Acute Effects of Inspiratory Muscle Training at Different Intensities in Healthy People

Not Applicable

Completed

• Conditions: Healthy
• Interventions: Other: Diaphragmatic breathing; Device: Inspiratory muscle training

• Registration Number: NCT03788356
• Lead Sponsor: Dokuz Eylul University

Brief Summary

At least 30 volunteers will be included in the study. After questioning the demographic and clinical information of the participants, dyspnea perception, respiratory functions, respiratory muscle strength, heart rate variability, arterial stiffness, and blood pressure and physical activity levels will be evaluated. Inspiratory muscle training will be done for 15 minutes with an electronic device. Respiratory training will be applied at three different concentrations with 10%, 30% and 60% of maximal inspiratory pressure. Heart rate variability, arterial stiffness, and blood pressure measurements will be repeated after inspiratory muscle training sessions at different intensities.

Detailed Description

Cardiovascular diseases are the leading cause of mortality in developed and developing countries and constitute a significant morbidity burden for life. Cardiovascular diseases risk factors include obesity, lipid profile, unhealthy diet, sedentary lifestyle, high blood pressure, increased arteriosclerosis.

Although aerobic exercise is recommended as exercise modality to reduce cardiovascular risk, the effects of resistant exercise on cardiovascular health are not clear. In addition, regular aerobic and resistant exercise regulate cardiac autonomic function.

Inspiratory muscle training is a time-efficient, well-tolerated and safe approach for both healthy people and people with chronic diseases. Long-term inspiratory muscle training has been shown to increase respiratory muscle strength and decrease blood pressure in healthy individuals. One-session inspiratory muscle training has been shown to improve autonomic function in smokers and older individuals. However, the effects of different intensities of inspiratory muscle training on blood pressure, autonomic function, and arterial stiffness in healthy young people are not fully understood. For these reasons, the aim of the study is to investigate the acute effects of inspiratory muscle training at different intensities in healthy people.

At least 30 volunteers will be included in the study. After questioning the demographic and clinical information of the participants, dyspnea perception, respiratory functions, respiratory muscle strength, heart rate variability, arterial stiffness, and blood pressure and physical activity levels will be evaluated. Inspiratory muscle training will be done for 15 minutes with an electronic device. Respiratory training will be applied at three different concentrations with 10%, 30% and 60% of maximal inspiratory pressure. Heart rate variability, arterial stiffness, and blood pressure measurements will be repeated after inspiratory muscle training sessions at different intensities.

Study Timeline

• Study First Submitted: 2018-12-18
• Study First Submitted QC: 2018-12-25
• Study First Posted: 2018-12-27
• Study Start: 2019-01-02
• Status Verified: 2019-04
• Primary Completion: 2019-04-04
• Study Completion: 2019-04-04
• Last Update Submitted: 2019-04-04
• Last Update Posted: 2019-04-08

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 36

Inclusion Criteria

• Healthy People

Exclusion Criteria

• Body mass index (BMI) > 30 kg/m²
• Smoking
• The presence of exercise habit
• Medication use
• Neurological, cardiovascular or respiratory disorders

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Diaphragmatic breathing	Diaphragmatic breathing	Diaphragmatic breathing exercise for 15 minutes.
10% inspiratory muscle training	Inspiratory muscle training	Inspiratory muscle training at 10% intensity of maximal inspiratory pressure for 15 minutes
30% inspiratory muscle training	Inspiratory muscle training	Inspiratory muscle training at 30% intensity of maximal inspiratory pressure for 15 minutes
60% inspiratory muscle training	Inspiratory muscle training	Inspiratory muscle training at 60% intensity of maximal inspiratory pressure for 15 minutes

Primary Outcome Measures

Name	Time	Method
Heart Rate	Change from Baseline at 15 minutes	The heart rate is the number of beats per minute of the heart. It represents both sympathetic and parasympathetic system activity. increased heart rate indicates that the sympathetic activity is dominant, while decreased heart rate indicates that parasympathetic activity is dominant.
Augmentation Index	Change from Baseline at 15 minutes	Augmentation index is commonly used noninvasive measurements of wave reflection strength. To assess augmentation index, brachial artery compression waveforms were obtained by partially inflating a cuff over the brachial artery approximately midway between the shoulder and the elbow. The brachial waveforms were calibrated using cuff-measured brachial systolic and diastolic pressures, and then used to generate central aortic pressure waveforms by applying proprietary digital signal processing and transfer function. The central aortic pulse wave was used to determine augmentation index. High values represent abnormal wave reflection strength.
Aortic Pulse Wave Velocity	Change from Baseline at 15 minutes	Aortic pulse wave velocity is commonly used noninvasive measurements of arterial stiffness. To assess aortic pulse wave velocity, carotid pulse waves were measured by applanation tonometry and femoral pulse waves were simultaneously obtained by a partially inflated cuff over the femoral artery at the leg midway between the hip and the knee. Aortic pulse wave velocity was determined by calculating the ratio of the corrected distance between the pulse measuring sites to the time delay between the carotid and femoral pulse waves. High values represent increased arterial stiffness.
Square Root of The Mean Squared Difference of Successive Normal to Normal R-R Intervals	Change from Baseline at 15 minutes	Square Root of The Mean Squared Difference of Successive Normal to Normal R-R Intervals is one of the time domain methods of heart rate variability. It represents a primarily parasympathetic activity or vagal modulation. Low values indicate decreased parasympathetic activity. High values indicate increased parasympathetic activity.

