Hypoxemia Clinical Trial
Official title:
Continuous Positive Airway Pressure for Treatment of Postoperative Hypoxemia in Liver Transplant
The purpose of this study is to determine the effectiveness of continuous positive airway
pressure compared to standard treatment in preventing the need for intubation and mechanical
ventilation in patients who develop acute hypoxemia after liver transplant.
Hypoxemia complicates the recovery of 30-50 % of patients after abdominal surgery;
endotracheal intubation and mechanical ventilation may be required in 8-10 % of cases
increasing morbidity and mortality and prolonging intensive care unit and hospital stay.
Recovery from abdominal surgery is usually fast and uncomplicated but postoperative
hypoxemia complicates 30-50 % of cases even in uneventful procedures (1). Although oxygen
administration and incentive spirometry are effective in treating the vast majority of
postoperative hypoxemia cases (2), respiratory failure may occur early in the postoperative
course (3) requiring endotracheal intubation and mechanical ventilation in 8-10 % of
patients thus increasing morbidity and mortality and prolonging intensive care unit and
hospital stay (1-4). Loss of functioning alveolar units has been recognized as the
underlying mechanism responsible for postoperative hypoxemia (5-7); pulmonary atelectasis
after abdominal surgery is, in fact, common, it may exceed 25 % of the total lung volume and
is seen several days after surgery (5-7).
Continuous positive airway pressure (CPAP) is a breathing mode where the patient
spontaneously breathes through a pressurized circuit against a threshold resistor that
maintains a preset positive airway pressure during both inspiration and expiration. Although
several studies have demonstrated the efficacy of CPAP to reduce atelectasis and improve
oxygenation in patients after abdominal surgery (8-11), no clinical trials have confirmed
that the improvement of gas exchange with CPAP actually results in a reduced need for
intubation and mechanical ventilation in patients who develop hypoxemia after abdominal
surgery (12). We conducted a multi-center, prospective, randomized clinical trial to compare
the efficacy of CPAP with standard oxygen therapy in the treatment of postoperative
hypoxemia. The present study set out to examine the hypothesis that early application of
CPAP may prevent intubation and mechanical ventilation in patients who develop acute
hypoxemia after liver transplant.
Concealed randomization was conducted centrally through a dedicated web site using a
computer-generated block randomization schedule.
Patients were randomized to be treated for six hours with oxygen through a Venturi mask at a
FiO2 of 0.5 (control) or with oxygen at a FiO2 of 0.5 plus a CPAP of 7.5 cm H2O (CPAP). At
the end of the 6-hour period, patients passed a one-hour screening test breathing oxygen
through a Venturi mask at a FiO2of 0.3. Patients returned to the assigned treatment if the
PaO2/FiO2 ratio was less than or equal to 300; treatment was interrupted if the PaO2/FiO2
ratio was higher than 300. Nasal oxygen (8-10 liter/minute) was given if the treatment was
not tolerated (Figure 1).
In all centers, CPAP was generated using a flow generator with an adjustable inspiratory
oxygen fraction set to deliver a flow of up to 140 liters per minute (Whisperflow, Caradyne,
Ireland) and a spring-loaded expiratory pressure valve (Vital Signs Inc, Totoma NJ) and
applied using a latex-free polyvinyl chloride transparent helmet (CaStar, Starmed, Italy)
(15); all centers measured the inspiratory oxygen fraction using an oxygen analyzer
(Oxicheck, Caradyne, Ireland) through the Venturi mask or the helmet.
All analyses were conducted on an intention-to-treat basis. Values are reported as mean and
standard deviation. Continuous variables were compared with the use of the unpaired t-test
or the Wilcoxon rank-sum test, depending on their distributional characteristics.
Categorical variables were compared with the use of Fisher's exact test or the chi-square
test, when appropriate. The Kaplan-Meier curve for intubation rate was plotted and was
compared by the log-rank and Wilcoxon tests. All reported P values are two-sided.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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