Authors:
Philip Koene
1
;
Felix Köbler
1
;
Jan Marco Leimeister
2
and
Helmut Krcmar
2
Affiliations:
1
Technische Universität München, Germany
;
2
Kassel University, Germany
Keyword(s):
Telemedicine, Near field communication, Electronic data capture, Nutrition management.
Related
Ontology
Subjects/Areas/Topics:
Biomedical Engineering
;
Cloud Computing
;
Distributed and Mobile Software Systems
;
e-Health
;
Health Engineering and Technology Applications
;
Health Information Systems
;
Mobile Technologies
;
Mobile Technologies for Healthcare Applications
;
Neural Rehabilitation
;
Neurotechnology, Electronics and Informatics
;
Pervasive Health Systems and Services
;
Platforms and Applications
;
Software Engineering
;
Software Systems in Medicine
;
Telemedicine
Abstract:
Self-reporting of patient data is a valuable tool for data capture in clinical trial studies and to support ailment treatment. However, traditional paper-based self-reporting is cost- and time-consuming and consequently suffers from low patient compliance. NFC-based electronic data capture methods allow a quick and easy self-reporting for patients and the real-time presentation of patient data enables direct medical intervention by physicians. Malnutrition, for example can be attenuated by continuous medical supervision of nutrition data. Consequently, we introduce an NFC-based prototype system called Touch’n’Document (TnD) that supports automatic aggregation and measurement of self-reported nutrition status. The hardware of TnD consists of a TFT-display that was outfitted with an array of NFC-tags on the backside. These allow an NFC-enabled mobile phone to be used as an input device to any software system, running on the TFT-display. The patients simply have to touch the display wit
h their mobile device to log into the system and report and analyze their current nutrition. This ensures an adequate usability of the nutrition management system, especially for non tech-savvy or physically impaired patients, consequently increasing patient compliance. The technical feasibility, benefits, limitations and future research prospects of the prototype system are discussed in this manuscript.
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