Abstract
Abstract Heater Cooler Units (HCUs) are frequently used not only during heart surgery but also in ECMO therapy to regulate the blood temperature of patients. It is known from cardiac surgery that the water circuits of HCUs can be bacterially contaminated and under adverse conditions can lead to a nosocomial infection of the patient. The addition of chemical disinfectants to the water of HCUs is problematic. In addition, it is an increasingly significant cost factor due to the required material and personnel input. The aim of this research project is both the development of an automated device for disinfecting water in HCUs and proof of its effectiveness. The device is based on ozone, a substance with known antimicrobial properties. To prevent ozone from coming into contact with the HCU components, the water is irradiated with UV light (254nm). Two bypasses and ozone sensors guarantee a complete elimination of residual ozone. The effectiveness of the device was tested by series of experiments with the surrogate germ, Pseudomonas aeruginosa. The device allows a wide range of ozone concentrations and exposure times to be selected. In previous test series, it has been shown both that a reduction of the bacterial count to drinking water quality can be achieved with a treatment time of only one hour, and that self-cleaning can be carried out effectively before clinical use, and in standby mode. Attention must be paid to the water quality in HCUs as a potential source of infection, regardless of where they are used. The "proof of concept" showed an excellent disinfection effect with simultaneous elimination of excess ozone to drinking water levels. The number of indicator bacteria in the water tank of the dummy HCU was reduced by approx. 98% after only 30 minutes.
Highlights
The addition of chemical disinfectants to the water of Heater Cooler Units (HCUs) is problematic
Ventilator fans in the HCU remove heat produced by the cooling unit, the pumps and electronics in close proximity immune-compromised patients. This poses a potential problem since HCU water can quickly become contaminated with bacteria, algae and fungi [1]
The reduction of bacteria in a reaction chamber was mapped by numerical flow simulation to show disinfection efficacy and optimize the design of the disinfection unit for HCU water
Summary
Heater-Cooler Units (HCUs) are widely used in ECMO therapy to regulate patients' blood temperature. Ventilator fans in the HCU remove heat produced by the cooling unit, the pumps and electronics in close proximity immune-compromised patients This poses a potential problem since HCU water can quickly become contaminated with bacteria, algae and fungi [1]. All patients have in common that they have undergone heart surgery using a Heater-Cooler Unit This means that there is a problem of contamination of the water in the HCU, and an extremely high risk of disease in patients who have been operated on using a HCU [2]; [3]; [4]. Tests have shown that a reduction in bacteria to a level consistent drinking water was possible within an hour
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