Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

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Description Module

Ignite Creation Date: 2025-12-24 @ 3:01 PM
Ignite Modification Date: 2025-12-24 @ 3:01 PM
NCT ID: NCT07206459
Brief Summary: Diaphragm dysfunction (loss of diaphragm strength) is common in the intensive care unit (ICU) patients using ventilators. The diaphragm is the main muscle of respiration and its dysfunction can prolong mechanical ventilation and increase mortality risk. The ventilator settings determine how much air and pressure the patient gets every breath and how much air is left on the lungs after they breathe out. The amount of air left on the lungs influence diaphragm strength measurements which can affect clinical decisions, such as weaning patients off ventilators. This research aims to explore the relationship between the amount of air left in the lungs and diaphragm strength to create a method of correcting measurements of diaphragm strength according to how much air the patients have in the lungs after they breath out. The investigators will test healthy individuals to understand this relationship, then verify if it holds true for ventilated patients by comparing results from both groups.
Detailed Description: Our ultimate objective is to create a correction factor for adjusting values of diaphragm strength obtained from measurements of pressure generated by PNS performed at various EELV induced by different levels of PEEP. This correction factor will be derived from the slope of the relationship between PEEP/EELV and diaphragm strength. The initial development of the correction factor will be conducted in healthy individuals, and its applicability will be assessed in mechanically ventilated patients. To achieve this, the investigators will compare the relationship between PEEP/EELV and diaphragm strength, measured through PNS, between both healthy subjects and individuals undergoing mechanical ventilation. RESEARCH DESIGN AND METHODS This will be a physiological observational study Study design. Healthy participants and patients will breathe on CPAP with a ventilator. The investigators will deliver the PNS at PEEP levels of zero cmH2O (baseline EELV), zero cmH2O + an abdominal binder (to reduce lung volume), five cmH2O and ten cmH2O. The abdominal binder will be used to achieve an EELV lower than at baseline. At the end of the protocol another PNS at zero cmH2O (baseline EELV) will be performed. Healthy participants will be exposed to the different levels of PEEP from 2 to 5 minutes before each PNS is performed. At every PEEP level, relative changes in EELV (∆z) will be measured with Electrical Impedance Tomography (EIT) to record relative changes in EELV and the electrical activity of the costal diaphragm will be measured using surface electromyography . The (potentiated) PNS will be performed by bilateral anterior magnetic stimulation. Potentiation will be achieved by performing a maximum inspiratory pressure maneuver (MIP; healthy volunteers). For patients. The investigators will perform PNS at the patients own mode of ventilation at their clinical level of PEEP (baseline EELV), PEEP of zero cmH2O (if acceptable for 5 minutes), clinical PEEP ± 2 - 4 cmH2O. At the end of the protocol, another stimulation at the clinical level of PEEP (baseline EELV) will be performed. Patients will be exposed to the different levels of PEEP from 2 to 5 minutes before each PNS is performed. At every PEEP level, relative changes in EELV (∆z) will be measured with Electrical Impedance Tomography (EIT) to record relative changes in EELV and the electrical activity of the costal diaphragm will be measured using surface electromyography . The PNS will be performed by bilateral anterior magnetic stimulation. Potentiation, when possible (patients triggering the ventilator), will be achieved by performing an end-expiratory occlusion maneuver on the ventilator for up to 30 sec or at least 3 inspiratory efforts.
Study: NCT07206459
Study Brief:
Protocol Section: NCT07206459