RFID Applications and Adoptions in Healthcare: A Review on Patient Safety

Moutaz Haddara; Anna Staaby

doi:10.1016/j.procs.2018.10.012

. 2018 Oct 23;138:80–88. doi: 10.1016/j.procs.2018.10.012

RFID Applications and Adoptions in Healthcare: A Review on Patient Safety

Moutaz Haddara ¹, Anna Staaby ¹

PMCID: PMC7129262 PMID: 32288898

Abstract

Patient safety is a serious global public health concern. Official statistics show that there is an increasing number of mistreatments within healthcare due to the improper identification of the patient or the drug administered to the patient. It is believed that the majority of the medical errors caused by misidentifications are preventable by introducing integrated IT infrastructures. Radio Frequency Identification (RFID) is believed to be the next generation technology for tracking and data-collection and has successfully been applied in several industries such as manufacturing, retail and logistics. RFID technology is also seen as the next disruptive innovation in healthcare and represents several opportunities for increased safety, operational efficiency and cost savings, by tagging inventory, assets, patients and personnel. Even though RFID promises several benefits for the healthcare industry, the adoption of RFID technology in the health sector has not been as striking as anticipated and still lags behind compared to other industries.

Through a literature review, this paper attempts to explore the challenges of RFID adoption in healthcare, with a focus on patient safety. Our main findings suggest that high costs of adoption, concerns related to security and privacy, and human safety risks are the main barriers for adoption.

