Effect of extraperitoneal carbon dioxide insufflation on intraoperative blood gas and hemodynamic changes

Abstract

Carbon dioxide pneumoperitoneum has been shown to produce respiratory and hemodynamic changes due to both CO₂ absorption and the effects of increased intraperitoneal pressure. We have measured the blood gas, end-tidal CO₂, and hemodynamic changes produced during extraperitoneal CO₂ insufflation (n=22). These have been compared with the changes occurring during CO₂ pneumoperitoneum (n=11) under standardized anesthetic conditions. The changes observed during pneumoperitoneum were consistent with previous descriptions. There was a median rise in arterial pCO₂ of 1 kPa over the first 15–20 min, followed by a second phase of only gradual change. There was also an increase in mean arterial pressure of 18 mmHg during the insufflation period. We have found a similar magnitude of rise in arterial pCO₂ during extraperitoneal insufflation (median 0.83 kPa), but the rate of rise was significantly slower (P2 insufflation may be safer than CO₂ pneumoperitoneum in patients with preexisting cardiorespiratory disease.