Elizabeth Cardell scite author profile

BackgroundCurrent workforce demands require new graduates to competently work within health care teams and often in remote settings. To better prepare students for this work, universities have spent much time developing interprofessional education (IPE) activities. The body of literature supporting IPE of allied health students is growing. Simulation-based learning with simulated patients is one platform through which IPE can be implemented in a dedicated, supported environment and potentially at scale. This study describes an interprofessional simulation-based learning experience with nutrition and dietetics and exercise physiology students. The common practice area of interacting with patients who have type 2 diabetes was targeted, and the simulation was delivered in partnership with simulated patients via a telehealth platform to allow interprofessional teams to work collaboratively in remote locations.MethodsTen nutrition and dietetics and 13 exercise physiology students participated in a simulation module in which students observed and collaborated in the development and delivery of an interprofessional treatment plan for patients with diabetes. Learning outcomes were measured according to the first two levels of Kirkpatrick’s (1994) model for training evaluation (i.e. reaction and learning), as well as the perceived impact on behaviour.ResultsThe students’ confidence in communication, assessment, management and ability to work with another health professional significantly increased (p < 0.05) post-activity. Students perceived that the simulation-based learning would have a positive impact on their clinical skills and ability to work with other health professionals. Students reported that the most effective aspects of the simulation module were learning from and about each other, the opportunity for experiential learning and the supportive learning environment. However, the telehealth platform audio clarity and delay had negative impact on the learning experiences for students.ConclusionThe overall positive results demonstrate the potential of simulation-based learning activities for preparing allied health students for working in interprofessional teams. Although remote access was possible, the telehealth platform was identified as a limiting factor to this simulation-based learning experience. However, videoconferencing technology has advanced considerably since this study. Hence, there is an opportunity to employ more reliable technology for future simulations.

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A framework to support the development of quality simulation‐based learning programmes in speech–language pathology

Hewat

Penman

Davidson

et al. 2020

Intl J Lang & Comm Disor

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Background Simulation‐based learning provides students with a safe learning environment, guaranteed exposure to specific clinical scenarios and patients, time for reflection and repetition of tasks, and an opportunity to receive feedback from multiple sources. Research including studies specific to allied health training programmes have demonstrated that simulation‐based learning also helps increase learners’ confidence and reduces anxiety related to clinical environments, activities and skills. Such evidence, together with increasing challenges in provision of workplace clinical education, has supported an expansion of integrating simulation‐based learning into university curricula. Aims To provide detailed information about the processes and considerations involved in the development of a simulation‐based learning programme for speech–language pathology. Methods & Procedures Through reflection on the development process of a 5‐day simulation‐based learning programme, and in light of existing research in simulation, this paper outlines the important steps and considerations required for the development of a simulation‐based learning programme to support student competency development in adult speech pathology range of practice areas. Main Contribution A proposed framework for the development of future simulation‐based learning programmes in speech–language pathology. Conclusions & Implications The framework can be applied to simulation‐based learning for university programmes and/or workplace training in speech–language pathology and across several other health disciplines.

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Elizabeth Cardell

Be Clear: A New Intensive Speech Treatment for Adults With Nonprogressive Dysarthria

Aphasia LIFT: Exploratory investigation of an intensive comprehensive aphasia programme

Simulation can replace part of speech-language pathology placement time: A randomised controlled trial

Is More Intensive Better? Client and Service Provider Outcomes for Intensive Versus Standard Therapy Schedules for Functional Voice Disorders

Feasibility and cost analysis of implementing high intensity aphasia clinics within a sub-acute setting

The impact of aspiration pneumonia and nasogastric feeding on clinical outcomes in stroke patients: A retrospective cohort study

Using simulation-based learning to provide interprofessional education in diabetes to nutrition and dietetics and exercise physiology students through telehealth

A framework to support the development of quality simulation‐based learning programmes in speech–language pathology

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