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DOI: 10.3414/ME09-02-0044
Pervasive Healthcare
Paving the Way for a Pervasive, User-centered and Preventive Healthcare ModelPublication History
received:
10 October 2009
accepted:
12 November 2009
Publication Date:
17 January 2018 (online)
Summary
Objectives: The aging of the population creates pressure on the healthcare systems in various ways. A massive increase of chronic disease conditions and age-related illness are predicted as the dominant forces driving the future health care. The objective of this paper is to present future research demands in pervasive healthcare with the goal to meet the healthcare challenges by paving the way for a pervasive, user-centered and preventive healthcare model.
Methods: This paper presents recent methodological approaches and proposes future research topics in three areas: i) pervasive, continuous and reliable long-term monitoring systems; ii) prevention through pervasive technology as a key element to maintain lifelong wellness; and iii) design and evaluation methods for ubiquitous, patient-centric technologies.
Results: Pervasive technology has been identified as a strong asset for achieving the vision of user-centered preventive healthcare. In order to make this vision a reality, new strategies for design, development and evaluation of technology have to find a common denominator and consequently interoperate. Moreover, the potential of pervasive health-care technologies offers new opportunities beyond traditional disease treatment and may play a major role in prevention, e.g. motivate healthy behavior and disease prevention throughout all stages of life. In this sense, open challenges in future research have to be addressed such as the variability of health indicators between individuals and the manner in which relevant health indicators are provided to the users in order to maximize their motivation to mitigate or prevent unhealthy behaviors. Additionally, collecting evidence that pervasive technology improves health is seen as one of the toughest challenges. Promising approaches are recently introduced, such as “clinical proof-of-concept” and balanced observational studies.
Conclusions: The paper concludes that pervasive healthcare will enable a paradigm shift from the established centralized healthcare model to a pervasive, user-centered and preventive overall lifestyle health management. In order to provide these new opportunities everywhere, anytime and to anyone, future research in the fields of pervasive sensing, pervasive prevention and evaluation of pervasive technology is inevitably needed.
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References
- 1 Koop CE, Mosher R, Kun L, Geiling J, Grigg E, Long S. et al. Future delivery of health care: Cybercare. IEEE Eng Med Biol Mag 2008; 27 (06) 29-38.
- 2 Codagnone C. Reconstructing the Whole: Present and Future of Personal Health Systems. 2009 Deliverable D6.2 PHS2020.
- 3 Kaye J, Zitzelberger T. Overview of Healthcare, Disease, and Disability. In: Bardram JE, Mihailidis A, Dadong W. editors. Pervasive Computing in Healthcare. CRC Press; 2006. pp 3-20.
- 4 Korhonen I, Parkka J, Van Gils M. Health monitoring in the home of the future. IEEE Eng Med Biol Mag 2003; 22 (03) 66-73.
- 5 Dishman E. Inventing wellness systems for ageing in place. Computer 2004; 37 (05) 34-41.
- 6 Tröster G. The Agenda of Wearable Healthcare. In: IMIA Yearbook of Medical Informatics 2005: Ubiquitous Health Care Systems; Schattauer: 2005. pp 125-138.
- 7 Korhonen I, Bardram JE. Guest Editorial Introduction to the Special Section on Pervasive Healthcare. Information Technology in Biomedicine. IEEE Transactions on Information Technology in Biomedicine 2004; 8 (03) 229-234.
- 8 Bardram JE. Pervasive healthcare as a scientific discipline. Methods Inf Med 2008; 47 (03) 178-185.
- 9 Schumm J, Bächlin M, Setz C, Arnrich B, Roggen D, Tröster G. Effect of movements on the electrodermal response after a startle event. Methods Inf Med 2008; 47 (03) 186-91. PubMed PMID: 18473082.
- 10 Nöjd N, Hannula M, Narra N, Hyttinen J. Electrode position optimization for facial EMG measurements for human-computer interface. Methods Inf Med 2008; 47 (03) 192-197. PubMed PMID: 18473083.
- 11 Kaushik P, Intille SS, Larson K. User-adaptive reminders for home-based medical tasks. A case study. Methods Inf Med 2008; 47 (03) 203-207. PubMed PMID: 18473085.
