Expiratory Pressure in Healthy Individuals

Respiratory Physiology Clinical Trial

Official title: Determining Factors of the Maximal Expiratory Pressure in Healthy Individuals: Influence of the Mouthpiece Configuration

Status Not yet recruiting

Clinical Trial Summary

The present study aims at enhancing our understanding of the influence of the mouthpiece configuration on the amplitude of oral pressures generated during a maximum expiratory pressure maneuver and on the neuromuscular recruitment of expiratory muscles (more specifically of the internal oblique and the transverse abdominal muscles).

Incidentally, it also aims at clarifying the role of orofacial muscles, if any, in the neuromuscular recruitment of the aforementioned muscles.

Clinical Trial Description

Enhancing our understanding of the influence of the mouthpiece configuration on oral pressures and on the neuromuscular recruitment of the internal oblique and the transverse abdominal muscles during a maximum expiratory pressure (MEP) maneuver is the primary goal of this study

Maximal Respiratory Mouth Pressures (MIP and MEP):

Maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) are commonly used indices to assess respiratory muscle strength at the mouth.

MIP measures the strength of inspiratory muscles, while MEP assesses expiratory muscle strength.

These measurements are simple, convenient, and noninvasive. However, clear standards for these measurements are not well-established.

Choice of Mouthpiece:

We propose exploring different mouthpiece designs to know their impact on pressure measurements.

Influence of Mouthpiece Design:

The type of mouthpiece used can affect pressure measurements. Some investigators recommend including a small leak in the measuring circuit to dissipate pressure generated in the mouth and minimize measurement errors.

However, specific studies focusing on the influence of mouthpiece design on MEP and neuromuscular recruitment of expiratory muscles (such as the internal oblique and transverse muscles) during MEP maneuvers would be valuable.

Additional Considerations:

Factors like body position (sitting vs. half-lying) may also impact pressure measurements, although no significant differences were found in one study.

Among the objectives of our study, we aim at exploring ways to improve the accuracy and reliability of respiratory pressure measurements.

In summary, understanding the impact of mouthpiece design on oral pressures during MEP maneuvers is essential for accurate assessment of respiratory muscle function. Further research in this area could provide valuable insights for clinical practice and pulmonary function laboratories. ;

Related Conditions & MeSH terms

• Respiratory Physiology

• NCT number: NCT06435793
• Study type: Interventional
• Source: Laboratory of Movement, Condorcet, Tournai, Belgium
• Contact: Eliot Rudy Mbolo Ebubu (MD, PhD candidate)
• Phone: 0032485114738
• Email: 535678@umons.ac.be
• Status: Not yet recruiting
• Phase: N/A
• Start date: September 18, 2024
• Completion date: September 18, 2025