Keywords: RFID, Healthcare, IoT, Literature Review, Patient Safety

References

1.WHO. Patient Safety. World Health Organization; 2018.
2.Aguilar A, Van Der Putten W, Kirrane F, editors. Positive patient identification using RFID and wireless networks. HISI11th Annual Conference and Scientific Symposium; 2006.
3.Mehrjerdi YZ. RFID Role in Efficient Management of Healthcare Systems: A System Thinking Perspective. International Journal of Industrial Engineering. 2015;26(1):45–61. [Google Scholar]
4.Yao W, Chu C-H, Li Z. The Adoption and Implementation of RFID Technologies in Healthcare: A Literature Review. Journal of Medical Systems. 2012;36:3507–3525. doi: 10.1007/s10916-011-9789-8. [DOI] [PubMed] [Google Scholar]
5.Roberti M. The history of RFID technology. RFID journal. 2005;16(01) [Google Scholar]
6.Tzeng S-F, Chen W-H, Pai F-Y. Evaluating the business value of RFID: Evidence from five case studies. International Journal of Production Economics. 2008;112(2):601–613. [Google Scholar]
7.Panagiotis K, Ria B. Radio frequency identification (RFID) in a hospital environment. The Journal on Information Technology in Healthcare. 2006;4(2):83–91. [Google Scholar]
8.Sajid O, Haddara M, editors. NFC mobile payments: Are we ready for them? SAI Computing Conference (SAI), 2016; 2016: IEEE.
9.Ajami S, Rajabzadeh A. Radio Frequency Identification (RFID) technology and patient safety. Journal of research in medical sciences: the official journal of Isfahan University of Medical Sciences. 2013;18(9):809. [PMC free article] [PubMed] [Google Scholar]
10.Hu L, Ong DM, Zhu X, Liu Q, Song E. Enabling RFID technology for healthcare: application, architecture, and challenges. Telecommunication Systems. 2015;58(3):259–271. [Google Scholar]
11.Zailani S, Iranmanesh M, Nikbin D, Beng JKC. Determinants of RFID adoption in Malaysia’s healthcare industry: occupational level as a moderator. Journal of medical systems. 2015;39(1):172. doi: 10.1007/s10916-014-0172-4. [DOI] [PubMed] [Google Scholar]
12.Sun PR, Wang BH, Wu F. A new method to guard inpatient medication safety by the implementation of RFID. Journal of Medical Systems. 2008;32(4):327–332. doi: 10.1007/s10916-008-9137-9. [DOI] [PubMed] [Google Scholar]
13.Bryman A. Social research methods: OUP Oxford; 2012.
14.Podaima BW, Friesen M, McLeod RD. A review of emerging smart RFID in healthcare. CMBES Proceedings. 2018; 33 (1).
15.Paaske S, Bauer A, Moser T, Seckman C. The Benefits and Barriers to RFID Technology in Healthcare. On-Line Journal of Nursing Informatics. 2017;21(2) [Google Scholar]
16.Pérez M Martínez, González G Vázquez, Dafonte C. Safety and traceability in patient healthcare through the integration of RFID technology for intravenous mixtures in the prescription-validation-elaboration-dispensation-administration circuit to day hospital patients. Sensors. 2016;16(8):1188. doi: 10.3390/s16081188. [DOI] [PMC free article] [PubMed] [Google Scholar]
17.Turcu CT. RFID-based Solutions for Smarter Healthcare. arXiv preprint arXiv:170509855. 2017.
18.Coustasse A, Cunningham B, Deslich S, Wilson E, Meadows P. Management of RFID Systems in Hospital Transfusion Services. 2015. [PMC free article] [PubMed]
19.Pérez M Martínez, González G Vázquez, Dafonte C. Evaluation of a tracking system for patients and mixed intravenous medication based on rfid technology. Sensors. 2016;16(12):2031. doi: 10.3390/s16122031. [DOI] [PMC free article] [PubMed] [Google Scholar]
20.Khalid M, Afzaal H, Hassan S. Zafar NA. Analysis and Formal Model of RFID-Based Patient Registration System. Analysis. 2017;8(11) [Google Scholar]
21.Liao Y-T, Chen T-L, T-S Chen, Zhong Z-H, J-H Hwang. The Application of RFID to Healthcare Management of Nursing House. Wireless Personal Communications. 2016;91(3):1237–1257. [Google Scholar]
22.Azevedo SG, Ferreira JJ. Radio frequency identification: a case study of healthcare organisations. International Journal of Security and Networks. 2010;5(2-3):147–155. [Google Scholar]
23.MM Pérez, Cabrero-Canosa M, Hermida JV, García LC, Gómez DL, González GV. Application of RFID technology in patient tracking and medication traceability in emergency care. Journal of medical systems. 2012;36(6):3983–3993. doi: 10.1007/s10916-012-9871-x. [DOI] [PubMed] [Google Scholar]
24.Amendola S, Lodato R, Manzari S, Occhiuzzi C, Marrocco G. RFID technology for IoT-based personal healthcare in smart spaces. IEEE Internet of things journal. 2014;1(2):144–152. [Google Scholar]
25.Ariffin FNH, Wan AT, Suhaili WSH, editors. Psychiatric patients monitoring using RFID: An affordable approach. Computer and Communications (ICCC), 2015 IEEE International Conference on; 2015: IEEE.
26.Alsinglawi B, Liu T, Nguyen QV, Gunawardana U, Maeder A, Simoff SJ, editors. Passive RFID localisation framework in smart homes healthcare settings. The Promise of New Technologies in an Age of New Health Challenges: Selected Papers from 5th Global Telehealth Conference 2016, Auckland, New Zealand, 1-2 November 2016; 2016. [PubMed]
27.Catarinucci L, De Donno D, Mainetti L, Palano L, Patrono L, Stefanizzi ML. An IoT-aware architecture for smart healthcare systems. IEEE Internet of Things Journal. 2015;2(6):515–526. [Google Scholar]
28.Yazici HJ. An exploratory analysis of hospital perspectives on real time information requirements and perceived benefits of RFID technology for future adoption. International Journal of Information Management. 2014;34(5):603–621. [Google Scholar]
