Intravenous togafitiga, vai o le suavai faaooina mo le toe faaleleia, ma sela masini masima
Vaʻaiga lautele o vai mafanafana
O le autu muamua o le IV ON chanmers o le mafanafana vaivai o suavai e latalata i le vevela vevela pe sili atu i luga e puipuia ai le hypothermon ona o le tuufaatasiga o le malulu suavai. O mea e mafai ona fesoʻotaʻi ma le faʻaaogaina o le sili atu o le tau o le ea e aofia ai le ea e aofia ai hoobolism, faʻaosofia le hemolysis ma le manava o le vaʻa, ma faʻamaʻi o loʻo iai .42
O le autau o suavai e mafai ona faʻalautele faʻavasegaina i masini na mamanuina i le mafanafana o vai mo tulaga masani ma sili atu faigata o mea na fuafuaina mo le tele o le tele. While all fluid warmers contain a heater, a thermostatic control, and, in most cases, a temperature readout, resuscitation fluid warmers are optimized for higher flows, and stop flow to the patient when significant air is detected in the tubing. Simple fluid warmers deliver warmed fluids at rates up to 150 mL/min (and sometimes at higher rates, with specialized disposable sets and pressurized infusions), in contrast to resuscitation fluid warmers that effectively warm fluids at flow rates up to 750 to 1000 mL/ Min (tasi Rusticaition Free Spod Weiter e oʻo lava i le manaʻomia o le faʻamalosiʻau).
Heating of IV fluids can be accomplished by dry heat exchange, countercurrent heat exchangers, fluid immersion, or (less effectively) by placing part of the fluid circuit in the proximity of a separate heater (such as a forced-air device or heated water mattress ).
Taimi o le taimi: Jan-17-2025