Respiratory Insufficiency Clinical Trial
Official title:
Effects of Open Lung Approach on Intraoperative Respiratory Function and Postoperative Recovery of Patients With Laparoscopic Colorectal Resection
Postoperative Pulmonary Complications (PPC) are very common. It severely affects
postoperative recovery, particularly in the abdominal surgery. Patients with laparoscopic
resection of colorectal cancer generally have a higher age and decreased lung function
reserve. At the same time, they prone to developing atelectasis due to the effects of
pneumoperitoneum pressure. Therefore, they are a high-risk group of respiratory insufficiency
and PPC.
Mechanical ventilation with a low tidal volume is a routine in clinic nowadays. However, this
conventional strategy will also result in atelectasis formation. Therefore, it may
deteriorate the vulnerable lung function of patients undergoing laparoscopic resection of
colorectal cancer. Patients with Acute Lung Injury or Acute Respiratory Distress Syndrome
(ALI/ARDS) could benefit from the "open lung approach", including the use of positive
end-expiratory pressure (PEEP) and recruitment maneuvers (RMs). Whether a lung protective
mechanical ventilation strategy with medium levels of PEEP and repeated RMs, the "open lung
approach", protects against respiratory insufficiency and PPC during laparoscopic resection
of colorectal cancer is uncertain. The present study aims at comparing the effects of "open
lung approach" mechanical ventilation strategy and conventional mechanical ventilation
strategy in PPC, extra-pulmonary complications, length of hospital stay, biomarkers of lung
injury and changes of respiratory function in patients undergoing general anesthesia for
laparoscopic resection of colorectal cancer.
1. Sample size calculation, randomization and patients safety. The required sample size is
calculated from previous studies on the incidence of postoperative pulmonary
complications. A two group chi-square test with a 0.05 two-sided significance level will
have 80% power to detect the difference (in primary outcome) between conventional
mechanical ventilation strategy (25%) and open lung approach mechanical ventilation
strategy (12.5%) when the sample size in each group is 126. In consideration of a 10%
loss rate, 280 cases to be included in this trial.
Research will be carried out in two stages. Completely-randomized design was used in the
first stage, and randomized block design in the second stage. The interim analysis will
be performed when 100 patients (first stage) have successfully been included and
followed-up. The Data Monitoring and Safety Group (DMSG) will provide recommendations
about stopping or continuing the trial to the principal investigator. The DMSG will
recommend stopping the trial, if significant group-difference in adverse events is found
at the interim analysis (p<0.025), or if postoperative pulmonary complications occur
more frequently in the intervention group (p<0.025). If the intervention has a strong
trend for improving postoperative pulmonary complications (p<0.018) at the first stage,
termination of the study is considered.
2. Protocol drop-out. Anesthesiologists are allowed to change the ventilation protocol if
there is any concern about patient's safety. The level of PEEP can be modified according
to the anesthesiologist in charge if the systolic arterial pressure (SBP)< 80 mmHg and
SBP drop ≥30% baseline values for more than 3 minutes despite intravenous fluid infusion
and/or start of vasopressors, if dosages of vasopressors are at the highest level
tolerated, if new arrhythmias develop which are unresponsive to treatment suggested by
the Advanced Cardiac Life Support Guidelines. If there is pneumothorax or hypoxemia
(SpO2 < 90% for more than 3 minutes), if there is need of massive transfusion (>8 units
packed red blood cell) to maintain hemoglobin >7 mg/dl, if the duration of
pneumoperitoneum is less then 1h or mechanical ventilation time is less then 2h, if
there is a surgical complication (such as severe hypercapnia, unexpected conversion to
open surgery, unplanned reoperation in 24h after surgery, unplanned ICU admission for
surgical reasons) or if patient die during operation, then the patient will be dropped
out of the study. All drop-out cases will be included in the safety analysis.