- 12 Laakko T, Leppönen J, Lohteenmöki J, Nummiaho A. Mobile health and wellness application framework. Methods Inf Med 2008; 47 (03) 217-222. Review. PubMed PMID: 18473087.
- 13 Koch S, Marschollek M, Wolf KH, Plischke M, Haux R. On health-enabling and ambient-assistive technologies. What has been achieved and where do we have to go?. Methods Inf Med 2009; 48 (01) 29-37. PubMed PMID: 19151881.
- 14 Siek K, Maitland J. Studying the Place of Technology to Lower Financial Barriers for Dietary Change. Methods Inf Med 2010; 49 (01) 74-80.
- 15 de Sá M, Carriço L. OmniSCOPE: Composing Universal Therapies. Methods Inf Med 2010; 49 (01) 81-87.
- 16 Bächlin M, Plotnik M, Roggen D, Giladi N, Hausdorff J, Tröster G. A Wearable System to Assist Walking of Parkinson´s Disease Patients – Benefits and Challenges of Context-triggered Acoustic Cueing. Methods Inf Med 2010; 49 (01) 88-95.
- 17 Song B, Wolf K-H, Gietzelt M, Al Scharaa O, Tegtbur U, Haux R, Marschollek M. Decision Support for Teletraining of COPD Patients. Methods Inf Med 2010; 49 (01) 96-102.
- 18 Lukowicz P. Wearable computing and artificial intelligence for healthcare applications. Artif Intell Med 2008; 42 (02) 95-98. Wearable Computing and Artificial Intelligence for Healthcare Applications. Available from: http://www.sciencedirect.comscience/article/B6T4K-4RR82XT-2/2/b6a3fffa51 e47c2ee8b929aa3e486d67.
- 19 Plasqui G, Westerterp KR. Accelerometry and heart rate as a measure of physical fitness: cross-validation. Med Sci Sports Exerc 2006; 38: 1510-1514.
- 20 Muhlsteff J, Such O. Dry electrodes for monitoring of vital signs in functional textiles. Conf Proc IEEE Eng Med Biol Soc 2004; 3: 2212-2215.
- 21 Nöjd N, Hannula M, Narra N, Hyttinen J. Electrode Position Optimization for Facial EMG Measurements for Human-computer Interface. Methods Inf Med 2008; 47 (03) 192-197.
- 22 Muhlsteff J, Such O, Schmidt R, Perkuhn M, Reiter H, Lauter J. et al. Wearable approach for continuous ECG – and activity patient-monitoring. Conf Proc IEEE Eng Med Biol Soc 2004; 3: 2184-2187.
- 23 Ottenbacher J, Kirst M, Jatoba L, Großmann U, Stork W. An approach to reliable motion artifact detection for mobile long-term ECG monitoring systems using dry electrodes. Conf Proc IEEE Eng Med Biol Soc 2008. 2008 pp 1695-1698. Available from: http://dx.doi.org/10.100711853565_16.
- 24 Gibbs P, Asada HH. Reducing motion artifact in wearable bio-sensors using MEMS accelerometers for active noise cancellation. In: Proceedings of the American Control Conference 2005; 3: 1581-1586.
- 25 Such O, Muehlsteff J. The Challenge of Motion Artifact Suppression in Wearable Monitoring Solutions. In: Medical Devices and Biosensors, 2006. 3rd IEEE/EMBS International Summer School on; 2006 pp 49-52.
- 26 Schumm J, Axmann S, Arnrich B, Tröster G. Automatic Signal Appraisal for Unobtrusive ECG Measurements. In: Proceedings of the Biosignal Interpretation Conference; 2009
- 27 WHO.. Preamble to the Constitution of the World Health Organization as adopted by the International Health Conference. New York: 1946. Official Records of the World Health Organization, no. 2, p 100. Available from: http://www.who.int about/definition/en/print.html.
- 28 Intille SS. A new research challenge: persuasive technology to motivate healthy ageing. IEEE Trans Inf Technol Biomed 2004; 8 (03) 235-237.
- 29 Morris M, Guilak F. Mobile Heart Health: Project Highlight. IEEE Pervasive Computing 2009; 8 (02) 57-61.
