The ideal tidal volume (TV) during one-lung ventilation (OLV) remains controversial. High tidal volumes may increase the incidence of postoperative lung injury after thoracic surgery. The investigators thus evaluated the influence of low (5 ml/kg) and high (10 ml/kg) tidal volumes on arterial oxygenation and Intrapulmonary shunt during OLV. One hundred patients scheduled for thoracic surgery were enrolled. During OLV, patients were randomly assigned to 30 minutes of ventilation with high TV (10 ml/kg with zero end-expiratory pressure (ZEEP)) at a rate of 10 breaths/minute or low tidal volume (5 ml/kg with 5 cm H2O positive end-expiratory pressure (PEEP)) at a rate of 20 breaths/minute. During the subsequent 30 minutes, each patient received the alternative management. Minute volume was thus kept constant during each experimental condition. Arterial blood partial pressures, hemodynamic responses, and ventilatory parameters were recorded. Results are presented as means ± SDs; P \< 0.05 was considered statistically significant.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
100
One-lung ventilation was started at skin incision using a volume-controlled square-wave flow pattern. Patients were randomly assigned to 30 minutes of ventilation with a tidal volume of 10 ml/kg tidal volume without external PEEP and respiratory rate of 10 breaths/minute (n=50) or to a tidal volume of 5 ml/kg with 5 cmH2O PEEP and a respiratory rate of 20 breaths/minute (n=50). Minute volume was thus kept constant during each experimental condition. Randomization was based on computer-generated codes that were maintained in sequentially numbered sealed opaque envelopes until after induction of anesthesia. During the subsequent 30 minutes of one-lung ventilation, the alternative ventilatory management was used.
One-lung ventilation was started at skin incision using a volume-controlled square-wave flow pattern. Patients were randomly assigned to 30 minutes of ventilation with a tidal volume of 10 ml/kg tidal volume without external PEEP and respiratory rate of 10 breaths/minute (n=50) or to a tidal volume of 5 ml/kg with 5 cmH2O PEEP and a respiratory rate of 20 breaths/minute (n=50). Minute volume was thus kept constant during each experimental condition. Randomization was based on computer-generated codes that were maintained in sequentially numbered sealed opaque envelopes until after induction of anesthesia. During the subsequent 30 minutes of one-lung ventilation, the alternative ventilatory management was used.
University of Debrecen, Medical and Health Science CenterDepartment of Anesthesiology and Intensive Care
Debrecen, Hungary
low (5ml/kg) tidal volume on arterial oxygenation
Evaluate the influence of low (5 ml/kg) and high (10 ml/kg) tidal volumes on arterial oxygenation and Intrapulmonary shunt during one lung ventilation.
Time frame: 30 minutes of ventillation
high (10 ml/kg) tidal volumes on arterial oxygenation
Evaluate the influence of low (5 ml/kg) and high (10 ml/kg) tidal volumes on arterial oxygenation and Intrapulmonary shunt during one lung ventilation.
Time frame: 30 minutes of ventillation
low (5 ml/kg)tidal volumes on Intrapulmonary shunt
Evaluate the influence of low (5 ml/kg) and high (10 ml/kg) tidal volumes on arterial oxygenation and Intrapulmonary shunt during one lung ventilation.
Time frame: 30 minutes of ventillation
high (10 ml/kg) tidal volumes on Intrapulmonary shunt
Evaluate the influence of low (5 ml/kg) and high (10 ml/kg) tidal volumes on arterial oxygenation and Intrapulmonary shunt during one lung ventilation.
Time frame: 30 minutes of ventillation
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.