Forced-Air Warming Maintains Intraoperative Normotherrnia Better Than Circulating-Water Mattresses

The hypothesis that forced-air warming preserves core temperature better than circulating-water mattresses was tested in: (a) 16 adults undergoing major maxillofacial surgery, including radical node resection and flap reconstruction; (b) 53 adults undergoing hip arthroplasty, having ≈25% of their body surface area available for warming; (c) 20 infants undergoing minor maxillofacial surgery; and (d) 10 young children undergoing pelvic or femoral osteotomies. Patients having each type of surgery were randomly assigned to forced-air warming (≈40°C) or conductive warming using a full-length circulating-water mattress at 40°C. Forced-air warming was applied to the legs of the adults undergoing maxillofacial surgery and to one arm, the shoulders, and the neck in the adults undergoing hip arthroplasty; a U-shaped, tubular forced-air cover was positioned around the pediatric patients. Core temperatures increased in all patients given forced-air warming and decreased or remained constant in those without active warming. Furthermore, we needed to decrease the temperature of the warmer from high to medium (≈37°C) in most patients assigned to forced-air warming to prevent hyperthermia. After 15 h of anesthesia, rectal temperatures in the adults undergoing maxillofacial surgery were 3.4“C higher in the forced-air group (P < 0.01). After 4 h of anesthesia, esophageal temperatures had increased 0.8 ± 0.5”C in the patients warmed with forced-air and decreased 0.8 2 0.3“C in those warmed by circulating-water mattresses (P < 0.01). Rectal temperatures in the infants undergoing maxillofacial surgery decreased 0.3 ± 0.1 ”C in both the forced-air and circulating-water groups after premedication with midazolam. Core temperatures then decreased an additional ≈0.4“C in each group during the first 45 min of anesthesia, but after 165 min of anesthesia, were 1.3”C higher in the patients warmed with forced-air (P < 0.01). Esophageal temperatures in the children undergoing orthopaedic surgery decreased ≈0.5“C in each group during the first 60 min of anesthesia. Temperatures subsequently increased in the forced-air group and decreased in those given circulating water. After 150 min of anesthesia, core temperatures were 1.6”C higher in the patients warmed with forced air (P < 0.01). These data indicate that forced-air warming is more effective than circulating water in preventing intraoperative hypothermia in infants, children, and adults.