall idea of the included studies, their interventions and their findings. 4. A full description of the IMT protocols and the pulmonary rehabilitation programs especially in terms of the aerobic and strength training programs. These will allow us to better understand and explain the findings. This will also improve the discussion of this manuscript. 5. The discussion needs to be enhanced. The authors could add further support of their findings in relation to the interventions applied. Minor concerns. 1. The authors seems that described the characteristics of the interventions in the methodology section in relation to what they found, but this should better be placed at the results. Although there is need to present the interventions investigated under the PICOs framework, but a detailed description exceeds this concept. 2. The authors have stated the presence of heterogeneity, yet as we don’t have full description of the studies, this limits our understanding of the matter. This is a significant study that could lead to further clinical recommendations. The authors have gone through a thorough search in quite few databases and have presented the quality and risk of bias of the included studies. The main concern is the limitation of the year that the search was closed. Are the rationale for, and objectives of, the Systematic Review clearly stated? Yes Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Not applicable Are the conclusions drawn adequately supported by the results presented in the review? No If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) No Competing Interests No competing interests were disclosed. Reviewer Expertise An extended research interest in IMT. I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (1) Author Response 05 May 2026 Fahad Algharbi, Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia We are sincerely grateful to Dr. Patsaki Irini for her careful, constructive, and expert review. Her comments reflect deep clinical and methodological familiarity with respiratory rehabilitation and inspiratory muscle training (IMT) in chronic obstructive pulmonary disease (COPD), and have directly improved the precision, transparency, and clinical utility of our manuscript. We also appreciate her thoughtful and generally positive assessment of our methodology and outcome reporting. Answer 1 (Major Concern 1, Search window ending January 2023) Thank you for foregrounding this important point. We agree that an ideal systematic review would reflect the most recent literature, and we accept this as a genuine limitation. After careful deliberation, a protocol-locked search update was not feasible within the revision timeline, as the statistical analysis, and risk-of-bias assessment were pre-specified against the closed January 2023 evidence base. Re-running the full multi-reviewer screening, data-extraction, and RoB 2.0 workflow would require a new a priori protocol to preserve methodological integrity. We note three points supporting the continued validity of our synthesis: (i) The review by Ammous et al. (2023), reached convergent conclusions, significant PImax gains with less consistent dyspnea/6MWT superiority; (ii) Xie et al. (2025), extending through 2024, confirms stable directionality despite mixed exercise capacity signals; (iii) Our phenotype-protocol conclusions (baseline weakness, ≥60% PImax progression, ≥8 weeks duration) are robust to marginal trial additions, though newer devices merit future investigation. Action taken: Search Strategy now states the search window was pre-specified and not extended, with implications detailed in Limitations. Answer 2 (Major Concern 2, PRISMA transparency) We agree completely. The revised PRISMA 2020 flow diagram (Figure 1) now itemizes exclusions at title/abstract (n=58: non-COPD n=19, no IMT n=14, wrong design n=12, no PR n=8, etc.) and full-text stages (n=5: reviews n=3, non-English n=2), fully conforming to PRISMA 2020 standards. Action taken: Figure 1 redrawn with quantified exclusion reasons; Results text updated accordingly. Uploaded to extended data. Answer 3 (Major Concern 3, PICOS table) We fully agree. New Table 2 provides PICOS-structured summary for all nine RCTs: population, IMT protocol (device, %PImax, duration, frequency, progression), comparator, outcomes, and key findings with p-values. Action taken: Table 2 inserted. Uploaded to extended data. Answer 4 (Major Concern 4, Protocol descriptions) Agreed. Detailed IMT/PR parameters now reside in Results ("Study intervention details" subsection), while Methods retains only eligibility-level PICOS framing. Action taken: Methods Interventions shortened to PICOS eligibility; detailed synthesis (device types, intensities, progression schedules, PR components) moved to new Results subsection post-Study Characteristics. Answer 5 (Major Concern 5, Discussion enhancement) We have expanded mechanistically: (i) inspiratory weakness → dyspnea → hyperinflation chain (ii) why IMT+PR exceeds PR alone via supra-threshold loading (iii) heterogeneity linked to Table 2 protocol parameters. Action taken: Three new/replacement Discussion paragraphs added as detailed previously. Answer 6 (Minor Concern 1, Methods/Results boundary) Agreed. Detailed intervention descriptions removed from Methods, replaced by concise PICOS eligibility; full synthesis now in Results. Answer 7 (Minor Concern 2, Heterogeneity support) Correct. Table 2, new Results subsection, and rewritten Discussion heterogeneity paragraph now anchor variability to specific protocol rows. Also, • Previous Table 2 ("IMT Effects on Outcome Measures") relabeled as Table 3 • Six new references added: Laveneziana et al. (2015); Levine et al. (1997); Ottenheijm et al. (2006); O'Donnell et al. (2009); Rossi et al. (2015); Xie et al. (2025) We again thank Dr. Patsaki Irini for her insightful and constructive feedback, which has substantially strengthened the rigor, clarity, and clinical relevance of our work View more View less Competing Interests The authors declare no competing interests in relation to the present manuscript or its peer review. reply Respond Report a concern Irini P. Peer Review Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.197361.r470806) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/15-19/v2#referee-response-470806 keyboard_arrow_left Back to all reports Reviewer Report 0 Views copyright © 2026 Charususin N. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 25 Feb 2026 | for Version 1 Noppawan Charususin , Thammasat University, Bangkok, Bangkok, Thailand 0 Views copyright © 2026 Charususin N. