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Showing results for tags 'Nuclear'.
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Content ArticleThose who work in health and care are keenly aware of the need to identify and manage risks to protect patients from harm. But we are not the only industry that must take safety seriously. This video from the Healthcare Services Safety Investigation Branch (HSSIB) we compare notes with other safety-conscious industries – oil and gas, shipping, aviation, rail, road, nuclear and NASA – to understand their approach to safety management. In these fields, systems for organising and coordinating safety are often called Safety Management Systems (SMSs). See also HSSIB's report: Safety management systems: an introduction for healthcare.
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- Safety management
- System safety
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Content ArticlePoorly designed electronic health records (EHRs) are common, and research shows poor design consequences include clinician burnout, diagnostic error, and even patient harm. One of the major difficulties of EHR design is the visual display of information, which aims to present information in an easily digestible form for the user. High-risk industries like aviation, automotive, and nuclear have guidelines for visual displays based on human factors principles for optimised design. In this study, Pruitt et al. reviewed the visual display guidelines from three high-risk industries—automotive, aviation, nuclear—for their applicability to EHR design and safety.
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- Human factors
- Electronic Health Record
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Content ArticleAlarms are signals intended to capture and direct human attention to a potential issue that may require monitoring, assessment or intervention. They play a critical safety role in high-risk industries such as healthcare, which relies heavily on auditory and visual alarms. While there are some guidelines to inform alarm design and use, alarm fatigue and other alarm issues are challenges in the healthcare setting. The automotive, aviation, and nuclear industries have used the science of human factors to develop alarm design and use guidelines. This study in the journal Patient Safety aimed to assess whether these guidelines may provide insights for advancing patient safety in healthcare.
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- Human factors
- Ergonomics
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Content ArticleThis Chartered Institute of Ergonomics and Human Factors (CIEHF) webinar explores near misses in three different sectors and how controls can, or cannot, be developed to prevent future events.
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- Near miss
- High reliability organisations
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Content ArticleHealthcare can be risky. Adverse events carry a high cost – both human and financial – for health systems around the world. So in an effort to improve safety, many health systems have looked to learn from high-risk industries. The aviation and nuclear industries, for example, have excellent safety records despite operating in hazardous conditions. And increasingly, the tools and procedures these industries use to identify hazards are being adopted in healthcare. One prominent example involves the Hierarchy of Risk Controls (HoC) approach, which works by ranking the methods of controlling risks based on their expected effectiveness. According to HoC, the risks at the top are presumed to be more effective than those at the bottom. The ones at the top typically rely less on human behaviour: for example, a new piece of technology is considered to be a stronger risk control than training staff. This article looks more deeply at the (HoC) approach to explore its usefulness and effectiveness in healthcare. To investigate this issue, a team of social scientists examined the risk controls introduced by four hospital teams in England and Scotland after they had identified hazards in their systems.
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- Human error
- Human factors
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Content ArticleAthough considerable progress has been made with comparing human factors in a safety critical industry to human factors in healthcare, it is clear that the variabilities found in healthcare are far more complex than industrial situations. While comparing human factors in the operating room and intensive care unit with systems from the airline, maritime and off shore industries is appropriate, Geoff Cardwell in this article discusses why a generalised approach to apply human factors in the routine activities of hospitals is needed and the nuclear industry is more appropriate for this wider context, where the ALARA (As Low As Reasonably Achievable) principles is used for managing radiation exposure. This approach can be compared to minimising the exposure to infection and superbugs in hospitals as well as reducing process failure where human factors are involved.
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- Work / environment factors
- System safety
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