29.Alyami A, CAMPION R, ATKINS A. Performance Improvement in Hospital Management using RFID and ZigBee Technologies for Tracking and Monitoring Patients and Assets in Saudi Arabia. 2016.
30.Omar HQ, Khoshnaw A, Monnet W, editors. Smart patient management, monitoring and tracking system using radio-frequency identification (RFID) technology. Biomedical Engineering and Sciences (IECBES), 2016 IEEE EMBS Conference on; 2016: IEEE.
31.Wauben LS, Guédon AC, De Korne D, den Dobbelsteen J Van. Tracking surgical day care patients using RFID technology. BMJ Innovations. 2015 bmjinnov-2015-000038. [Google Scholar]
32.Al-Masri E, Hamdi M. RFID-based approach for monitoring patient’s health inside hospitals. New trends in networking, computing, E-learning, systems sciences, and engineering: Springer; 2015:607–613. [Google Scholar]
33.Raad M, Sheltami T, editors. RFID Based Telemedicine System for Localizing Elderly with Chronic Diseases. International Conference on IoT Technologies for HealthCare; 2016: Springer.
34.Atkins AS, Alharbe N. Sensor Technologies using ZigBee and RFID within the Cloud of Internet of Things in Healthcare Applications. Technia. 2014;6(2):923. [Google Scholar]
35.Khan SF, editor Health care monitoring system in Internet of Things (IoT) by using RFID. Industrial Technology and Management (ICITM), International Conference on; 2017: IEEE.
36.Takacs B, Hanak D. A prototype home robot with an ambient facial interface to improve drug compliance. Journal of telemedicine and telecare. 2008;14(7):393–395. doi: 10.1258/jtt.2008.007016. [DOI] [PubMed] [Google Scholar]
37.Katsiri E, Pramatari K, Billiris A, Kaiafas A, Christodoulakis A, Karanikas H, editors. RFCure: An RFID Based Blood Bank/Healthcare Information Management System. XIV Mediterranean Conference on Medical and Biological Engineering and Computing 2016; 2016: Springer.
38.Rosenbaum BP. Radio frequency identification (RFID) in health care: privacy and security concerns limiting adoption. Journal of medical systems. 2014;38(3):19. doi: 10.1007/s10916-014-0019-z. [DOI] [PubMed] [Google Scholar]
39.Hu B, See KY, Richard W-YC. Electromagnetic Compatibility and19th International Zurich Symposium on Electromagnetic Compatibility. IEEE; 2008. Evaluation of ferrite core EMI suppression under realistic working conditions. APEMC 2008 Asia-Pacific Symposium on; 2008. [Google Scholar]
40.Hu L, Ong D, Zhu X, Liu Q, Song E. Enabling RFID technology for healthcare: application, architecture, and challenges2014. 259–71 p.
41.Rahman F, Bhuiyan MZA, Ahamed SI. A privacy preserving framework for RFID based healthcare systems. Future Generation Computer Systems. 2017;72:339–352. [Google Scholar]
42.JT Kim. Privacy and security issues for healthcare system with embedded rfid system on internet of things. Advanced Science and Technology Letters. 2014;72:109–112. [Google Scholar]
43.Winston TG, Paul S, Iyer L, editors. A study of privacy and security concerns on doctors’ and nurses’ behavioral intentions to use RFID in hospitals. System Sciences (HICSS), 2016 49th Hawaii International Conference on; 2016: IEEE.
44.Rahman F, Williams D, Ahamed SI, Yang J-J, Wang Q, editors. PriDaC: Privacy preserving data collection in sensor enabled RFID based healthcare services. High-Assurance Systems Engineering (HASE), 2014 IEEE 15th International Symposium on; 2014: IEEE.
45.Security FakhrA. Privacy and Ethical Barriers in Adoption of RFID in Healthcare Sector (Iranian Hospitals). Journal of Engineering and Applied Sciences. 2016;11(8):1811–1821. [Google Scholar]
46.Lee C-P, Shim JP. An exploratory study of radio frequency identification (RFID) adoption in the healthcare industry. European Journal of Information Systems. 2007;16(6):712–724. [Google Scholar]
47.Anif M, Putra AS, Ernawati D, Prabuwono AS, editors. HoMeTrack: RFID-based localization for hospital medicine tracking system. Information Technology, Computer, and Electrical Engineering (ICITACEE), 2015 2nd International Conference on; 2015: IEEE.
48.Yao W, Chu C-H, Li Z, editors. The use of RFID in healthcare: Benefits and barriers. RFID-Technology and Applications (RFID-TA), 2010 IEEE International Conference on; 2010: IEEE.
49.Ma H, Wang K. Research on application of RFID technology in health care. WIT Transactions on Engineering Sciences. 2016;113:209–216. [Google Scholar]
50.Manzoor A. RFID in Health Care-Building Smart Hospitals for Quality Healthcare. Health Care Delivery and Clinical Science: Concepts, Methodologies, Tools, and Applications: IGI Global; 2018:839–867. [Google Scholar]
51.Dey A, Vijayaraman B, Choi JH. RFID in US hospitals: an exploratory investigation of technology adoption. Management Research Review. 2016;39(4):399–424. [Google Scholar]
52.Iranmanesh M, Zailani S, Nikbin D. RFID continuance usage intention in health care industry. Quality Management in Healthcare. 2017;26(2):116–123. doi: 10.1097/QMH.0000000000000134. [DOI] [PubMed] [Google Scholar]
53.Hornyak R, Lewis M, Sankaranarayan B. Radio frequency identification–enabled capabilities in a healthcare context: An exploratory study. Health informatics journal. 2016;22(3):562–578. doi: 10.1177/1460458215572923. [DOI] [PubMed] [Google Scholar]
54.Cha AE. Researchers: Medical errors now third leading cause of death in United States. The Washington Post. 2016 [Google Scholar]

[bib0001] 1.WHO. Patient Safety. World Health Organization; 2018.

[bib0002] 2.Aguilar A, Van Der Putten W, Kirrane F, editors. Positive patient identification using RFID and wireless networks. HISI11th Annual Conference and Scientific Symposium; 2006.

[bib0003] 3.Mehrjerdi YZ. RFID Role in Efficient Management of Healthcare Systems: A System Thinking Perspective. International Journal of Industrial Engineering. 2015;26(1):45–61. [Google Scholar]

[bib0004] 4.Yao W, Chu C-H, Li Z. The Adoption and Implementation of RFID Technologies in Healthcare: A Literature Review. Journal of Medical Systems. 2012;36:3507–3525. doi: 10.1007/s10916-011-9789-8. [DOI] [PubMed] [Google Scholar]

[bib0005] 5.Roberti M. The history of RFID technology. RFID journal. 2005;16(01) [Google Scholar]

[bib0006] 6.Tzeng S-F, Chen W-H, Pai F-Y. Evaluating the business value of RFID: Evidence from five case studies. International Journal of Production Economics. 2008;112(2):601–613. [Google Scholar]

[bib0007] 7.Panagiotis K, Ria B. Radio frequency identification (RFID) in a hospital environment. The Journal on Information Technology in Healthcare. 2006;4(2):83–91. [Google Scholar]

[bib0008] 8.Sajid O, Haddara M, editors. NFC mobile payments: Are we ready for them? SAI Computing Conference (SAI), 2016; 2016: IEEE.

[bib0009] 9.Ajami S, Rajabzadeh A. Radio Frequency Identification (RFID) technology and patient safety. Journal of research in medical sciences: the official journal of Isfahan University of Medical Sciences. 2013;18(9):809. [PMC free article] [PubMed] [Google Scholar]

[bib00010] 10.Hu L, Ong DM, Zhu X, Liu Q, Song E. Enabling RFID technology for healthcare: application, architecture, and challenges. Telecommunication Systems. 2015;58(3):259–271. [Google Scholar]

[bib00011] 11.Zailani S, Iranmanesh M, Nikbin D, Beng JKC. Determinants of RFID adoption in Malaysia’s healthcare industry: occupational level as a moderator. Journal of medical systems. 2015;39(1):172. doi: 10.1007/s10916-014-0172-4. [DOI] [PubMed] [Google Scholar]

[bib00012] 12.Sun PR, Wang BH, Wu F. A new method to guard inpatient medication safety by the implementation of RFID. Journal of Medical Systems. 2008;32(4):327–332. doi: 10.1007/s10916-008-9137-9. [DOI] [PubMed] [Google Scholar]

[bib00013] 13.Bryman A. Social research methods: OUP Oxford; 2012.

[bib00014] 14.Podaima BW, Friesen M, McLeod RD. A review of emerging smart RFID in healthcare. CMBES Proceedings. 2018; 33 (1).

[bib00015] 15.Paaske S, Bauer A, Moser T, Seckman C. The Benefits and Barriers to RFID Technology in Healthcare. On-Line Journal of Nursing Informatics. 2017;21(2) [Google Scholar]

[bib00016] 16.Pérez M Martínez, González G Vázquez, Dafonte C. Safety and traceability in patient healthcare through the integration of RFID technology for intravenous mixtures in the prescription-validation-elaboration-dispensation-administration circuit to day hospital patients. Sensors. 2016;16(8):1188. doi: 10.3390/s16081188. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bib00017] 17.Turcu CT. RFID-based Solutions for Smarter Healthcare. arXiv preprint arXiv:170509855. 2017.

[bib00018] 18.Coustasse A, Cunningham B, Deslich S, Wilson E, Meadows P. Management of RFID Systems in Hospital Transfusion Services. 2015. [PMC free article] [PubMed]

[bib00019] 19.Pérez M Martínez, González G Vázquez, Dafonte C. Evaluation of a tracking system for patients and mixed intravenous medication based on rfid technology. Sensors. 2016;16(12):2031. doi: 10.3390/s16122031. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bib00020] 20.Khalid M, Afzaal H, Hassan S. Zafar NA. Analysis and Formal Model of RFID-Based Patient Registration System. Analysis. 2017;8(11) [Google Scholar]

[bib00021] 21.Liao Y-T, Chen T-L, T-S Chen, Zhong Z-H, J-H Hwang. The Application of RFID to Healthcare Management of Nursing House. Wireless Personal Communications. 2016;91(3):1237–1257. [Google Scholar]

[bib00022] 22.Azevedo SG, Ferreira JJ. Radio frequency identification: a case study of healthcare organisations. International Journal of Security and Networks. 2010;5(2-3):147–155. [Google Scholar]

[bib00023] 23.MM Pérez, Cabrero-Canosa M, Hermida JV, García LC, Gómez DL, González GV. Application of RFID technology in patient tracking and medication traceability in emergency care. Journal of medical systems. 2012;36(6):3983–3993. doi: 10.1007/s10916-012-9871-x. [DOI] [PubMed] [Google Scholar]

[bib00024] 24.Amendola S, Lodato R, Manzari S, Occhiuzzi C, Marrocco G. RFID technology for IoT-based personal healthcare in smart spaces. IEEE Internet of things journal. 2014;1(2):144–152. [Google Scholar]

[bib00025] 25.Ariffin FNH, Wan AT, Suhaili WSH, editors. Psychiatric patients monitoring using RFID: An affordable approach. Computer and Communications (ICCC), 2015 IEEE International Conference on; 2015: IEEE.

[bib00026] 26.Alsinglawi B, Liu T, Nguyen QV, Gunawardana U, Maeder A, Simoff SJ, editors. Passive RFID localisation framework in smart homes healthcare settings. The Promise of New Technologies in an Age of New Health Challenges: Selected Papers from 5th Global Telehealth Conference 2016, Auckland, New Zealand, 1-2 November 2016; 2016. [PubMed]

[bib00027] 27.Catarinucci L, De Donno D, Mainetti L, Palano L, Patrono L, Stefanizzi ML. An IoT-aware architecture for smart healthcare systems. IEEE Internet of Things Journal. 2015;2(6):515–526. [Google Scholar]

[bib00028] 28.Yazici HJ. An exploratory analysis of hospital perspectives on real time information requirements and perceived benefits of RFID technology for future adoption. International Journal of Information Management. 2014;34(5):603–621. [Google Scholar]

[bib00029] 29.Alyami A, CAMPION R, ATKINS A. Performance Improvement in Hospital Management using RFID and ZigBee Technologies for Tracking and Monitoring Patients and Assets in Saudi Arabia. 2016.

[bib00030] 30.Omar HQ, Khoshnaw A, Monnet W, editors. Smart patient management, monitoring and tracking system using radio-frequency identification (RFID) technology. Biomedical Engineering and Sciences (IECBES), 2016 IEEE EMBS Conference on; 2016: IEEE.

[bib00031] 31.Wauben LS, Guédon AC, De Korne D, den Dobbelsteen J Van. Tracking surgical day care patients using RFID technology. BMJ Innovations. 2015 bmjinnov-2015-000038. [Google Scholar]

[bib00032] 32.Al-Masri E, Hamdi M. RFID-based approach for monitoring patient’s health inside hospitals. New trends in networking, computing, E-learning, systems sciences, and engineering: Springer; 2015:607–613. [Google Scholar]

[bib00033] 33.Raad M, Sheltami T, editors. RFID Based Telemedicine System for Localizing Elderly with Chronic Diseases. International Conference on IoT Technologies for HealthCare; 2016: Springer.

[bib00034] 34.Atkins AS, Alharbe N. Sensor Technologies using ZigBee and RFID within the Cloud of Internet of Things in Healthcare Applications. Technia. 2014;6(2):923. [Google Scholar]

[bib00035] 35.Khan SF, editor Health care monitoring system in Internet of Things (IoT) by using RFID. Industrial Technology and Management (ICITM), International Conference on; 2017: IEEE.

[bib00036] 36.Takacs B, Hanak D. A prototype home robot with an ambient facial interface to improve drug compliance. Journal of telemedicine and telecare. 2008;14(7):393–395. doi: 10.1258/jtt.2008.007016. [DOI] [PubMed] [Google Scholar]

[bib00037] 37.Katsiri E, Pramatari K, Billiris A, Kaiafas A, Christodoulakis A, Karanikas H, editors. RFCure: An RFID Based Blood Bank/Healthcare Information Management System. XIV Mediterranean Conference on Medical and Biological Engineering and Computing 2016; 2016: Springer.

