Effects of Nasal Ventilation on Cerebral and Pulmonary Function in Orally Intubated Patients — VENTINA  

Hypoxemic Acute Respiratory Failure Clinical Trial

Official title: Effects of Nasal Ventilation on Cerebral and Pulmonary Function in Orally Intubated Patients

Status Not yet recruiting

Clinical Trial Summary

The passage of air through the nasal cavity generates rhythmic oscillations transmitted by the olfactory bulb to the brain, which induces cerebral activation in functional areas and is associated with better cognitive performance compared to oral breathing. Consequently, the abolition of nasal ventilation in patients intubated via the orotracheal route could have deleterious effects on brain activity. Besides the loss of olfaction, the abolition of nasal ventilation could affect brain activity and respiratory control, consequently altering regional pulmonary ventilation.

The hypothesis of the study is that nasal ventilation through the passage of humidified nasal airflow in patients intubated via the orotracheal route would be associated with modulation of cerebral electrical activity and tissue oxygenation and a modification of regional pulmonary ventilation.

Clinical Trial Description

The effects of nasal ventilation on cerebral activity will be studied on orally intubated and sedated patients in six experimental conditions. The first condition consists of nociceptive stimulation of the left upper limb as a negative control. In three conditions, the inspired fraction of oxygen (FiO2) will remain at 21% while applying three different rates of humidified nasal air at 0L/min, 30L/min and 60L/min respectively. The last two conditions consist of applying humidified nasal air at 30L/min and 60L/min with a FiO2 of 100%. The primary objective of this study is to evaluate the effects of high-flow humidified nasal air on electroencephalogram activity (root mean square gamma frequency) in sedated, orally intubated patients. The secondary objectives of the study are to evaluate the effects of high-flow humidified nasal air on cerebral perfusion and oxygenation, gas exchange and regional pulmonary ventilation in the same patients. ;

Related Conditions & MeSH terms

• Hypoxemic Acute Respiratory Failure
• Respiratory Insufficiency

• NCT number: NCT06438302
• Study type: Observational
• Source: Assistance Publique - Hôpitaux de Paris
• Contact: Martin Dres
• Phone: 0142167809
• Email: martin.dres@aphp.fr
• Status: Not yet recruiting
• Start date: June 21, 2024
• Completion date: June 22, 2025