Abstract
BackgroundA fluid warmer can prevent hypothermia during the perioperative period. This study evaluated the heating capabilities of Hotline and Barkey S-line under different flow rates and initial fluid temperatures, as well as after the extension line installation.MethodsWe measured the temperature of a 0.9% sodium chloride solution at the fluid warmer outlet (TProx) and the extension line end (TDistal) with three different initial fluid temperatures (room, warm, and cold) and two flow rates (250 ml/hr and 100 mL/hr).ResultsAt a 250 ml/hr flow rate, the TProx and TDistal values were observed to be higher in Hotline than in S-line when using room-temperature or cold fluid. Administering of the warm fluid at the same flow rate significantly increased the TProx and TDistal values in S-line more than the cold and room-temperature fluids. At flow rates of 100 ml/hr, TDistal values were significantly lower than TProx values in both devices regardless of the initial fluid temperature.ConclusionsHotline outperformed S-line for warming fluids at a high flow rate with cold or room-temperature fluids. Administering warm fluid in S-line prevented a decrease in the fluid temperature at a high flow rate. However, at a low flow rate, the fluid temperature significantly decreased in both devices after passing through an extension line.
Highlights
A fluid warmer can prevent hypothermia during the perioperative period
Temperature at the fluid warmer point (TProx) was higher in Hotline (38.7 [38.7–38.8]°C) than in S-line (28.2 [27.6–28.4]°C) based on the median difference of 10.5 °C at the flow rate of 250 ml/hr
At the flow rate of 100 ml/hr, the TProx value was higher in Hotline (40.3 [40.1–40.4]°C) than Sline (38.7 [38.6–38.7]°C) according to the median difference of 1.6 °C
Summary
A fluid warmer can prevent hypothermia during the perioperative period. This study evaluated the heating capabilities of Hotline and Barkey S-line under different flow rates and initial fluid temperatures, as well as after the extension line installation. It is recommended that physicians assess the risk factors associated with perioperative hypothermia to reduce hypothermia-related complications [3, 11] After assessing these risk factors, physicians should employ interventions that are appropriately designed for the specific patient population and type of operation [1,2,3, 10]. The National Institute for Health and Care Excellence (NICE) published clinical guidelines in 2008 that support the use of intravenous fluid warmers to prevent perioperative hypothermia [13]. Using such a device to warm (2021) 21:1 intravenous fluids before administering it to the patient has been shown to prevent inadvertent hypothermia [4, 5, 12]. It is critical to investigate the performance of a fluid warmer in different circumstances
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