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Advanced Healthcare Systems


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McCalla, S., Reilly, M., Thomas, R., McSpedon-Rai, D., An automated hand hygiene compliance system is associated with improved monitoring of hand hygiene. Am. J. Infect. Control, 45, 5, 492–497, 2017.

      34. Pinchin, J., Getting lost in hospitals costs the NHS and patients, The Guardian, 2017.

      35. Brown, M., Shaw, D., Sharples, S., Le Jeune, I., Blakey, J., A survey-based cross-sectional study of doctors’ expectations and experiences of nontechnical skills for Out of Hours work. BMJ Open, 5, 2, e006102, Feb. 2015.

      36. Ashton, K., Internet of Things case study: Boston Children’s Hospital and smarter healthcare, IoT News, 2017, https://iottechnews.com/news/2017/feb/28/internet-things-case-study-boston-childrens-hospital-and-smarter-healthcare/ (accessed Aug. 25, 2020).

      37. Devlin, A.S., Wayfinding in healthcare facilities: contributions from environmental psychology. Behav. Sci. (Basel, Switzerland), 4, 4, 423–436, Oct. 2014.

      38. Bridgera, Personal Emergency Response System (PERS) Bridgera Rescue-Personal Security Anywhere-You-Go, Bridgera, 2020.

      39. Hyer, K. and Rudick, L., The Effectiveness of Personal Emergency Response Systems in Meeting the Safety Monitoring Needs of Home Care Clients. JONA J. Nurs. Adm., 24, 6, pp. 39–44, 1994, [Online]. Available: https://journals.lww.com/jonajournal/Fulltext/1994/06000/The_Effectiveness_of_Personal_Emergency_Response.10.aspx.

      40. Mann, W.C., Belchior, P., Tomita, M.R., Kemp, B.J., Use of Personal Emergency Response Systems by Older Individuals With Disabilities. Assist. Technol., 17, 1, 82–88, Mar. 2005.

      41. McKenna, A.C., Kloseck, M., Crilly, R., Polgar, J., Purchasing and Using Personal Emergency Response Systems (PERS): How decisions are made by community-dwelling seniors in Canada. BMC Geriatr., 15, 1, 1–9, 2015.

      42. Heinbüchner, B., Hautzinger, M., Becker, C., Pfeiffer, K., Satisfaction and use of personal emergency response systems. Z. Gerontol. Geriatr., 43, 4, 219–223, 2010.

      43. Hamill, M., Young, V., Boger, J., Mihailidis, A., Development of an automated speech recognition interface for personal emergency response systems. J. Neuroeng. Rehabil., 6, 1, 1–11, 2009.

      44. Mackrill, J., Marshall, P., Payne, S.R., Dimitrokali, E., Cain, R., Using a bespoke situated digital kiosk to encourage user participation in healthcare environment design. Appl. Ergon., 59, 342–356, 2017.

      45. Nicholas, D., Huntington, P., Williams, P., Three years of digital consumer health information: a longitudinal study of the touch screen health kiosk. Inf. Process. Manage., 39, 3, 479–502, 2003.

      46. Nicholas, D., Huntington, P., Williams, P., Chahal, P., Determinants of Health Kiosk Use and Usefulness: Case Study of a Kiosk Which Serves a Multi-Cultural Population. Libri, 51, 2, 102–113, 2001.

      47. Koch, S., Home telehealth—Current state and future trends. Int. J. Med. Inform., 75, 8, 565–576, 2006.

      49. Ashwood, J.S., Mehrotra, A., Cowling, D., Uscher-Pines, L., Direct-To-Consumer Telehealth May Increase Access To Care But Does Not Decrease Spending. Health Aff., 36, 3, 485–491, Mar. 2017.

      50. Cady, R., Kelly, A., Finkelstein, S., Home telehealth for children with special healthcare needs. J. Telemed. Telecare, 14, 4, 173–177, Jun. 2008.

      51. Angrish, S. et al., How effective is the virtual primary healthcare centers? An experience from rural India. J. Family Med. Prim. Care, 9, 2, 465–469, Feb. 2020.

      52. Hennick, C., How Remote Patient Monitoring Programs Are Beneficial, HealthTech, 2020, https://healthtechmagazine.net/article/2020/04/how-remote-patient-monitoring-programs-are-beneficial (accessed Aug. 25, 2020).

      53. Nakamura, N., Koga, T., Iseki, H., A meta-analysis of remote patient monitoring for chronic heart failure patients. J. Telemed. Telecare, 20, 1, 11–17, Dec. 2013.

      54. Pollonini, L., Rajan, N.O., Xu, S., Madala, S., Dacso, C.C., A Novel Handheld Device for Use in Remote Patient Monitoring of Heart Failure Patients— Design and Preliminary Validation on Healthy Subjects. J. Med. Syst., 36, 2, 653–659, 2012.

      55. Sanabria, M. et al., Remote Patient Monitoring Program in Automated Peritoneal Dialysis: Impact on Hospitalizations. Perit. Dial. Int., 39, 5, 472–478, Sep. 2019.

      56. Pekmezaris, R. et al., The Impact of Remote Patient Monitoring (Telehealth) upon Medicare Beneficiaries with Heart Failure. Telemed. e-Health, 18, 2, 101–108, Jan. 2012.

      57. Klersy, C. et al., Economic impact of remote patient monitoring: An integrated economic model derived from a meta-analysis of randomized controlled trials in heart failure. Eur. J. Heart Fail., 13, 4, 450–459, 2011.

      58. Fleming, D.A., Edison, K.E., Pak, H., Telehealth Ethics. Telemed. e-Health, 15, 8, 797–803, Sep. 2009.

      59. Ajaz, K., The Importance of Equipment Efficiency for the Healthcare Sector, Electronic Health Reporter, 2018, https://electronichealthreporter.com/the-importance-of-equipment-efficiency-for-the-healthcare-sector/ (accessed Aug. 25, 2020).

      60. Matityaho, S., LogiTag System, The IoT Streamlines Healthcare Supply Chains, 2015, https://irp-cdn.multiscreensite.com/1fd06f20/files/uploaded/IoTInHealthcare_FINAL.pdf.

      61. Man, L.C.K., Na, C.M., Kit, N.C., IoT-Based Asset Management System for Healthcare-Related Industries. Int. J. Eng. Bus. Manage., 7, 19, Jan. 2015.

      62. Shiklo, B., RFID and IoT: A smart symbiosis for hospital asset tracking and management, ScienceSoft, 2018, https://www.scnsoft.com/blog/smart-hospital-asset-tracking.

      64. Hanne, T., Melo, T., Nickel, S., Bringing Robustness to Patient Flow Management Through Optimized Patient Transports in Hospitals. INFORMS J. Appl. Anal., 39, 3, 241–255, Mar. 2009.

      65. DAIC, FDA Grants Emergency Use Authorization to Vital Connect for Cardiac Monitoring in COVID-19 Patients, Diagnostic and Interventional Cardiology, 2020, https://www.dicardiology.com/content/fda-grants-emergency-use-authorization-vitalconnect-cardiac-monitoring-covid-19-patients (accessed Aug. 25, 2020).

      66. Science Daily, Clinical-grade wearables offer continuous monitoring for COVID-19, ScienceDaily, 2020, https://www.sciencedaily.com/releases/2020/07/200701125410.htm (accessed Aug. 25, 2020).

      67.