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Inspiratory Muscle Training for People With Heart Failure

22. juni 2026 opdateret af: Marcelo Tuesta, Universidad Nacional Andres Bello

Efficacy of an Inspiratory Muscle Training Protocol With Resistive Airflow Loading on Exercise Capacity, Respiratory Muscle Strength and Quality of Life in Individuals With Heart Failure: a Randomized Clinical Trial

Heart failure is frequently associated with inspiratory muscle weakness, which contributes to dyspnea, reduced exercise capacity, impaired quality of life, and adverse cardiovascular outcomes. Although inspiratory muscle training (IMT) is a recommended adjunct to cardiovascular rehabilitation, the optimal training modality remains uncertain, particularly among patients with reduced and preserved ejection fraction.

This randomized controlled trial will evaluate the efficacy of a novel inspiratory muscle training protocol using tapered flow resistive loading (TFRL) compared with conventional threshold loading (TL) and usual care. A total of 108 clinically stable patients with heart failure (NYHA class II-III) will be enrolled. Participants will be stratified according to heart failure phenotype (reduced or preserved ejection fraction) and allocated to one of three groups: TFRL, TL, or control. Both training interventions will be performed for 8 weeks in combination with supervised exercise-based cardiac rehabilitation.

Primary and secondary outcomes will include inspiratory muscle strength and endurance, exercise capacity, pulmonary function, dyspnea, skeletal muscle oxygenation, autonomic balance, arterial stiffness, and health-related quality of life. The study is powered to detect moderate between-group differences and interaction effects with 80% statistical power and a two-sided alpha level of 0.05. Changes over time and between groups will be analyzed using analysis of covariance (ANCOVA), adjusting for baseline inspiratory muscle strength.

The trial aims to determine whether TFRL provides superior clinical and physiological benefits compared with conventional inspiratory muscle training and whether treatment responses differ according to heart failure phenotype.

Studieoversigt

Detaljeret beskrivelse

Heart failure (HF) is a complex clinical syndrome characterized by the inability of the cardiovascular system to deliver sufficient blood flow and oxygen to meet the metabolic demands of peripheral tissues. It affects more than 64 million people worldwide and remains one of the leading causes of hospitalization, disability, and mortality among adults. Despite advances in pharmacological and device-based therapies, many patients continue to experience symptoms such as dyspnea, fatigue, exercise intolerance, and impaired quality of life. These symptoms are major determinants of disease burden and frequently persist despite optimal medical management.

Although heart failure has traditionally been considered a disorder primarily involving cardiac dysfunction, increasing evidence indicates that peripheral and respiratory impairments substantially contribute to functional limitations. Among these, inspiratory muscle weakness has emerged as an important and potentially modifiable factor. Reduced inspiratory muscle strength is common in patients with both heart failure with reduced ejection fraction (HFrEF) and heart failure with preserved ejection fraction (HFpEF) and has been associated with reduced exercise capacity, increased dyspnea, impaired ventilatory efficiency, autonomic dysfunction, and poorer clinical outcomes.

The pathophysiological consequences of inspiratory muscle weakness extend beyond the respiratory system. During exercise, fatigued respiratory muscles activate the respiratory muscle metaboreflex through stimulation of group III and IV afferent fibers. This reflex increases sympathetic nervous system activity and promotes peripheral vasoconstriction, particularly in locomotor muscles. As a consequence, blood flow is redistributed from exercising skeletal muscles toward the respiratory muscles, accelerating peripheral fatigue and limiting exercise tolerance. This mechanism contributes to the reduced functional capacity commonly observed in patients with heart failure.

Several studies have demonstrated that inspiratory muscle training (IMT) can improve inspiratory muscle strength and endurance, reduce dyspnea, enhance exercise performance, improve ventilatory efficiency, and increase quality of life. Additional evidence suggests that IMT may positively influence autonomic regulation, muscle oxygenation, endothelial function, and cardiovascular health. Consequently, inspiratory muscle training has become an increasingly important adjunctive therapy within cardiovascular rehabilitation programs.

