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Guide The Risk Management of Safety and Dependability. A Guide for Directors, Managers and Engineers

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Homepage News News article. Reviews The risk management of safety and dependability by W. Article image Corporate safety culture need not be a dull but worthy read. Professional Engineering magazine. Professional Engineering app. To book a place at this event, please use the online booking form instead. Apologies for the inconvenience caused. Homepage Events Upcoming events Event detail. Managing risk. Is competence in safety and reliability a mirage? There are currently no Programme details available.

There are currently no speaker details available. Ticket type. Booking multiple tickets or on behalf of someone else? Please email eventenquiries imeche. Costella M. A method for assessing health and safety management systems from the resilience engineering perspective. Safety Science , 47 , — Cusack C. Health information technology evaluation toolkit: update No.

De Keyser V. Fixation errors: Failures to revise situation assessment in dynamic and risky systems. In Colombo A. Dordrecht, Netherlands: Springer. Dekker S. The field guide to understanding human error 1st ed. Department of Health and Human Services. Endsley M. Design and evaluation for situation awareness enhancement. Santa Monica: CA: Sage. Furukawa M. Greenhalgh T. Tensions and paradoxes in electronic patient record research: A systematic literature review using the meta-narrative method.

Milbank Quarterly , 87 , — Grol R. The Lancet , , — Hale A. Auditing resilience in risk control and safety management systems. Modelling of safety management systems. Safety Science , 26 , — Hammond K. Are electronic medical records trustworthy? Observations on copying, pasting and duplication. Han Y. Orr R. Unexpected increased mortality after implementation of a commercially sold computerized physician order entry system.

Pediatrics , , — Hersh W. What workforce is needed to implement the health information technology agenda? Hoffman R. Hollnagel E. The changing nature of risk. Ergonomics Australia Journal , 22 , 33— Safety management: Looking back or looking forward. The four cornerstones of resilience engineering. In Nemeth C. To learn or not to learn, that is the question.

Resilience engineering: Concepts and precepts. Hsieh T. Gandhi T. Characteristics and consequences of drug allergy alert overrides in a computerized physician order entry system. Journal of the American Medical Informatics Association , 11 , — Hundt A. Conducting an efficient proactive risk assessment prior to CPOE implementation in an intensive care unit. International Journal of Medical Informatics , 82 , 25— Hunte G. Structure, agency, and resilience. Institute of Medicine. Health IT and patient safety: Building safer systems for better care.

Jha A. Getting moving on patient safety: Harnessing electronic data for safer care. Kannampallil T. Considering complexity in healthcare systems. Journal of Biomedical Informatics , 44 , — Karsh B. Health information technology: Fallacies and sober realities. Journal of the American Medical Informatics Association , 17 , — Klein G. Performing a project premortem. Harvard Business Review , 85 9 , 18— Anticipatory thinking.

In Mosier K. Informed by knowledge: Expert performance in complex situations pp. Leveson N. A new accident model for engineering safer systems.


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Safety Science , 42 , — Engineering resilience into safety-critical systems. Engineering a safer world: Systems thinking applied to safety. Lipshitz R. Rigor and relevance in NDM: How to study decision making rigorously with small n s and without controls and inferential statistics. Journal of Cognitive Engineering and Decision Making , 4 , 99— Longhurst C. Sharek P.

Decrease in hospital-wide mortality rate after implementation of a commercially sold computerized physician order entry system. Pediatrics , , 14— Magrabi F. Using FDA reports to inform a classification for health information technology safety problems. Journal of the American Medical Informatics Association , 19 , 45— Middleton B. Zhang J. Enhancing patient safety and quality of care by improving the usability of electronic health record systems: Recommendations from AMIA.

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Journal of the American Medical Informatics Association , 20 e1 , e2—e8. Militello L. Decision-centered design. In Lee J. Myers R. Review of reported clinical information system adverse events in US Food and Drug Administration databases. Applied Clinical Informatics , 2 , Nemeth C. Resilience engineering: The birth of a notion. Healthcare IT as a source of resilience. Office of the National Coordinator. Resilience and the ability to respond. Patton M. Qualitative research and evaluation methods. Thousand Oaks, CA: Sage. Paulus R. Continuous innovation in health care: Implications of the Geisinger experience.

Health Affairs , 27 , — Pejtersen A. Ecological information systems and support of learning: Coupling work domain information to user characteristics. In Helander M. Amsterdam: Elsevier. Phansalkar S. A review of human factors principles for the design and implementation of medication safety alerts in clinical information systems. Qureshi Z. Modeling industrial safety: A sociotechnical systems perspective.

Rankin A. Resilience in everyday operations a framework for analyzing adaptations in high-risk work. Advance online publication. Rasmussen J. Risk management in a dynamic society: A modelling problem. Safety Science , 27 , — Reason J. Managing the risks of organizational accidents. The human contribution: Unsafe acts, accidents and heroic recoveries. Reiman T.

Understanding maintenance work in safety-critical organisations: Managing the performance variability. Theoretical Issues in Ergonomics Science , 12 , — Human and organizational biases affecting the management of safety. Ritchie J. Qualitative data analysis for applied policy research. In Huberman M. Roberts K.

Reliability engineering

Some characteristics of one type of high reliability organization. Organization Science , 1 , — Roth E. Cognitive engineering across domains: What the wide-angle view can provide. Saleh J. Highlights from the literature on accident causation and system safety: Review of major ideas, recent contributions, and challenges.

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The reflective practitioner: How professionals think in action. Singh H. Sittig D. Recommendations for monitoring and evaluation of in-patient computer-based provider order entry systems: Results of a Delphi survey. Safe electronic health record use requires a comprehensive monitoring and evaluation framework.

Eight rights of safe electronic health record use. JAMA , , — A new sociotechnical model for studying health information technology in complex adaptive healthcare systems. Quality and Safety in Health Care , 19 Suppl. Electronic health records and national patient-safety goals. A red-flag-based approach to risk management of EHR-related safety concerns. Journal of Healthcare Risk Management , 33 2 , 21— Skorve E. Patient safety, resilience and ICT. A reason for concern? Studies in Health Technology and Informatics , , — Smith M.

Resilient actions in the diagnostic process and system performance. Teich J. Spurr C. International Journal of Medical Informatics , 54 , — Effects of computerized physician order entry on prescribing practices. Archives of Internal Medicine , , Vicente K.

Probabilistic Structural Analysis, Design, and Reliability-Risk Assessment

Cognitive work analysis: Toward safe, productive, and healthy computer-based work. From patients to politicians: A cognitive engineering view of patient safety. Quality and Safety in Health Care , 11 , — Walker J. Stewart W. EHR safety: The way forward to safe and effective systems. Journal of the American Medical Informatics Association , 15 , — Health IT hazard manager beta-test: Final report No. Watts-Perotti J. Cooperative advocacy: An approach for integrating diverse perspectives in anomaly response. Wears R. Rethinking healthcare as a safety-critical industry. Resilient Health Care.

Ashgate Publishing. Woods D. Resilience and the ability to anticipate. Farnham, UK: Ashgate Publishing. Essential characteristics of resilience. The stress-strain model of resilience operationalizes the four cornerstones of resilience engineering. Behind human error.

Joint cognitive systems: Patterns in cognitive systems engineering. An initial comparison of selected models of system resilience. Stress-strain plots as a basis for assessing system resilience. Wreathall J. Monitoring: A critical ability in resilience engineering. Wright A.

Early results of the meaningful use program for electronic health records. Support Center Support Center.