Safety portal

The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department

Chang-I Chen, Cheuk-Sing Choy, Tu-bin Chu, Yu-Sheng Lo, Wei Kee Huang, Ching Feng Kuan, Yu-Chuan Li

Research output: Chapter in Book/Report/Conference proceedingConference contribution

5 Citations (Scopus)

Abstract

Under the safety net of hospital-based patient safety informatics (PSI) system, RFID is build to adapt emergency department safety needs and the process improvement activities. We implemented the RFID framework as the electronic patient identifier into the process improvement of ED workflow; it defined as the safety portal to introduce PSI safety features on the real-time basis. METHODS. Since 2004, we were applying RFID technology into a 200 daily visits emergency department of the regional medical center in Taipei, Taiwan. We then developed wireless web-based RFID safety portal to implement the real-time safety reminders such as the laboratory and radiology reports to the physician who can make decision promptly to the patients in the ED. RESULTS. Under the ED safety portal, the diagnosis time for physicians to make clinical decision is largely reduced nearly 40 percent due to the safety enhancement RFID system. ED physician who could actively receive patient's updated clinical data to make clinical decision via web-based informatics system reasonably decreases. CONCLUSIONS. The effectiveness of RFID system not only enhance patient identification during ED process but combine ED safety net which providing needed data for ED physician and staff who visit ED patients with valuable real-time data on time. Patient safety on ED can be clearly improved from the embracing modern technology and build up a patient centered ED environment.

Original languageEnglish
Title of host publicationStudies in Health Technology and Informatics
Pages77-82
Number of pages6
Volume124
Publication statusPublished - 2006
Event20th International Congress of the European Federation for Medical Informatics, MIE 2006 - Maastricht, Netherlands
Duration: Aug 27 2006Aug 30 2006

Other

Other20th International Congress of the European Federation for Medical Informatics, MIE 2006
CountryNetherlands
CityMaastricht
Period8/27/068/30/06

Fingerprint

Radio Frequency Identification Device
Patient Safety
Hospital Emergency Service
Air
Safety
Radio frequency identification (RFID)
Informatics
Physicians
Safety-net Providers
Technology
Workflow
Taiwan
Radiology
World Wide Web
Identification (control systems)

Keywords

  • Emergency Department ED
  • High Risk Reminder (HRR)
  • Radio Frequency Identification RFID
  • Safety Portal

ASJC Scopus subject areas

  • Biomedical Engineering
  • Health Informatics
  • Health Information Management
  • Medicine(all)

Cite this

Chen, C-I., Choy, C-S., Chu, T., Lo, Y-S., Huang, W. K., Kuan, C. F., & Li, Y-C. (2006). Safety portal: The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department. In Studies in Health Technology and Informatics (Vol. 124, pp. 77-82)

Safety portal : The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department. / Chen, Chang-I; Choy, Cheuk-Sing; Chu, Tu-bin; Lo, Yu-Sheng; Huang, Wei Kee; Kuan, Ching Feng; Li, Yu-Chuan.

Studies in Health Technology and Informatics. Vol. 124 2006. p. 77-82.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Chen, C-I, Choy, C-S, Chu, T, Lo, Y-S, Huang, WK, Kuan, CF & Li, Y-C 2006, Safety portal: The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department. in Studies in Health Technology and Informatics. vol. 124, pp. 77-82, 20th International Congress of the European Federation for Medical Informatics, MIE 2006, Maastricht, Netherlands, 8/27/06.
Chen C-I, Choy C-S, Chu T, Lo Y-S, Huang WK, Kuan CF et al. Safety portal: The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department. In Studies in Health Technology and Informatics. Vol. 124. 2006. p. 77-82
Chen, Chang-I ; Choy, Cheuk-Sing ; Chu, Tu-bin ; Lo, Yu-Sheng ; Huang, Wei Kee ; Kuan, Ching Feng ; Li, Yu-Chuan. / Safety portal : The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department. Studies in Health Technology and Informatics. Vol. 124 2006. pp. 77-82
@inproceedings{15f012c027fc4915a2faa8217dab4c82,
title = "Safety portal: The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department",
abstract = "Under the safety net of hospital-based patient safety informatics (PSI) system, RFID is build to adapt emergency department safety needs and the process improvement activities. We implemented the RFID framework as the electronic patient identifier into the process improvement of ED workflow; it defined as the safety portal to introduce PSI safety features on the real-time basis. METHODS. Since 2004, we were applying RFID technology into a 200 daily visits emergency department of the regional medical center in Taipei, Taiwan. We then developed wireless web-based RFID safety portal to implement the real-time safety reminders such as the laboratory and radiology reports to the physician who can make decision promptly to the patients in the ED. RESULTS. Under the ED safety portal, the diagnosis time for physicians to make clinical decision is largely reduced nearly 40 percent due to the safety enhancement RFID system. ED physician who could actively receive patient's updated clinical data to make clinical decision via web-based informatics system reasonably decreases. CONCLUSIONS. The effectiveness of RFID system not only enhance patient identification during ED process but combine ED safety net which providing needed data for ED physician and staff who visit ED patients with valuable real-time data on time. Patient safety on ED can be clearly improved from the embracing modern technology and build up a patient centered ED environment.",
keywords = "Emergency Department ED, High Risk Reminder (HRR), Radio Frequency Identification RFID, Safety Portal",
author = "Chang-I Chen and Cheuk-Sing Choy and Tu-bin Chu and Yu-Sheng Lo and Huang, {Wei Kee} and Kuan, {Ching Feng} and Yu-Chuan Li",
year = "2006",
language = "English",
isbn = "1586036475",
volume = "124",
pages = "77--82",
booktitle = "Studies in Health Technology and Informatics",