Despite these promising findings, important questions remain unanswered. First, the optimal inspiratory muscle training modality for patients with heart failure has not been established. Most previous studies have employed inspiratory pressure-threshold devices. These devices require patients to generate a predetermined inspiratory pressure before airflow occurs, resulting in resistance that may not be maintained uniformly throughout the inspiratory maneuver. Consequently, the amount of inspiratory work performed during each breath may be limited.

A newer inspiratory training modality, known as tapered flow resistive loading (TFRL), may overcome some of these limitations. Unlike conventional threshold devices, TFRL dynamically adjusts resistance according to inspiratory airflow, allowing a greater training load to be maintained throughout a larger portion of the inspiratory maneuver. This results in higher inspiratory work and a contraction pattern that more closely resembles the physiological principles underlying skeletal muscle resistance training. Previous investigations in other cardiopulmonary populations have suggested that flow-resistive loading may produce greater physiological adaptations than traditional threshold loading. However, to date, this hypothesis has not been adequately tested in patients with heart failure.

A second important knowledge gap concerns potential differences in training responses between patients with reduced and preserved ejection fraction. Although inspiratory muscle weakness has been documented in both phenotypes, the underlying mechanisms may differ. Patients with reduced ejection fraction frequently exhibit greater skeletal muscle catabolism and peripheral muscle dysfunction, which could influence their response to respiratory muscle training. Conversely, evidence regarding inspiratory muscle training in HFpEF remains scarce and inconclusive. Only a limited number of studies have evaluated inspiratory muscle training in this population, and the available results have not established the most effective training strategy.

The present randomized controlled trial was designed to address these knowledge gaps and provide clinically relevant evidence regarding inspiratory muscle training in heart failure. The study will investigate whether a novel TFRL-based inspiratory muscle training program provides superior physiological and clinical benefits compared with conventional threshold loading and usual care. Furthermore, the trial will determine whether treatment effects differ according to heart failure phenotype.

A total of 108 patients with clinically stable heart failure and inspiratory muscle weakness will be enrolled. Participants will be classified according to ejection fraction phenotype and allocated to one of three intervention groups using a minimization procedure designed to balance important prognostic factors. All participants will simultaneously participate in a supervised cardiovascular rehabilitation program consisting of aerobic and resistance exercise training performed according to contemporary cardiac rehabilitation recommendations.

The inspiratory muscle training interventions will be individually prescribed according to maximal inspiratory pressure and progressively adjusted throughout the intervention period. The experimental intervention will utilize a tapered flow resistive loading device designed to maintain inspiratory resistance across a broad range of lung volumes. The comparator intervention will use a conventional inspiratory threshold loading device, representing current clinical practice. A control group will receive standard cardiovascular rehabilitation without inspiratory muscle training.

The study will comprehensively evaluate the effects of the interventions on respiratory, cardiovascular, functional, and patient-reported outcomes. Particular emphasis will be placed on understanding the physiological mechanisms through which inspiratory muscle training may improve exercise performance. These mechanisms include changes in respiratory muscle function, ventilatory efficiency, muscle oxygenation, autonomic balance, arterial stiffness, and symptom burden.

This investigation is expected to generate novel evidence regarding the clinical utility of tapered flow resistive loading in heart failure and provide important information for optimizing inspiratory muscle training prescription. By comparing two distinct inspiratory training modalities and examining responses in both reduced and preserved ejection fraction phenotypes, the study seeks to advance the personalization of cardiovascular rehabilitation strategies.

The results may contribute to future clinical practice recommendations by identifying more effective respiratory rehabilitation approaches capable of improving exercise tolerance, reducing dyspnea, enhancing quality of life, and potentially improving long-term cardiovascular outcomes in individuals living with heart failure.

Undersøgelsestype

Interventionel

Tilmelding (Anslået)

108

Fase

  • Ikke anvendelig

Kontakter og lokationer

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Studiekontakt

Undersøgelse Kontakt Backup

  • Navn: Alvaro R Reyes, Doctor of Philosophy
  • Telefonnummer: +56994339083
  • E-mail: alvaro.reyes@unab.cl

Studiesteder

    • Valparaiso
      • Viña del Mar, Valparaiso, Chile, 2372067
        • Centro de Salud Sports Medicina Deportiva
        • Kontakt:
        • Kontakt:

