Ignite Creation Date:
2025-12-24 @ 10:32 PM
Ignite Modification Date:
2025-12-30 @ 2:59 PM
Study NCT ID:
NCT06952335
Status:
NOT_YET_RECRUITING
Last Update Posted:
2025-04-30
First Post:
2025-04-22
Is NOT Gene Therapy:
True
Has Adverse Events:
False
Brief Title:
The Impact Of Respiratory Neuromuscular Stimulation On Patients With Invasive Mechanical Ventilation
Sponsor:
Capital Medical University
Organization:
Study Overview
Official Title:
The Impact Of Respiratory Neuromuscular Stimulation On Patients With Invasive Mechanical Ventilation: A Prospective Randomized Crossover Physiological Study
Status:
NOT_YET_RECRUITING
Status Verified Date:
2024-08
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
None
Brief Summary:
Mechanical ventilation (MV) is an important treatment measure for critically ill patients in the intensive care unit (ICU). MV is widely used in the treatment of respiratory failure and is also one of the important means of life support for critically ill patients after surgery. Although the use of MV has significantly reduced the mortality rate of critically ill patients, MV is also a double-edged sword. A large amount of evidence shows that it can lead to complications such as ventilator-induced diaphragmatic dysfunction (VIDD) . In a retrospective study, it was first found and proposed that long-term MV can lead to diaphragmatic atrophy. Later, a prospective clinical study conducted by Le Bourdelles et al. provided direct evidence to support this conjecture. Continuous use of mechanical ventilation for 48 hours can cause diaphragmatic atrophy and contractile dysfunction. Therefore, effectively preventing diaphragmatic atrophy is of great significance for the outcome of patients with mechanical ventilation.
Respiratory NMES has been used in clinical practice for decades. Previous studies have shown that electrical stimulation of a certain intensity applied to the respiratory neuromuscular can increase the excitability of the phrenic nerve, enhance diaphragmatic contraction, increase the range of diaphragmatic movement, and improve lung ventilation. In addition to the diaphragm, the abdominal muscles are also an important part of the respiratory muscles and an important supplement to the inspiratory muscles. Studies have shown that electrical stimulation of the abdominal muscles can retrain the expiratory muscles, increase muscle strength, induce expiratory muscle contraction through repeated afferent stimulation of the abdominal muscles, increase intra-abdominal pressure, facilitate the upward movement of the diaphragm, reduce thoracic pressure and lung volume, and thus improve the ability of expiration and expectoration. Electrical stimulation of the abdominal muscles has received increasing attention as a supplement to inspiratory muscle training, and many foreign literatures have reported on the improvement of respiratory function by abdominal muscle stimulation. At present, some domestic scholars have also reported that simultaneous stimulation of the phrenic nerve and abdominal muscles can improve the quality of life and prognosis of patients. However, there are few studies on how simultaneous stimulation of the diaphragm and abdominal muscles can improve the physiological effect indicators of the respiratory system, especially the impact on respiratory drive and inspiratory effort. Animal model studies have shown that electrical stimulation of the phrenic nerve in rabbits can significantly reduce the central drive of the diaphragm and the conduction function of the phrenic nerve after diaphragmatic fatigue, and the reduction of central drive may be a self-protective mechanism of the body. An observational study abroad suggested that percutaneous diaphragmatic electrical stimulation can control WOB within four-fifths of the normal range 96.8% of the time. This study is dedicated to applying respiratory NMES to study the impact on the physiological parameters of patients with invasive mechanical ventilation, providing a theoretical basis for its clinical application in critically ill patients.
Respiratory NMES has been used in clinical practice for decades. Previous studies have shown that electrical stimulation of a certain intensity applied to the respiratory neuromuscular can increase the excitability of the phrenic nerve, enhance diaphragmatic contraction, increase the range of diaphragmatic movement, and improve lung ventilation. In addition to the diaphragm, the abdominal muscles are also an important part of the respiratory muscles and an important supplement to the inspiratory muscles. Studies have shown that electrical stimulation of the abdominal muscles can retrain the expiratory muscles, increase muscle strength, induce expiratory muscle contraction through repeated afferent stimulation of the abdominal muscles, increase intra-abdominal pressure, facilitate the upward movement of the diaphragm, reduce thoracic pressure and lung volume, and thus improve the ability of expiration and expectoration. Electrical stimulation of the abdominal muscles has received increasing attention as a supplement to inspiratory muscle training, and many foreign literatures have reported on the improvement of respiratory function by abdominal muscle stimulation. At present, some domestic scholars have also reported that simultaneous stimulation of the phrenic nerve and abdominal muscles can improve the quality of life and prognosis of patients. However, there are few studies on how simultaneous stimulation of the diaphragm and abdominal muscles can improve the physiological effect indicators of the respiratory system, especially the impact on respiratory drive and inspiratory effort. Animal model studies have shown that electrical stimulation of the phrenic nerve in rabbits can significantly reduce the central drive of the diaphragm and the conduction function of the phrenic nerve after diaphragmatic fatigue, and the reduction of central drive may be a self-protective mechanism of the body. An observational study abroad suggested that percutaneous diaphragmatic electrical stimulation can control WOB within four-fifths of the normal range 96.8% of the time. This study is dedicated to applying respiratory NMES to study the impact on the physiological parameters of patients with invasive mechanical ventilation, providing a theoretical basis for its clinical application in critically ill patients.
Detailed Description:
None
Study Oversight
Has Oversight DMC:
True
Is a FDA Regulated Drug?:
False
Is a FDA Regulated Device?:
False
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: