This thesis investigates the use of electronic medical record (EMR) systems and risk management in hospitals. It provides a critical analysis of recognized EMR systems and potential failures and discusses six traditional risk management techniques including brain storming, cause, effect analysis, failure mode effective analysis (FMEA), fault tree analysis (FTA), and Binary Decision Diagram (BDD) in addition, to one of the most recent systematic risk management techniques, Systems Theoretic Accident Model Process (STAMP). The traditional techniques are not as well suited to managing risks and preventing failures in modern information systems with complex software that involves human and machine interaction. The thesis introduces the implementation of common traditional risk management technique such as BDD and FTA which is mostly used in nuclear plants, transportation and medical devices backed by a hypothetical example to help and explain the process of the FTA usage. Most traditional techniques rely on a direct cause-and-effect chain and have no clear formal guidance. The systematic technique introduced and used in this study, is known as Systems Theoretic Accident Model Process (STAMP). It is one of the recent systematic techniques developed and used in many sectors including aerospace. This study applied the STAMP technique to the EMR system failure at King Khalid General Hospital (KKGH) in Riyadh. One of the reasons for selecting the STAMP technique is that it is based on system theory and established the risk factors that lead to system failure. It also provides guidance for managing and controlling risk factors. This thesis discusses the implementation of STAMP, supported by examples, to explain how the technique conducted. System failures occur unexpectedly and have the potential to affect health services; they can compromise patient health and sometimes lead to death. The aims of this study are to explore The Kingdom of Saudi Arabia healthcare usage of EMRs and risk factors that leads to system failure and demonstrate the benefit of STAMP for RM in EMR system, define gaps and provide suggestion based on international best practice The study was conducted in three phases. The first phase explored EMR system usage and failures. The second phase implemented the STAMP risk management technique at one hospital of our 8 surveyed hospitals, the King Khalid General Hospital’s (KKGH), to identify and manage risks. In the third phase, the study modified the STAMP technique and reapplied it. The modified technique STAMP Checklist (STAMPC) was compared with the original STAMP technique. We found that STAMPC is much more usable and subjectively beneficial for the hospital that uses a hybrid system. Data extracted using the modified technique provided more useful information to improve EMR system safety, and prevent potential failures. This study addresses the challenges of how effectively RM techniques used to reduce the potential risk of EMR system failures in hospitals. It improves the efficiency of the STAMP risk management technique by proposing a new (STAMPC) technique. There are 3 important implications for both RM and EMRs practice: first, the study suggests that RM and EMRs are integral parts of the management decision-making process; second, they are necessary to improve human health and safety; and, third, RM may minimise the possibility of system failure.
Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:630011 |
Date | January 2013 |
Creators | Barnawi, Abdullah |
Publisher | De Montfort University |
Source Sets | Ethos UK |
Detected Language | English |
Type | Electronic Thesis or Dissertation |
Source | http://hdl.handle.net/2086/10411 |
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