IV Therapy Chronicles

Intravenous (IV) fluid application saves lives in many emergency situations. Warmers are becoming a part of this treatment to reduce the effects caused by rapid introduction of cold fluids. Most substances provided by an IV have to be cooled so it can be stored, and the refrigerated temperature is far below the internal warmth of the human body. The traditional designs of intravenous fluid warmers prevented their use anywhere except for within a medical facility. Our website provides info on IV Therapy
Inconvenient sizing, requirement of AC power, and inconvenient setup times made them undesirable even for hospital IV applications. Models could not be obtained to fit within the space constraints of emergency service vehicles, making it impossible to implement during military battlefield treatment. The benefits of these devices outside of medical facilities are abundant and have caused more suitable equipment to be created for these healthcare professionals. The introduction of a disposable device and battery power has increased device convenience.
Since the introduction of markedly better designed warming equipment, continual changes have been made to enhance their usability. Battery weight and size have been a prime focus. The weight of the battery determines how easy the device is to carry by a medical professional. Most batteries have an average weight of five to six pounds. The Ultra Battery 1 is a new design that has a reduced weight of a little over one pound. Bulky batteries decrease the overall convenience of this equipment. Manufacturers have also focused on making warmer power sources more compact.
Since these innovations, the use of warmers has become common for combat, emergency response, and even outpatient care. The Ultra Battery 1 design also accommodates for more extreme environmental conditions. The casing is rugged with grips to better handle explosions and to prevent the case from being dropped. They are sealed to operate appropriately in extreme weather conditions where water, snow, or heat could affect the battery. Batteries with real-time status levels, shorter recharge times, and better capacities are now available to meet the extreme conditions that sometimes accompany field environments.
Intravenous fluid warming equipment designs have incorporated technology to increase their dependability. Professionals often struggled to obtain consistent heating and even had models overheat in some instances. Microchips, low mass heaters, and other technology innovations change the way warmers function to make them more reliable. Flow rates and current temperatures are monitored by microchips to offer better consistency. Low mass heaters reduce the effects of overheating. Decreased weight, portability, and minimal warming times have all transformed these once undesirable devices into a highly convenient patient treatment option.