The purposes of this study is to investigate the effects of moderate vs. deep neuromuscular block on respiratory mechanics and biotrauma in patients with intraoperative protective lung ventilation for laparoscopy.
Mechanical ventilation results in the disruption of the alveolar-capillary barrier and increased permeability, a hallmark of experimental ventilator-induced lung injury. These mechanical forces also induce an increase in the concentrations of inflammatory cytokines. The benefits of deep neuromuscular blocks for laparoscopic procedures are controversial and most of the studies undertaken have only sought to improve surgical conditions. Theoretically, deep neuromuscular block permits a lower abdominal insufflation pressure, which leads to better respiratory mechanics and gas exchange. The investigators examined the effects of moderate vs. deep neuromuscular block on respiratory mechanics and biotrauma in patients with intraoperative protective lung ventilation for laparoscopy. The investigators hypothesized that deep neuromuscular block (PTC 1 or 2) and low pressure pneumoperitoneum (8 mmHg) would improve respiratory mechanics and reduce inflammatory processes associated with biotrama during mechanical ventilation compared with moderate neuromuscular block (TOF count 1 or 2 ) and standard pressure pneumoperitoneum (12-15 mmHg).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
74
Deep neuromuscular block using high dose rocuronium and 8 mmHg pneumoperitoneum
Moderate neuromuscular block using moderate dose rocuronium and 12-15 mmHg pneumoperitoneum
Ajou University Hospital
Suwon, Gyeonggi-do, South Korea
Change of Cytokine
change of IL-6 (pg/ml)
Time frame: baseline, end of pneumoperitoneum, 24 hr after surgery
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