Secondary Outcome Measures

Name	Time	Method
Maximal inspiratory pressure	At Baseline	Assessment of maximal inspiratory pressure with an electronic mouth pressure device (Micro; Micro Medical Ltd., Rochester, UK). Higher values indicate stronger inspiratory muscle strength.
Maximal expiratory pressure	At Baseline	Assessment of maximal expiratory pressure with an electronic mouth pressure device (Micro; Micro Medical Ltd., Rochester, UK). Higher values indicate stronger expiratory muscle strength.
Blood pressure	Change from Baseline at 15 minutes	Brachial and central systolic and diastolic blood pressure. High Brachial and central systolic and diastolic blood pressure are associated with higher risk of heart attacks and strokes, even in people with normal cuff Blood pressure.
Forced vital capacity	At Baseline	Forced vital capacity is defined as the amount of air that can be forcibly exhaled from the lungs after taking the deepest breath possible.
Vital capacity	At Baseline	The vital capacity is the volume of air a subject is able to expire after a maximal inspiration to the total lung capacity.
Forced expiratory volume in 1 second	At Baseline	The volume of air expired in the first second of expiration or forced expiratory volume in 1 second, especially when expressed as a ratio with the total amount of air expired during the forced vital capacity, is a good index of expiratory airways resistance.
International Physical Activity Questionnaire	At Baseline	The International Physical Activity Questionnaire short-form measures physical activity. The International Physical Activity Questionnaire short-form occurs 7 items. The higher values indicate better physical activity level. The minimum score of scale was 0, and maximum score is depend on patients activity and there is no maximum score.
Fatigue level	Change from Baseline at 15 minutes	Fatigue level after the training will be questioned with a 100-mm visual analog scale, minimum 0 to maximum 100. Higher scores indicate higher fatigue levels.
Dyspnea level	Change from Baseline at 15 minutes	Dyspnea level after the training will be questioned with the modified Borg Scale. Minimum value is 0 (no dyspnea), and maximum value is 10 (maximal dyspnea) Higher scores indicate higher fatigue levels.
Percentage Of Successive N-N Intervals With A Difference of Duration Longer Than 50 ms	Change from Baseline at 15 minutes	Square Root of The Mean Squared Difference of Successive Normal to Normal R-R Intervals is one of the time domain methods of heart rate variability. It represents parasympathetic activity. Low values indicate decreased parasympathetic activity. High values indicate increased parasympathetic activity.
Low Frequency Power	Change from Baseline at 15 minutes	Low Frequency is one of the frequency domain methods of heart rate variability. Spectral power analysis is performed on a series of R-R intervals which separates the heart rate spectrum into various components and allows the quantification of sympathetic and vagal influences on the heart. Low Frequency range is 0.04-0.15 Hz. Low frequency band represents both sympathetic and parasympathetic modulation.
High Frequency Power	Change from Baseline at 15 minutes	High Frequency is one of the frequency domain methods of heart rate variability. Spectral power analysis is performed on a series of R-R intervals which separates the heart rate spectrum into various components and allows the quantification of sympathetic and vagal influences on the heart. High Frequency range is 0.15-0.4 Hz. High Frequency band represents parasympathetic modulation. Low values indicate decreased parasympathetic activity. High values indicate increased parasympathetic activity.
Low Frequency/High Frequency ratio	Change from Baseline at 15 minutes	Low Frequency/High Frequency ratio is one of the frequency domain methods of heart rate variability. Low Frequency/High Frequency ratio is a index of sympathovagal balance. Increased ratio indicates that the sympathetic activity is dominant, while decreased ratio indicates that parasympathetic activity is dominant.
Total Power	Change from Baseline at 15 minutes	Total Power is one of the frequency domain methods of heart rate variability. It shows general change of autonomic modulation. Low values indicate decreased autonomic modulation. High values indicate increased autonomic modulation.
Pulse Transit Time	Change from Baseline at 15 minutes	Pulse transit time is the time that takes the pulse pressure wave to travel through the arterial tree. Decreased pulse transit time shows increased wave velocity on the vessels.
Standard Deviation of Normal to Normal R-R Intervals	Change from Baseline at 15 minutes	Standard Deviation of Normal to Normal R-R Intervals is one of the time domain methods of heart rate variability. Time Domain Analysis measures the change in heart rate over time or the intervals between successive normal cardiac cycles.It assesses globally heart rate variability. Low values indicate decreased heart rate variability. High values indicate increased heart rate variability.

Trial Locations

Locations (1)

Dokuz Eylül University; 🇹🇷 Izmir, Turkey