Your search keyword '"Advancing Simulation Practice"' showing total 5 results

1. Lessons from the design, development and implementation of a three-dimensional (3D) neonatal resuscitation training smartphone application: Life-saving Instruction for Emergencies (LIFE app)

Author

Wanyama, C, Nagraj, S, Muinga, N, Tuti, T, Edgcombe, H, Geniets, A, Winters, N, English, M, Rossner, J, and Paton, C

Subjects

Advancing Simulation Practice, Medical education, Human-centred design, Frontline health workers, Computer applications to medicine. Medical informatics, R858-859.7, General Medicine, Simulation-based education

Abstract

Neonatal mortality remains disproportionately high in sub-Saharan Africa partly due to insufficient numbers of adequately trained and skilled front-line health workers. Opportunities for improving neonatal care may result from upskilling frontline health workers using innovative technological approaches. This practice paper describes the key steps involved in the design, development and implementation of an innovative smartphone-based training application using an agile, human-centred design approach. The Life-saving Instruction for Emergencies (LIFE) app is a three-dimension (3D) scenario-based mobile app for smartphones and is free to download. Two clinical modules are currently included with further scenarios planned. Whilst the focus of the practice paper is on the lessons learned during the design and development process, we also share key learning related to project management and sustainability plans, which we hope will help researchers working on similar projects.

Published

2022

2. Developing a simulation safety policy for translational simulation programs in healthcare

Author

Victoria Brazil, Clare Scott, Jack Matulich, and Brenton Shanahan

Subjects

Advancing Simulation Practice, In situ simulation, Computer applications to medicine. Medical informatics, R858-859.7, General Medicine, Simulation safety

Abstract

Healthcare simulation may present risks to safety, especially when delivered ‘in situ’—in real clinical environments—when lines between simulated and real practice may be blurred. We felt compelled to develop a simulation safety policy (SSP) after reading reports of adverse events in the healthcare simulation literature, editorials highlighting these safety risks, and reflecting on our own experience as a busy translational simulation service in a large healthcare institution. The process for development of a comprehensive SSP for translational simulation programs is unclear. Personal correspondence with leaders of simulation programs like our own revealed a piecemeal approach in most institutions. In this article, we describe the process we used to develop the simulation safety policy at our health service, and crystalize principles that may provide guidance to simulation programs with similar challenges. Supplementary Information The online version contains supplementary material available at 10.1186/s41077-022-00200-9.

Published

2022

3. Optimising frontline learning and engagement between consultant-led neonatal teams in the West Midlands: a survey on the utility of an augmented simulation training technique

Author

Matthew Nash, Joe Fawke, Thillagavathie Pillay, Vishna Rasiah, Lynsey Clarke, Sanjeev Deshpande, Joanne Cookson, Pinki Surana, Lee Abbott, Asha Shenvi, and Jonathan Cusack

Subjects

medicine.medical_specialty, West midlands, business.industry, Public health, Computer applications to medicine. Medical informatics, education, R858-859.7, Neonatal unit designation, Health services research, General Medicine, Creative commons, Public relations, Neonatal networking, R1, Simulation training, Advancing Simulation Practice, Human resource management, medicine, Sociology, Neonatology, Networks, Consultant training, business, RA, Social constructivism

Abstract

Background In England, neonatal care is delivered in operational delivery networks, comprising a combination of the Neonatal Intensive Care (NICU), Local-Neonatal (LNU) or Special-Care Units (SCU), based on their ability to care for babies with different degrees of illness or prematurity. With the development of network care pathways, the most premature and sickest are mostly triaged for delivery in services linked to NICU. This has created anxiety for teams in LNU and SCU. Less exposure to sicker babies has resulted in limited opportunities to maintain expertise for when these babies unexpectedly deliver at their centre and thereafter require transfer for care, to NICU. Simultaneously, LNU and SCU teams develop skills in the care of the less ill and premature baby which would also be of benefit to NICU teams. A need for mutual learning through inter-unit multidirectional collaborative learning and engagement (hereafter also called neonatal networking) between teams of different designations emerged. Here, neonatal networking is defined as collaboration, shared clinical learning and developing an understanding of local systems strengths and challenges between units of different and similar designations. We describe the responses to the development of a clinical and systems focussed platform for this engagement between different teams within our neonatal ODN. Method An interactive 1-day programme was developed in the West Midlands, focussing on a non-hierarchical, equal partnership between neonatal teams from different unit designations. It utilised simulation around clinical scenarios, with a slant towards consultant engagement. Four groups rotating through four clinical simulation scenarios were developed. Each group participated in a clinical simulation scenario, led by a consultant and supported by nurses and doctors in training together with facilitators, with a further ~two consultants, as observers within the group. All were considered learners. Consultant candidates took turns to be participants and observers in the simulation scenarios so that at the end of the day all had led a scenario. Each simulation-clinical debrief session was lengthened by a further ~ 20 min, during which freestyle discussion with all learners occurred. This was to promote further bonding, through multidirectional sharing, and with a systems focus on understanding the strengths and challenges of practices in different units. A consultant focus was adopted to promote a long-term engagement between units around shared care. There were four time points for this neonatal networking during the course of the day. Qualitative assessment and a Likert scale were used to assess this initiative over 4 years. Results One hundred fifty-five individuals involved in frontline neonatal care participated. Seventy-seven were consultants, supported by neonatal trainees, staff grade doctors, clinical fellows, advanced neonatal nurse practitioners and nurses in training. All were invited to participate in the survey. The survey response rate was 80.6%. Seventy-nine percent felt that this learning strategy was highly relevant; 96% agreed that for consultants this was appropriate adult learning. Ninety-eight percent agreed that consultant training encompassed more than bedside clinical management, including forging communication links between teams. Thematic responses suggested that this was a highly useful method for multi-directional learning around shared care between neonatal units. Conclusion Simulation, enhanced with systems focussed debrief, appeared to be an acceptable method of promoting multidirectional learning within neonatal teams of differing designations within the WMNODN.