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. format_quote Cite this report speaker_notes Responses (1) Approved With Reservations info_outline Alongside their report, reviewers assign a status to the article: Approved The paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved Fundamental flaws in the paper seriously undermine the findings and conclusions The authors performed a systematic review to examine whether inspiratory muscle training plus pulmonary rehabilitation provides benefits beyond PR alone in adults with moderate to severe COPD. This systematic review provides moderate-quality evidence that inspiratory muscle training, when incorporated into pulmonary rehabilitation programs, yields consistent improvements in health-related quality of life for individuals with COPD. I have two major concerns; the first one is the rational for performing this systematic review since the recent Cochrane Database Syst. Rev. (Ammous et al., 2023) has already performed this systematic review as mentioned in the discussion section. What are the strong reasons to support this systematic review again after only a few years? The reason should not be only the different search strategies. Secondly, what is the reason why the authors did not register in PROSPERO? Although all methods strictly follow the Cochrane Collaboration standards and PRISMA 2020 guidelines. It would be better to register this review in PROSPERO. Are the rationale for, and objectives of, the Systematic Review clearly stated? Partly Are sufficient details of the methods and analysis provided to allow replication by others? Yes Is the statistical analysis and its interpretation appropriate? Partly Are the conclusions drawn adequately supported by the results presented in the review? Yes If this is a Living Systematic Review, is the ‘living’ method appropriate and is the search schedule clearly defined and justified? (‘Living Systematic Review’ or a variation of this term should be included in the title.) Yes Competing Interests No competing interests were disclosed. Reviewer Expertise Pulmonary rehabilitation, inspiratory muscle training I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above. reply Respond to this report Responses (1) Author Response 13 Mar 2026 Fahad Algharbi, Department of Physiotherapy, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia Thank you for your careful review and thoughtful feedback; we greatly appreciate your insights and time. Answer 1: Thank you for this important point. We agree that the Cochrane review by Ammous et al. is the highest-level synthesis on IMT in COPD, both as a stand-alone intervention and when combined with PR, and we wish to clarify the distinct and complementary rationale for our review. While the Cochrane review evaluates two broad questions together (IMT alone and IMT plus PR) the key operational decision in clinical services is specifically whether adding IMT to an established PR pathway is worth the additional time, equipment, supervision, and adherence burden; our review isolates this integration question entirely, synthesizing outcomes and protocols exclusively in the context where PR is already being delivered, which is the precise scenario clinicians and rehabilitation programs face. Second, the Cochrane authors themselves explicitly acknowledge that a larger effect in people with inspiratory muscle weakness and with longer training durations remains to be confirmed, and that future research should focus on people with weakened breathing muscles; our review was designed to respond to this exact gap by extracting trial-level details that matter for service delivery ( baseline PImax, intensity progression, duration, device type, and supervision ) and by examining whether clinically meaningful signals appear stronger in more impaired patients and longer programs, thereby providing an implementation-oriented synthesis that directly addresses the uncertainty Cochrane identified rather than simply replicating its conclusions. Also, the Ammous et al., 2023 review applied strict methodological exclusions, removing trials that used resistive devices without a controlled breathing pattern or with training loads below 30% of PImax; while methodologically rigorous, this means that many protocols actually used in PR settings ( particularly in frailer patients or early training phases ) are not represented in the Cochrane evidence base, and our broader, PR-embedded protocol mapping provides practical insight into what appears effective, tolerable, and deliverable across the range of real-world rehabilitation pathways. Lastly, and perhaps most importantly, while Cochrane reports that PR plus IMT probably increases PImax without reaching their cited MCID of 17.2 cmH₂O, and that effects on 6MWD and HRQoL versus PR alone are uncertain or small at the pooled level, our review complements this by translating study-level findings into clinically interpretable ranges, demonstrating individual trial PImax gains of 5.2 to 22.9 cmH₂O, identifying that 100% of studies assessing HRQoL across multiple instruments “SF-36, CCQ, ABC, and BBS” reported statistically significant improvements that the SGRQ-focused Cochrane meta-analysis does not capture, highlighting where within-group changes exceed established MCID thresholds for 6MWT and dyspnea, and identifying the ceiling-effect pattern in patients with preserved baseline inspiratory strength that the Cochrane subgroup analysis could not resolve, all of which translate the existing evidence into a format directly applicable to patient selection and clinical decision-making in ways that a pooled mean difference structurally cannot. Answer 2: The review was registered in PROSPERO (ID: CRD420251251860), and the manuscript has been updated accordingly. View more View less Competing Interests We have no competing interests to disclose that could be construed to influence our judgment of the article’s or peer review report’s validity or importance. reply Respond Report a concern Charususin N. Peer Review Report For: Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 2; peer review: 2 approved with reservations] . F1000Research 2026, 15 :19 ( https://doi.org/10.5256/f1000research.193598.r452337) NOTE: it is important to ensure the information in square brackets after the title is included in this citation. The direct URL for this report is: https://f1000research.com/articles/15-19/v1#referee-response-452337 Alongside their report, reviewers assign a status to the article: Approved - the paper is scientifically sound in its current form and only minor, if any, improvements are suggested Approved with reservations - A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit. Not approved - fundamental flaws in the paper seriously undermine the findings and conclusions Adjust parameters to alter display View on desktop for interactive features Includes Interactive Elements View on desktop for interactive features Competing Interests Policy Provide sufficient details of any financial or non-financial competing interests to enable users to assess whether your comments might lead a reasonable person to question your impartiality. 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