Affiliations: Bio Medical Electronics Lab, School of Electrical and Electronics Engineering, Singapore Polytechnic, Singapore | Alexandra Hospital, Singapore
Note: [] Corresponding author: K.S. Jaichandar, Bio Medical Electronics Lab, School of Electrical and Electronics Engineering, Singapore, Polytechnic, 500 Dover Road, 139651 Singapore. Tel.: 0065 68790628; E-mail: [email protected]
Abstract: Bed sores, a common problem among immobile patients occur as a result of continuous sweating due to increase in skin to bed surface temperature in patients lying on same posture for prolonged period. If left untreated, the skin can break open and become infected. Currently adopted methods for bed sores prevention include: use of two hourly flip chat for repositioning patient or use of air fluidized beds. However, the setbacks of these preventive measures include either use of costly equipment or wastage of human resources. This paper introduces an intelligent low cost FPGA based anti-sweating system for bed sores prevention in a clinical environment. The developed system consists of bed surface implanted temperature sensors interfaced with an FPGA chip for sensing the temperature change in patient's skin to bed surface. Based on the temperature change, the FPGA chip select the - mode (heater/cooler) and speed of the fan module. Furthermore, an alarm module was implemented to alert the nurse to reposition the patient only if patient's skin to bed surface temperature exceeds a predefined threshold thereby saving human resources. By integrating the whole system into a single FPGA chip, we were able to build a low cost compact system without sacrificing processing power and flexibility.
Keywords: Bed sores, skin to bed surface temperature, clinical environment, immobile patients