- 30 Roggen D, Arnrich B, Tröster G. Wearable health and life-style assistants – technology in support of well-being. Eurescom Message. 2007; 1: 10-11. Available from: http://www.eurescom.eu/message messageMar2007/Wearable-health-and-life-style-assistants.asp.
- 31 WHO.. The World health report: 2001: Mental health : new understanding, new hope. 1211 Geneva 27, Switzerland: World Health Organization; 2001 Available from: http://www.who.int/entitywhr/2001/en/whr01_en.pdf.
- 32 European Foundation for the Improvement of Living and Working Conditions.. Work-related stress; 2007. http://www.eurofound.europa.eu. Available from: http://www.eurofound.europa.eu.
- 33 van Daalen G, Willemsen TM, Sanders K, van Veldhoven MJPM. Emotional exhaustion and mental health problems among employees doing people work: the impact of job demands, job resources and family-to-work conflict. Int Arch Occup Environ Health 2009; 82: 291-303.
- 34 Setz C, Arnrich B, Schumm J, La Marca R, Tröster G, Ehlert U. Discriminating Stress from Cognitive Load Using a Wearable EDA Device. Accepted for IEEE Transactions on Information Technology in Biomedicine: Personal Healh Systems; 2009
- 35 Arnrich B, Setz C, La Marca R, Tröster G, Ehlert U. What does your chair know about your stress level? Accepted for IEEE Transactions on Information Technology in Biomedicine: Affective and Pervasive Computing for Healthcare. 2009
- 36 Mamykina L, Mynatt ED, Kaufman DR. Investigating health management practices of individuals with diabetes. In: CHI ’06: Proceedings of the SIGCHI conference on Human Factors in computing systems. New York, NY, USA: ACM; 2006. pp 927-936.
- 37 Tscheligi M, Reitberger W. Persuasion as an ingredient of societal interfaces. interactions 2007; 14 (05) 41-43.
- 38 Lin JJ, Mamykina L, Lindtner S, Delajoux G, Strub HB. Fish’n’Steps: Encouraging Physical Activity with an Interactive Computer Game. In: UbiComp 2006: Ubiquitous Computing; 2006 pp 261-278.
- 39 Arteaga SM, Kudeki M, Woodworth A. Combating obesity trends in teenagers through persuasive mobile technology. SIGACCESS Newsletter 2009; 94 (94) 17-25.
- 40 Orwat C, Graefe A, Faulwasser T. Towards pervasive computing in health care – A literature review. BMC Med Inform Decis Mak 2008; 8 (01) 26. Available from: http://www.biomedcentral.com 1472-6947/8/26.
- 41 Altman DG. Practical Statistics for Medical Research. Chapman & Hall; 1990
- 42 Weiser M. Some computer science issues in ubiquitous computing. Commun ACM 1993; 36 (07) 75-84.
- 43 Rosenbaum PR. Observational Studies. Springer; 2002
- 44 Arnrich B, Albert A, Walter J. Risk stratification of patients with diabetes mellitus undergoing coronary artery bypass grafting – a comparison of statistical methods. Clin Res Cardiol 2006; 95: 14-17.
- 45 Kouchoukos N, Karp R, Blackstone E, Doty D, Hanley F. Generating Knowledge from Information, Data, and Analyses. In: Kirklin, Barratt-Boyes, editors. Cardiac Surgery. Churchill Livingstone; 2003. pp 254-350.
- 46 van de Garde-Perik E, Markopoulos P, de Ruyter B. On the relative importance of privacy guidelines for ambient health care. In: NordiCHI ’06: Proceedings of the 4th Nordic conference on Human-computer interaction. New York, NY, USA: ACM; 2006. pp 377-380.
- 47 Little L, Briggs P. Ubiquitous healthcare: do we want it?. In: BCS-HCI ’08: Proceedings of the 22nd British CHI Group Annual Conference on HCI 2008. Swinton, UK: British Computer Society; 2008. pp 53-56.
- 48 Coyle D, Doherty G. Clinical evaluations and collaborative design: developing new technologies for mental healthcare interventions. In: CHI ’09: Proceedings of the 27th international conference on Human factors in computing systems. New York, NY, USA: ACM; 2009. pp 2051-2060.