Research priorities in regional anaesthesia: an international Delphi study

Background: Regional anaesthesia use is growing worldwide, and there is an increasing emphasis on research in regional anaesthesia to improve patient outcomes. However, priorities for future study remain unclear. We therefore conducted an international research prioritisation exercise, setting the agenda for future investigators and funding bodies. Methods: We invited members of specialist regional anaesthesia societies from six continents to propose research questions that they felt were unanswered. These were consolidated into representative indicative questions, and a literature review was undertaken to determine if any indicative questions were already answered by published work. Unanswered indicative questions entered a three-round modified Delphi process, whereby 29 experts in regional anaesthesia (representing all participating specialist societies) rated each indicative question for inclusion on a final high priority shortlist. If ≥75% of participants rated an indicative question as ‘definitely’ include in any round, it was accepted. Indicative questions rated as ‘definitely’ or ‘probably’ by <50% of participants in any round were excluded. Retained indicative questions were further ranked based on the rating score in the final Delphi round. The final research priorities were ratified by the Delphi expert group. Results: There were 1318 responses from 516 people in the initial survey, from which 71 indicative questions were formed, of which 68 entered the modified Delphi process. Eleven ‘highest priority’ research questions were short listed, covering themes of pain management; training and assessment; clinical practice and efficacy; technology and equipment. Conclusions: We prioritised unanswered research questions in regional anaesthesia. These will inform a coordinated global research strategy for regional anaesthesia and direct investigators to address high-priority areas

Cultural considerations in simulation-based education

The ultimate goals of health professions education are to enhance practice readiness, improve delivery of safe patient care and ideally, improve patient outcomes. Simulation based education (SBE) is now well established as an educational approach, in undergraduate programs and for continuing professional education, that complements existing models in development of core clinical knowledge and skill acquisition for health professions students and clinicians. It is known that the various domains of learning, such as knowledge, the psychomotor, affective and behavioural elements of practice, can be incorporated into holistic patient care simulation scenarios (Kelly, Hopwood, Rooney & Boud, 2016). Ways of determining the impact of SBE are topics emerging in the literature. Increasingly, those who design and deliver SBE are becoming more attuned to the spectra of cultural considerations important for learning and practice (Bahreman & Swoboda, 2016)

‘Exam preparedness’:Exploring non-academic predictors of postgraduate exam success

Introduction: There are certain factors in exam preparedness that are not well studied in the postgraduate medical education context. Non-academic predictors have been extensively researched but usually in isolation. Methods: The study involved a sequential explanatory mixed methods research design. The study was conducted among anaesthesia postgraduates appearing for high-stake nation-wide primary examination. Data obtained by a questionnaire assessing pre-examination attributes were compared with the students’ reflections through focus group discussions (FGD) after the formal declaration of results. The examination had an overall pass rate of 42.9% (18 out of 42). Results: The study showed that pre-examination questionnaire could identify attributes and study behaviours in the postgraduates who passed. Passers procrastinated three times lesser, pursuing a timetable-based study (conscientiousness); had higher metacognitive self-regulation (p value<0.05) applying concentrated self-directed learning & effective group study and higher self-efficacy compared to those who failed. The focus group discussions affirmed of these attributes in candidates who ‘breeze through exams’. Postgraduate success required better ‘work-study’ balance, self & cross regulation and peer and faculty support. Conclusion: Implementing a composite tool to assess ‘exam preparedness’, we propose, would help the learners and teachers to skim for non-academic factors (metacognitive self-regulation, self-efficacy, conscientiousness) that influence the chances of success. Understanding & predicting this would help educators to identify the ‘candidates with difficulty’ and delegate personalised faculty attention. This could guide the exam candidates to have a ‘reality check’ to plan and pace their effort with peer learning, consolidated study and goal orientation

Developing Metacognition through Effective Feedback

10.1080/0142159X.2016.1209472Medical Teacher389959-95

Coordinated Responses of Academic Medical Centres to Pandemics: Sustaining Medical Education during COVID-19

Medical Teacher427762-77

A BEME Systematic Review Of Teaching Interventions To Equip Medical Students And Residents In Early Recognition And Prompt Escalation Of Acute Clinical Deteriorations

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How do we turn surgical residents into safe intensive care unit clinicians? An Entrustable Professional Activities guided framework

10.1002/bjs.11949BRITISH JOURNAL OF SURGERY10711E491-E49

Desktop Virtual Reality Versus Face-to-Face Simulation for Team-Training on Stress Levels and Performance in Clinical Deterioration: a Randomised Controlled Trial

10.1007/s11606-022-07557-7JOURNAL OF GENERAL INTERNAL MEDICINE38167-7