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UnknownNCT04175379

The Effect of Permissive Hypercapnia on Oxygenation and Post-operative Pulmonary Complication During One-lung Ventilation

The Effect of Permissive Hypercapnia on Oxygenation and Post-operative Pulmonary Complication During One-lung Ventilation : Prospective, Randomized Controlled Study

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
279 (estimated)
Sponsor
Yonsei University · Academic / Other
Sex
All
Age
40 Years – 80 Years
Healthy volunteers
Accepted

Summary

Permissive hypercapnia increased the survival rate in patients with acute respiratory distress syndrome (ARDS) who required mechanical ventilation in critical care medicine. This has been explained by its association with ventilator induced lung injury. Since then, a protective lung ventilation strategy has been very important, with a low tidal volume of 4-6 ml/kg. Patients undergoing surgery will inevitably require mechanical ventilation. In particular, patients undergoing one lung ventilation for thoracic surgery may have increased airway pressure and a greater chance of ventilator induced lung injury. Recently, protective lung ventilation has been applied to patients undergoing one ung ventilation during thoracic surgery. The purpose of this study is to evaluate the difference in the degree of pulmonary oxygenation and the incidence of postoperative pulmonary complications in hypercapnia induced by controlling the respiratory rate with a constant tidal volume.

Conditions

Interventions

TypeNameDescription
OTHERgroup 40During surgery, the TV(tidal volume) should maintain 6ml/kg (ideal body weight). After position change and OLV(one lung ventilation) for operation, each patient adjusts RR(respiratory rate) to reach target PaCO2 40 ± 5mmHg. Hemodynamic records and arterial blood tests are performed at the following times: After tracheal intubation, 15 minutes after in two lung ventilatory state at the supine position (T0), after 30 minutes reaching to the target PaCO2 by adjusting RR at the lateral position starting one lung ventilation (T1), and after 60 minutes while maintaining target PaCO2 (T2).
OTHERgroup 50During surgery, the TV(tidal volume) should maintain 6ml/kg (ideal body weight). After position change and OLV(one lung ventilation) for operation, each patient adjusts RR(respiratory rate) to reach target PaCO2 50 ± 5mmHg. Hemodynamic records and arterial blood tests are performed at the following times: After tracheal intubation, 15 minutes after in two lung ventilatory state at the supine position (T0), after 30 minutes reaching to the target PaCO2 by adjusting RR at the lateral position starting one lung ventilation (T1), and after 60 minutes while maintaining target PaCO2 (T2).
OTHERgroup 60During surgery, the TV(tidal volume) should maintain 6ml/kg (ideal body weight). After position change and OLV(one lung ventilation) for operation, each patient adjusts RR(respiratory rate) to reach target PaCO2 60 ± 5mmHg. Hemodynamic records and arterial blood tests are performed at the following times: After tracheal intubation, 15 minutes after in two lung ventilatory state at the supine position (T0), after 30 minutes reaching to the target PaCO2 by adjusting RR at the lateral position starting one lung ventilation (T1), and after 60 minutes while maintaining target PaCO2 (T2).

Timeline

Start date
2019-11-25
Primary completion
2021-08-01
Completion
2021-10-01
First posted
2019-11-25
Last updated
2020-01-02

Locations

1 site across 1 country: South Korea

Source: ClinicalTrials.gov record NCT04175379. Inclusion in this directory is not an endorsement.