}

TY - GEN

T1 - Safety portal

T2 - The safest goes through the air ubiquitous high-risk reminders bridging out the patient safety in emergency department

AU - Chen, Chang-I

AU - Choy, Cheuk-Sing

AU - Chu, Tu-bin

AU - Lo, Yu-Sheng

AU - Huang, Wei Kee

AU - Kuan, Ching Feng

AU - Li, Yu-Chuan

PY - 2006

Y1 - 2006

N2 - Under the safety net of hospital-based patient safety informatics (PSI) system, RFID is build to adapt emergency department safety needs and the process improvement activities. We implemented the RFID framework as the electronic patient identifier into the process improvement of ED workflow; it defined as the safety portal to introduce PSI safety features on the real-time basis. METHODS. Since 2004, we were applying RFID technology into a 200 daily visits emergency department of the regional medical center in Taipei, Taiwan. We then developed wireless web-based RFID safety portal to implement the real-time safety reminders such as the laboratory and radiology reports to the physician who can make decision promptly to the patients in the ED. RESULTS. Under the ED safety portal, the diagnosis time for physicians to make clinical decision is largely reduced nearly 40 percent due to the safety enhancement RFID system. ED physician who could actively receive patient's updated clinical data to make clinical decision via web-based informatics system reasonably decreases. CONCLUSIONS. The effectiveness of RFID system not only enhance patient identification during ED process but combine ED safety net which providing needed data for ED physician and staff who visit ED patients with valuable real-time data on time. Patient safety on ED can be clearly improved from the embracing modern technology and build up a patient centered ED environment.

AB - Under the safety net of hospital-based patient safety informatics (PSI) system, RFID is build to adapt emergency department safety needs and the process improvement activities. We implemented the RFID framework as the electronic patient identifier into the process improvement of ED workflow; it defined as the safety portal to introduce PSI safety features on the real-time basis. METHODS. Since 2004, we were applying RFID technology into a 200 daily visits emergency department of the regional medical center in Taipei, Taiwan. We then developed wireless web-based RFID safety portal to implement the real-time safety reminders such as the laboratory and radiology reports to the physician who can make decision promptly to the patients in the ED. RESULTS. Under the ED safety portal, the diagnosis time for physicians to make clinical decision is largely reduced nearly 40 percent due to the safety enhancement RFID system. ED physician who could actively receive patient's updated clinical data to make clinical decision via web-based informatics system reasonably decreases. CONCLUSIONS. The effectiveness of RFID system not only enhance patient identification during ED process but combine ED safety net which providing needed data for ED physician and staff who visit ED patients with valuable real-time data on time. Patient safety on ED can be clearly improved from the embracing modern technology and build up a patient centered ED environment.

KW - Emergency Department ED

KW - High Risk Reminder (HRR)

KW - Radio Frequency Identification RFID

KW - Safety Portal

UR - http://www.scopus.com/inward/record.url?scp=39049191423&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=39049191423&partnerID=8YFLogxK

M3 - Conference contribution

SN - 1586036475

SN - 9781586036478

VL - 124

SP - 77

EP - 82

BT - Studies in Health Technology and Informatics

ER -