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Not Yet RecruitingNCT06805760

Ventilation Strategies Impact on Oxygenation and Postoperative Pulmonary Complications in Lung Surgery Patients

Ventilation Strategies Impact on Oxygenation and Postoperative Pulmonary Complications in Lung Surgery Patients: a Prospective, Randomized, Triple-Blind Trial

Status
Not Yet Recruiting
Phase
N/A
Study type
Interventional
Enrollment
120 (estimated)
Sponsor
Inner Mongolia Baogang Hospital · Academic / Other
Sex
All
Age
Healthy volunteers
Not accepted

Summary

The purpose of this clinical trial was to understand the effects of variable tidal volume ventilation (V-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume-controlled ventilation (C-VCV), pressure-controlled ventilation (PCV), and open surgery (Open Surgery). controlled ventilation (C-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume-controlled ventilation (C-VCV), and pressure-controlled ventilation (PCV) for open surgery, video-assisted thoracoscopic surgery, and segmental lung resection. VATS), segmentectomy (Segmentectomy), lobectomy (Lobectomy), and pneumonectomy (Pneumonectomy) on oxygen saturation and pulmonary complications, and length of hospitalization. The main question it aims to answer is: variable tidal volume ventilation (V-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume-controlled ventilation (C-VCV), and pressure-controlled ventilation (PCV).Does it decrease patient oxygen saturation, and does it increase pulmonary complications, length of hospitalization? Researchers compared variable tidal volume ventilation (V-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume-controlled ventilation (V-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume-controlled ventilation (C-VCV), and pressure-controlled ventilation (PCV) to compare them to see which mode of ventilation has the least physiologic disruption for the patient. Participants will: Select the appropriate surgical procedure according to the condition and be randomized to variable tidal volume ventilation (V-VCV), pressure-regulated volume-controlled ventilation (PRVC), conventional volume- controlled ventilation (C-VCV), pressure-controlled ventilation (PCV), and were checked after surgery. Patients' oxygen saturation, pulmonary complications, length of hospitalization were recorded

Conditions

Interventions

TypeNameDescription
OTHERvariable tidal volume ventilation (V-VCV)The initial tidal volume was set at 6-8 ml/kg IBW according to the Ideal Body Weight (IBW).The maximum tidal volume (Vt\_max) and minimum tidal volume (Vt\_min) were set at 10-20% of the basal tidal volume (Vt\_base). Respiratory Rate 12. Inspiratory Flow Rate (IFR) 60L/min, Inspiratory to Expiratory Ratio (IER) 1:2, Positive End-Expiratory Pressure (PEEP) 5cm water column, and Inhaled Oxygen Concentration (FiO2) 41%.
OTHERpressure-regulated volume-controlled ventilation (PRVC)The initial tidal volume was set at 6-8 ml/kg IBW according to the Ideal Body Weight (IBW), the upper limit of peak inspiratory pressure was 30 cmH2O, the maximum tidal volume (Vt\_max) and the minimum tidal volume (Vt\_min) was set at 10-20% of the base tidal volume (Vt\_base). Respiratory Rate is 12, Inspiration to Expiration Ratio is 1:2, Positive End-Expiratory Pressure (PEEP) is 5cmH2O, and Inhaled Oxygen Concentration (FiO2) is 98%.
OTHERconventional volume-controlled ventilation (C-VCV)The initial tidal volume was set at 6-8 ml/kg IBW according to the Ideal Body Weight (IBW).The maximum tidal volume (Vt\_max) and minimum tidal volume (Vt\_min) were set at 10-20% of the basal tidal volume (Vt\_base). Respiratory Rate 12. Inspiratory Flow Rate (IFR) 60L/min, Inspiratory to Expiratory Ratio (IER) 1:2, Positive End-Expiratory Pressure (PEEP) 5cm water column, and Inhaled Oxygen Concentration (FiO2) 98%.
OTHERpressure-controlled ventilation (PCV)The inspiratory pressure level is set, usually with an initial value of 20 cmH2O, a respiratory rate of 12, an inspiratory/expiratory ratio of 1:2, a positive end-expiratory pressure (PEEP) of 5 cm water column, and an inspired oxygen concentration (FiO2) of 98%.

Timeline

Start date
2025-02-01
Primary completion
2025-05-01
Completion
2025-05-10
First posted
2025-02-03
Last updated
2025-02-03

Locations

1 site across 1 country: China

Source: ClinicalTrials.gov record NCT06805760. Inclusion in this directory is not an endorsement.