3. Trial settings for intraoperative ventilation. Patients in the conventional mechanical
ventilation strategy group will have a tidal volume of 6 to 8 ml per kilogram Predicted
Body Weight (PBW), zero PEEP and no recruitment maneuver. Patients in the open lung
approach mechanical ventilation strategy group will have a tidal volume of 6 to 8 ml per
kilogram PBW, a PEEP level of 6 to 8 cm of water and recruitment maneuvers. Recruitment
maneuvers consist of a stepwise increase of tidal volume (as detailed below) and will be
applied immediately after tracheal intubation and every 30 min thereafter until the end
of surgery.
In each group, anesthesiologists will be advised to use an inspired oxygen fraction
(FIO2) between 0.4 to 0.5 and to maintain oxygen saturation ≥ 92%. The inspiratory to
expiratory time ratio will be set at 1:2, with a respiratory rate adjusted to maintain
normocapnia (end-tidal carbon dioxide concentration of 30-50 mmHg).
PBW is calculated according to a predefined formula with: 50 + 0.91 x (centimeters of
height - 152.4) for males and 45.5 + 0.91 x (centimeters of height - 152.4) for females.
In each group, patients will be ventilated using the volume-controlled ventilation
strategy using an anesthesia ventilator: 1. Avance® (Datex-Ohmeda, General Electric,
Helsinki, Finland) 2. Tiro® (Dräger, Lübeck, Germany)
4. Recruitment maneuvers.
Stepwise increase of tidal volume will be used as a method of recruitment maneuvers in
this trial. Recruitment maneuvers should not be performed when patients are hemodynamic
unstable, as judged by the attending anesthesiologist. Recruitment maneuvers will be
performed as follows:
4-1. Peak inspiratory pressure limit is set at 45 cmH2O. 4-2. Tidal volume is set at 8
ml/kg PBW and respiratory rate at 6 breaths/min, while PEEP is set at 12 cmH2O.
4-3. Inspiratory to expiratory ratio (I:E) is set at 1:2. 4-4. Tidal volumes are
increased in steps of 4 ml/kg PBW until a plateau pressure of 30-35 cmH2O (if tidal
volume reach the biggest volume of the ventilator and plateau pressure cannot reach
30-35 cmH2O, then PEEP is set at 16 cmH2O for a plateau pressure of 30-35 cmH2O).
4-5. Three breaths are administered with a plateau pressure of 30-35 cmH2O. 4-6. Peak
inspiratory pressure limit, respiratory rate, I: E, and tidal volume are set back to
settings preceding each recruitment maneuver, while maintaining PEEP at 8 cmH2O.
5. Definitions for postoperative complications. All definitions for postoperative
complications refer to the IMPROVE trial and the PROVHILO trial.
6. Composition and responsibilities of the DMSG. Members of the DMSG are the management
team of anesthesia department in the research hospital. The DMSG will be responsible for
safeguarding the interests of trial participants, assessing the safety and efficacy of
the intervention during the trial, and for monitoring the overall conduct of the trial.
To enhance the integrity of the trial, the DMSG may also formulate recommendations
relating to the selection or recruitment of participants, and the procedures of data
management and quality control. The DMSG will be advisory to the principal investigator.
The principal investigator will be responsible for reviewing the DMSG recommendations,
decide whether to continue or terminate the trial, and determine whether changes in
trial conduct are required. Any DMSG members who develop significant conflicts of
interest during the course of the trial should resign from the DMSG.
7. Data management. Data will be collected and recorded into case report forms (CRFs) by
researchers under the supervision of DMSG members. Data manager will scan handwritten
data first and then enter data into electronic database. Source data verification will
be performed using a cross-check method by researchers when 7-days follow-up have
successfully been completed.
All adverse events, serious adverse events, unexpected or possibly related events will
be recorded in the CRF and reported to the DMSG.
8. Statistics. Statisticians will be in blind state for data analysis. Analysis will be by
intention-to-treat comparing the primary outcome measure at 7 days in the two groups by
chi-squared test (or Fisher's exact test as appropriate). Continuous variables will be
compared using the One-way analysis of variance or the Mann-Whitney U test. Categorical
variables will be compared using the chi-square test or the Fisher's exact test. The
time-to-event curves will be calculated with the use of the Kaplan-Meier method. All
analyses will be conducted using the SPSS 16.0 statistical software.
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