Determination of cardiorespiratory function and the optimum anesthetic regimen during laparoscopic surgery in the rat model.

BACKGROUND

The rat is increasingly being used in laparoscopic research yet the hemodynamic and respiratory effects of CO2 pneumoperitoneum have not been studied in this model.

METHODS

Five Lewis rats were anesthetized with inhaled isoflurane (1.4-2.0%) and a 50% O2/50% N2O mixture by mask (ISO). Another five rats were anesthetized with 1 ml/kg intraperitoneal sodium pentobarbital (PB) and given 100% O2 by mask. Catheters were placed in the femoral artery and the right jugular vein and a thermistor probe was placed in the aortic arch. Heart rate (HR), blood pressure (MAP), cardiac index (CI), arterial pH, and PCO2 were measured at baseline and following 10, 20, and 30 min of 2 mmHg CO2 pneumoperitoneum.

RESULTS

CO2 pneumoperitoneum had no effect on HR, MAP, CI, pH, or PCO2 in either the ISO or PB anesthetic groups. Comparing the two anesthetic groups, PB demonstrated a significantly higher MAP at all time points, a significantly higher PCO2 at baseline, and 10 min of pneumoperitoneum, a significantly lower pH at baseline, 10, and 30 minutes of pneumoperitoneum, and a significantly longer induction time (31 vs. 6 min). There was no difference in HR or CI between the two anesthetics.

CONCLUSION

Low-pressure CO2 pneumoperitoneum up to 30 min in the spontaneously breathing rat does not significantly affect HR, MAP, CI, pH, or PCO2. Inhalational isoflurance/N2O anesthesia produces less hypertension and respiratory acidosis than intraperitoneal pentobarbital during pneumoperitoneum in the rat.