CI

At a glance

ClinicalIndex Comparison Record
N/ACompleted· 81 enrolled
Drug / intervention
nitrous oxideprocedure
Likely dose
Not stated in record
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Standardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.

Search/NCT04302350
NCT04302350N/ACompleted

Nitrous Oxide for Identifying the Intersegmental Plane in Segmentectomy: A Randomized Controlled Trial

The First Affiliated Hospital with Nanjing Medical University·interventional·Posted Mar 10, 2020·Updated Mar 2, 2023

In Brief

A clinical study evaluating nitrous oxide for Pulmonary Nodule, Solitary and 2 related conditions. Completed, enrolled 81 participants across 2 sites.

Detailed Summary

Lung cancer is currently one of the most common malignant tumors in the world. In recent years, with the popularity of high-resolution CT, more and more early-stage lung cancers have been found. Anatomic pneumonectomy is gradually popular because it can completely remove lung nodules and preserve lung function to the greatest extent. During the surgery, the precise and rapid determination of intersegmental border is one of the key technologies. Improved inflation-deflation method is currently the most widely used method in clinical practice. Previous studies demonstrated that increasing the concentration of nitrous oxide in mixtures of N2O/O2 will lead to a faster rate of collapse. The rapid diffusion properties of N2O would be expected to speed lung collapse and so facilitate surgery. This study was designed to explore three types of inspired gas mixture used during two-lung anesthesia had an effect on the intersegmental border appearance time during pneumonectomy and its feasibility and safety: 75% N2O (O2: N2O = 1: 3), 50% N2O (O2: N2O = 1: 1), 100% oxygen.

Study Details

Study Typeinterventional
Allocation--
Masking--
Primary Purpose--
CountriesChina
Collaborators--

Timeline

N/ACompletedFinished
2020202120222023202420252026
First PostedMar 10, 2020
Enrollment StartJan 15, 2020
Primary CompletionJul 15, 2020
TodayJul 2, 2026
Enrollment to primary: 6 monthsPosted 6.3 years ago

Interventions

nitrous oxideprocedure

During one-lung ventilation with an open chest, the nonventilated lung collapses initially due to elastic recoil, which quickly brings the lung down to its closing capacity. Remaining gas in the lung is then removed by absorption into the pulmonary capillary blood. The rapid diffusion properties of N2O(Blood gas distribution coefficient is 0.47)would be expected to speed lung collapse and so facilitate surgery. The previous study suggested that increasing the concentration of N2O in mixtures of N2O/O2 will lead to a faster rate of collapse. When using nitrous oxide in oxygen during lung ventilation, ongoing oxygen uptake by blood shunting will serve to increase the partial pressure of nitrous oxide in parts of the lung that are still expanded. This will soon result in a partial pressure gradient for nitrous oxide uptake also, with a consequent faster rate of lung collapse than would occur in a patient being ventilated with 100% oxygen.