We introduced a web-based teledermatology system, the distributed personal health information management system (DPHIMS), into a nursing home in Singapore. The introduction was conducted in two phases. Five staff nurses in Phase 1 and nine nurse aides in Phase 2 performed the data entry and uploaded digital images of the resident's skin condition. By the end of Phase 2, there were 50 residents registered with DPHIMS. The average age of the participants was 82 years and 84% were women. There were 31 first-time referral requests registered in the system during Phase 2. The average time taken to complete a referral request was 86 minutes. The average time taken by the dermatologist to prepare and submit a diagnosis/treatment report was 11 minutes. An online survey form was given to the nurses and the dermatologists to gauge their level of satisfaction and their experience of using DPHIMS. All the nurses said they would readily recommend DPHIMS to other nurses. Overall, the dermatologists felt that DPHIMS was helpful in obtaining specialist care for the residents. However, some skin conditions required a face-to-face consultation. Thus a mixture of face-to-face consultations and consultations via teledermatology may be necessary to provide complete diagnosis and treatment to patients. Our experience suggests that understanding and addressing the organizational concerns is as important as solving the technical problems.
Recent rapid growth in mobile computing technologies enables telemedicine applications to operate on mobile devices. Our focus is on the design of an integrated electrocardiogram (ECG) beat detector on a Personal Digital Assistant (PDA) platform for the health screening process. The ECG beat detector module will be supported by the PDA version of Personal Health Information Management System (PHIMS) and Facilitated Accurate Referral Management System (FARMS) through wireless network infrastructure as a home-based mobile cardiac monitoring solution.
A distributed personal health information management system (D-PHIMS) has been tested at a nursing home for the senior citizens (NHSC) in Singapore. The personal health information management system (PHIMS) from the University of Washington was customized to Singapore's context for teledermatology. A clinical trial commenced in October 2005 is ongoing and the survey results obtained indicate that the participants are satisfied with the D-PHIMS system. The diagnosis and treatment recommendations made by the dermatologists using the D-PHIMS diagnosis module were effective in most cases based on feedback from the nursing staff at the elderly nursing home. The results suggest that a teledermatology system could become a useful tool for the nursing homes and to control increasing healthcare costs for elderly care.
Distributed Diagnosis and Home Healthcare aims to improve the quality of care and patient wellness and outcomes by transforming the delivery of healthcare from a central, hospital-based system to one that is more distributed and home-based. A Personal Health Information Management System (PHIMS) and a Facilitated Accurate Referral Management System (FARMS) were developed, tested and deployed by the University of Washington at its medical centre and other trial sites. We have adopted this PHIMS concept and have customized it to Singapore's context for tele-dermatology based on the distributed architecture approach. We have launched a clinical trial at a nursing home in Singapore for the Distributed-PHIMS (D-PHIMS) system and have obtained preliminary results of the ongoing clinical trial.
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