Trials / Completed

CompletedNCT06118489

Effects of Different Anesthetic Gases on Hemodynamics, Arterial Oxygenation and Pulmonary Mechanics

Evaluation of the Effects of Different Anesthetic Gases on Hemodynamics, Arterial Oxygenation and Pulmonary Mechanics in Spinal Surgery.

Summary

The bronchodilator effects of volatile anesthetics have been the subject of many clinical studies. It is known that all volatile anesthetics, especially halothane, have similar effects. Sevoflurane has been shown to reduce airway resistance more than halothane and isoflurane. Desflurane is difficult to use as an induction agent due to its harsh and extremely pungent odor and airway irritating effect. However, it has been shown that the risk of cough, respiratory arrest and laryngospasm is no different from sevoflurane when administered after intravenous induction. Although it irritates the airway, it is thought to have a bronchodilation effect as it stimulates the sympathetic system. In spinal surgeries, prone position is required to access the operating field. When the patient is placed in the prone position, pulmonary physiology are affected. In the prone position, V/Q mismatch decreases and arterial oxygenation increases. However, lung compliance decreases and the peak inspiratory pressure required to reach the required tidal volume increases. The main purpose of this study is the effect of volatile agents on lung mechanics and oxygenisation in the prone position.

Conditions

• Oxygenation
• Spinal Surgery
• Sevoflurane
• Desflurane

Timeline

Start date

2023-12-01

Primary completion

2024-02-01

Completion

2024-02-01

First posted

2023-11-07

Last updated

2025-06-10

Locations

1 site across 1 country: Turkey (Türkiye)

Source: ClinicalTrials.gov record NCT06118489. Inclusion in this directory is not an endorsement.