부산대학교 도서관

Purpose: Laboratory experiments were performed to determine warming rates of albumin 5% at room temperature and human packed red blood cells (PRBCs) at 4°C in small volumes. Four methods used in clinical practice to warm volumes appropriate for neonates were studied. Methods: The fluids were warmed either by infusion through a fluid warmer with temperature-controlled coaxial tubing (Group I), immersion in a water bath at 37°C (Group II), placing pre-filled syringes ( 10 and 20 ml) between a circulating water mattress and a forced-air warming blanket (Group III), or placing the same syringes between the water mattress and cotton towels (Group IV). The temperature of each fluid was recorded for the next 60 sec after the bolus injection in group I and every five minutes for a total of 30 min for the other groups. The time constant of warming for each group was calculated. The time constant and the temperature reached after the warming period were compared among groups. Results: In group I 20 ml room temperature albumin 5% or 4°C blood reached temperatures of 36.9 ±1,5°C and 34.5 ±2.3°C within 60 sec, respectively. This was faster than all other techniques used (P< 0.001). The time constants measured for the albumin and the PRBCs were 0.23 ±0.1 and 0.20 ±0.05 minutes respectively. After 15 min albumin and PRBCs in group II reached 35.5 ±0.4°C and 33.4 ±0.3°C, in group III reached 33.7 ±1.0C and 32.8 ±1.7C, and in group IV reached 29.5 ±0.1°C and 23.3 ±0.8°C after 15 min respectively. Conclusion: Warming of intravenous fluids in small volumes is accomplished most rapidly using a fluid warmer with temperature-controlled coaxial tubing and occurs more slowly in syringes, bottles, or bags exposed to various environmental conditions.