Published

2021

4. Developing standardized patient-based cases for communication training: lessons learned from training residents to communicate diagnostic uncertainty

Author

David H. Salzman, Kenzie A. Cameron, Xiao Chi Zhang, Danielle M. McCarthy, Dimitrios Papanagnou, Matthew R. Klein, Amanda M.B. Doty, and Kristin L. Rising

Subjects

Medical education, Communication training, 020205 medical informatics, Diagnostic uncertainty, Computer applications to medicine. Medical informatics, R858-859.7, Health services research, Standardized patients, 02 engineering and technology, General Medicine, Case design, Advancing Simulation Practice, 03 medical and health sciences, 0302 clinical medicine, Workflow, Social skills, Leverage (negotiation), Human resource management, Situated, 0202 electrical engineering, electronic engineering, information engineering, 030212 general & internal medicine, Set (psychology), Psychology, Diversity (business)

Abstract

Health professions education has benefitted from standardized patient (SP) programs to develop and refine communication and interpersonal skills in trainees. Effective case design is essential to ensure an SP encounter successfully meets learning objectives that are focused on communication skills. Creative, well-designed case scenarios offer learners the opportunity to engage in complex patient encounters, while challenging them to address the personal and emotional contexts in which their patients are situated. Therefore, prior to considering the practical execution of the patient encounter, educators will first need a clear and structured strategy for writing, organizing, and developing cases. The authors reflect on lessons learned in developing standardized patient-based cases to train learners to communicate to patients during times of diagnostic uncertainty, and provide suggestions to develop a set of simulation cases that are both standardized and diverse. Key steps and workflow processes that can assist educators with case design are introduced. The authors review the need to increase awareness of and mitigate existing norms and implicit biases, while maximizing variation in patient diversity. Opportunities to leverage the breadth of emotional dispositions of the SP and the affective domain of a clinical encounter are also discussed as a means to guide future case development and maximize the value of a case for its respective learning outcomes. Supplementary Information The online version contains supplementary material available at 10.1186/s41077-021-00176-y.

Published

2021

5. Dynamic Plus-Delta: an agile debriefing approach centred around variable participant, faculty and contextual factors

Author

Ranjev Kainth

Subjects

Process management, Nightingale, business.industry, Debriefing, Computer applications to medicine. Medical informatics, education, Dynamic, R858-859.7, Health services research, Psychological safety, General Medicine, Mass-scale simulation, Psychological well-being, Advancing Simulation Practice, Human resource management, Intensive care, Intervention (counseling), Plus-Delta, Health care, business, Psychology, Agile software development, Novice faculty

Abstract

The current coronavirus pandemic has necessitated rapid intensive care infrastructure expansion with corresponding demand for training healthcare staff. At the NHS Nightingale Hospital, London, the staff underwent a training programme prior to entering the clinical environment with simulation being a core component. This paper describes the rationale for choosing an initial debriefing model which evolved overtime to consider multiple contextual factors: demands of the clinical environment, the diverse participants and their learning needs, the variable experience of faculty, and the dynamic nature of available debriefing time. The new approach, termed here as the Dynamic Plus-Delta model, blends the traditional Plus-Delta approach with specific dynamic elements which considers the unique demands of rapidly training large number of staff. We outline the core features of this model and detail specific considerations around psychological safety. This debriefing approach can be used in similar simulation intervention settings where rapid training of participants is required with multiple and varying contextual factors.

Published

2020