Deltagelseskriterier

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Berettigelseskriterier

Aldre berettiget til at studere

  • Voksen
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Beskrivelse

Inclusion Criteria:

  • History of symptomatic heart failure (NYHA functional class I and III).
  • Participants able to understand and respond to the instructions given in the study
  • Participants with stable disease at the moment of inclusion in this study.
  • Unaltered dose and type of medication up to three months before the start of the study

Exclusion Criteria:

  • Participants unable to perform a valid baseline cardiopulmonary exercise test.
  • Participants with unstable angina, acute myocardial infarction, and/or heart surgery within the past three months.
  • Participants with other concomitant cardiac or neurological disease.
  • Participants with difficulties in maintaining a proper mouth seal or unable to avoid air leakage during pulmonary function testing.
  • Participants in other non-pharmacological study will be also excluded.
  • Current smokers.
  • Cardiac acute decompensation.

Studieplan

Dette afsnit indeholder detaljer om studieplanen, herunder hvordan undersøgelsen er designet, og hvad undersøgelsen måler.

Hvordan er undersøgelsen tilrettelagt?

Design detaljer

  • Primært formål: Behandling
  • Tildeling: Randomiseret
  • Interventionel model: Parallel tildeling
  • Maskning: Tredobbelt

Våben og indgreb

Deltagergruppe / Arm
Intervention / Behandling
Eksperimentel: Tapered flow resistive load (TFRL)
This group will perform an inspiratory muscle training using a flow resistive loading device (POWER Breathe KH2) and they will be instructed to perform each inspiratory effort from functional residual capacity
The resistance pressure of the Tapered Resistive Load Device (POWER Breathe KH2) will be set at 60% of each participant's maximum inspiratory pressure measured at baseline. Re-evaluations of peak inspiratory pressure in both exercise groups will be carried out every 2 weeks to perform load progression. The training protocol has 6 levels depending on the rest period. The first level has 60 second rest periods and from the second level through the sixth level, the rest period will be reduced to 45, 30, 15, 10, and 5 seconds. All participants in all groups will perform 6 inspiratory efforts at each level. In total, each participant will perform 36 inspiratory efforts (6 levels x 6 efforts = 36 total efforts). Training sessions will be supervised and performed three times a week for 8 weeks.
The concurrent training program will include aerobic and resistance exercise. Aerobic training will begin after a 5-minute warm-up at low to moderate intensity. This will be followed by 40 minutes of aerobic exercise at the anaerobic threshold (AT) power (PO) obtained from a cardiopulmonary exercise test. Each session will include 8 intervals of 3 minutes (110-120% of AT-PO) and 8 intervals of 2 minutes of active recovery (70-80% of AT-PO). Training intensity increased by 10% each week while maintaining a Borg scale rating of 13-14, provided that no abnormal cardiovascular or electrocardiographic signs or symptoms were observed. Resistance training will be conducted in 10-minute sessions with at least 6 different exercises using between 40% and 50% of one-repetition maximum (1RM). The 1RM will be calculated using Brzycki's submaximal repetition formula (Weight/(1.0278 - (0.0278*Reps)). Subsequently, 5 minutes of stretching will be performed as a cool-down.
Eksperimentel: Threshold load (TL)
This group will perform inspiratory muscle training using a pressure threshold loading device (POWER Breathe Plus Medic) and they will be instructed to perform each inspiratory effort from functional residual capacity
The concurrent training program will include aerobic and resistance exercise. Aerobic training will begin after a 5-minute warm-up at low to moderate intensity. This will be followed by 40 minutes of aerobic exercise at the anaerobic threshold (AT) power (PO) obtained from a cardiopulmonary exercise test. Each session will include 8 intervals of 3 minutes (110-120% of AT-PO) and 8 intervals of 2 minutes of active recovery (70-80% of AT-PO). Training intensity increased by 10% each week while maintaining a Borg scale rating of 13-14, provided that no abnormal cardiovascular or electrocardiographic signs or symptoms were observed. Resistance training will be conducted in 10-minute sessions with at least 6 different exercises using between 40% and 50% of one-repetition maximum (1RM). The 1RM will be calculated using Brzycki's submaximal repetition formula (Weight/(1.0278 - (0.0278*Reps)). Subsequently, 5 minutes of stretching will be performed as a cool-down.
The resistance pressure of the threshold device (POWER Breathe Plus Medic) will be set at 60% of each participant's maximum inspiratory pressure measured at baseline. Re-evaluations of peak inspiratory pressure in both exercise groups will be carried out every 2 weeks to perform load progression. The training protocol has 6 levels depending on the rest period. The first level has 60 second rest periods and from the second level through the sixth level, the rest period will be reduced to 45, 30, 15, 10, and 5 seconds. All participants in all groups will perform 6 inspiratory efforts at each level. In total, each participant will perform 36 inspiratory efforts (6 levels x 6 efforts = 36 total efforts). Training sessions will be supervised and performed three times a week for 8 weeks.
Aktiv komparator: Control Group (CG)
This group will receive a Usual Care program, i.e., only cardiac rehabilitation with whole exercise
The concurrent training program will include aerobic and resistance exercise. Aerobic training will begin after a 5-minute warm-up at low to moderate intensity. This will be followed by 40 minutes of aerobic exercise at the anaerobic threshold (AT) power (PO) obtained from a cardiopulmonary exercise test. Each session will include 8 intervals of 3 minutes (110-120% of AT-PO) and 8 intervals of 2 minutes of active recovery (70-80% of AT-PO). Training intensity increased by 10% each week while maintaining a Borg scale rating of 13-14, provided that no abnormal cardiovascular or electrocardiographic signs or symptoms were observed. Resistance training will be conducted in 10-minute sessions with at least 6 different exercises using between 40% and 50% of one-repetition maximum (1RM). The 1RM will be calculated using Brzycki's submaximal repetition formula (Weight/(1.0278 - (0.0278*Reps)). Subsequently, 5 minutes of stretching will be performed as a cool-down.