[bib00038] 38.Rosenbaum BP. Radio frequency identification (RFID) in health care: privacy and security concerns limiting adoption. Journal of medical systems. 2014;38(3):19. doi: 10.1007/s10916-014-0019-z. [DOI] [PubMed] [Google Scholar]

[bib00039] 39.Hu B, See KY, Richard W-YC. Electromagnetic Compatibility and19th International Zurich Symposium on Electromagnetic Compatibility. IEEE; 2008. Evaluation of ferrite core EMI suppression under realistic working conditions. APEMC 2008 Asia-Pacific Symposium on; 2008. [Google Scholar]

[bib00040] 40.Hu L, Ong D, Zhu X, Liu Q, Song E. Enabling RFID technology for healthcare: application, architecture, and challenges2014. 259–71 p.

[bib00041] 41.Rahman F, Bhuiyan MZA, Ahamed SI. A privacy preserving framework for RFID based healthcare systems. Future Generation Computer Systems. 2017;72:339–352. [Google Scholar]

[bib00042] 42.JT Kim. Privacy and security issues for healthcare system with embedded rfid system on internet of things. Advanced Science and Technology Letters. 2014;72:109–112. [Google Scholar]

[bib00043] 43.Winston TG, Paul S, Iyer L, editors. A study of privacy and security concerns on doctors’ and nurses’ behavioral intentions to use RFID in hospitals. System Sciences (HICSS), 2016 49th Hawaii International Conference on; 2016: IEEE.

[bib00044] 44.Rahman F, Williams D, Ahamed SI, Yang J-J, Wang Q, editors. PriDaC: Privacy preserving data collection in sensor enabled RFID based healthcare services. High-Assurance Systems Engineering (HASE), 2014 IEEE 15th International Symposium on; 2014: IEEE.

[bib00045] 45.Security FakhrA. Privacy and Ethical Barriers in Adoption of RFID in Healthcare Sector (Iranian Hospitals). Journal of Engineering and Applied Sciences. 2016;11(8):1811–1821. [Google Scholar]

[bib00046] 46.Lee C-P, Shim JP. An exploratory study of radio frequency identification (RFID) adoption in the healthcare industry. European Journal of Information Systems. 2007;16(6):712–724. [Google Scholar]

[bib00047] 47.Anif M, Putra AS, Ernawati D, Prabuwono AS, editors. HoMeTrack: RFID-based localization for hospital medicine tracking system. Information Technology, Computer, and Electrical Engineering (ICITACEE), 2015 2nd International Conference on; 2015: IEEE.

[bib00048] 48.Yao W, Chu C-H, Li Z, editors. The use of RFID in healthcare: Benefits and barriers. RFID-Technology and Applications (RFID-TA), 2010 IEEE International Conference on; 2010: IEEE.

[bib00049] 49.Ma H, Wang K. Research on application of RFID technology in health care. WIT Transactions on Engineering Sciences. 2016;113:209–216. [Google Scholar]

[bib00050] 50.Manzoor A. RFID in Health Care-Building Smart Hospitals for Quality Healthcare. Health Care Delivery and Clinical Science: Concepts, Methodologies, Tools, and Applications: IGI Global; 2018:839–867. [Google Scholar]

[bib00051] 51.Dey A, Vijayaraman B, Choi JH. RFID in US hospitals: an exploratory investigation of technology adoption. Management Research Review. 2016;39(4):399–424. [Google Scholar]

[bib00052] 52.Iranmanesh M, Zailani S, Nikbin D. RFID continuance usage intention in health care industry. Quality Management in Healthcare. 2017;26(2):116–123. doi: 10.1097/QMH.0000000000000134. [DOI] [PubMed] [Google Scholar]

[bib00053] 53.Hornyak R, Lewis M, Sankaranarayan B. Radio frequency identification–enabled capabilities in a healthcare context: An exploratory study. Health informatics journal. 2016;22(3):562–578. doi: 10.1177/1460458215572923. [DOI] [PubMed] [Google Scholar]

[bib00054] 54.Cha AE. Researchers: Medical errors now third leading cause of death in United States. The Washington Post. 2016 [Google Scholar]

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RFID Applications and Adoptions in Healthcare: A Review on Patient Safety

Moutaz Haddara

Anna Staaby

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RFID Applications and Adoptions in Healthcare: A Review on Patient Safety

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Anna Staaby

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