The Effect of Warm Irrigation Fluid on Body Temperature during Laparoscopic Surgery in Gynecologic Patients / 대한마취과학회지

BACKGROUND: Perioperative hypothermia is a common problem during both laparotomy and laparoscopic surgery. Hypothermia during laparoscopic surgery is related to the use of irrigation fluid and the large volume of CO2 for maintaining pneumoperitoneum. The aim of this study is to estimate whether the use of warm irrigation fluid can reduce the incidence of hypothermia and the decrease of body temperature. METHODS: Forty-two female patients undergoing elective laparoscopic surgery were randomly divided into 2 groups. Group 1 (n = 20) was given an ambient temperature irrigation fluid and group 2 (n = 22) a warm irrigation fluid. The core esophageal body temperatures of all the patients were measured every 10 minutes for 70 minutes. Body temperature 10 minutes after induction was a control value. The degree of body temperature decrease was measured, and the incidence of hypothermia was recorded. RESULTS: The incidences of hypothermia in group 2 were decreased significantly 60 and 70 minutes after induction, compared with those of group 1. The degree of body temperature decrease was revealed to be significantly different between the two groups starting 50 minutes after induction. CONCLUSIONS: The use of warm irrigation fluid during laparoscopic surgery can reduce the incidence of hypothermia and degree of body temperature decrease.

The Effect of Warm Irrigation Fluid on Body Temperature during Laparoscopic Surgery in Gynecologic Patients / 대한마취과학회지

BACKGROUND: Perioperative hypothermia is a common problem during both laparotomy and laparoscopic surgery. Hypothermia during laparoscopic surgery is related to the use of irrigation fluid and the large volume of CO2 for maintaining pneumoperitoneum. The aim of this study is to estimate whether the use of warm irrigation fluid can reduce the incidence of hypothermia and the decrease of body temperature. METHODS: Forty-two female patients undergoing elective laparoscopic surgery were randomly divided into 2 groups. Group 1 (n = 20) was given an ambient temperature irrigation fluid and group 2 (n = 22) a warm irrigation fluid. The core esophageal body temperatures of all the patients were measured every 10 minutes for 70 minutes. Body temperature 10 minutes after induction was a control value. The degree of body temperature decrease was measured, and the incidence of hypothermia was recorded. RESULTS: The incidences of hypothermia in group 2 were decreased significantly 60 and 70 minutes after induction, compared with those of group 1. The degree of body temperature decrease was revealed to be significantly different between the two groups starting 50 minutes after induction. CONCLUSIONS: The use of warm irrigation fluid during laparoscopic surgery can reduce the incidence of hypothermia and degree of body temperature decrease.

Effects of Body Temperature Changes on Hypoxic Pulmonary Vasoconstriction in Isolated Lungs of Rabbits / 대한마취과학회지

BACKGROUND: We studied the effects of body temperature changes and repeated hypoxic stimulation on hypoxic pulmonary vasoconstriction (HPV). METHODS: We isolated lungs from 15 rabbits and perfused them at a constant flow of 30 ml/kg/min with a 3% albumin-physiologic salt solution containing autologous blood. After a 30-minute stabilization, the temperature of the perfusate was changed from 38oC to 32oC gradually. The lungs were ventilated for 15 minutes with a hyperoxic gas mixture consisting of 95% oxygen and 5% carbon dioxide and then for 5 minutes with a hypoxic gas mixture consisting of 3% oxygen and 5% carbon dioxide with the balance being nitrogen. We repeated the hypoxic stimulation 3 times at the same temperature. The mean pulmonary artery pressure changes and ventilation-related parameters were measured at each hypoxic stimulation. RESULTS: With the first hypoxic stimulation, the hypoxic pressure response at the end of the 5-minute hypoxic period decreased significantly at 32oC. With the second and the third hypoxic stimulations, the hypoxic pressure responses at the end of the 5-minute hypoxic period decreased significantly at both 34oC and 36oC. With repeated hypoxic stimulations, the hypoxic pressure responses potentiated significantly at all temperatures. The baseline mean pulmonary artery pressure increased significantly below 34oC. CONCLUSION: The HPV decreased with the reduction in body temperature and was potentiated by repeated intermittent hypoxia; also, the pulmonary vascular resistance increased with the reduction in the body temperature.