Hvad måler undersøgelsen?

Primære resultatmål

Resultatmål
Foranstaltningsbeskrivelse
Tidsramme
Exercise capacity
Tidsramme: From enrollment to the end of treatment at 8 weeks
Improve cardiorespiratory capacity assessed peak oxygen uptake (VO2peak)
From enrollment to the end of treatment at 8 weeks
Maximal inspiratory muscle strength
Tidsramme: From enrollment to the end of treatment at 8 weeks
Improve maximal inspiratory pressure which implies an increase in the values measured in millimeters of mercury (mmHg).
From enrollment to the end of treatment at 8 weeks
Arterial stiffness
Tidsramme: From enrollment to the end of treatment at 8 weeks
Decrease in pulse wave velocity measured using a Holter blood pressure monitor.
From enrollment to the end of treatment at 8 weeks

Sekundære resultatmål

Resultatmål
Foranstaltningsbeskrivelse
Tidsramme
Health related quality of life
Tidsramme: From enrollment to the end of treatment at 8 weeks
Health related quality of life will be measured using the Minnesota Living with Heart Failure Questionnaire (MLHFQ) in its valid version in Spanish. Clinically significant improvement: It is generally accepted that a reduction of at least 5 points in the overall score represents a noticeable and beneficial change for the patient.
From enrollment to the end of treatment at 8 weeks

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Publikationer og nyttige links

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Datoer for undersøgelser

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Studer store datoer

Studiestart (Anslået)

1. juni 2026

Primær færdiggørelse (Anslået)

1. maj 2028

Studieafslutning (Anslået)

1. juli 2028

Datoer for studieregistrering

Først indsendt

22. juni 2026

Først indsendt, der opfyldte QC-kriterier

22. juni 2026

Først opslået (Faktiske)

26. juni 2026

Opdateringer af undersøgelsesjournaler

Sidste opdatering sendt (Faktiske)

26. juni 2026

Sidste opdatering indsendt, der opfyldte kvalitetskontrolkriterier

22. juni 2026

Sidst verificeret

1. juni 2026

Mere information

Begreber relateret til denne undersøgelse

Yderligere relevante MeSH-vilkår

Andre undersøgelses-id-numre

  • 033/2026
  • 11261229 (Andet bevillings-/finansieringsnummer: Agencia Nacional de Investigación y Desarrollo del Ministerio de Ciencia, Tecnología, Conocimiento e Innovación, Chile)

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