BackgroundThe number of resources available to medical students studying a degree in medicine is growing exponentially. In addition to traditional learning resources such as lectures and textbooks, students are increasingly using e-learning tools like commercially available question banks to supplement their learning. Student preference for learning resources has not been described in detail, and a better understanding of the tools perceived to be useful could provide essential information to medical educators when designing and implementing medical curricula.MethodsWe invited 1083 undergraduate and postgraduate medical students from two major Australian universities to complete an online survey. Questions asked students to indicate the frequency with which they use various types of resources when learning new material or when revising previous content.ResultsApproximately one third (32.3%, N = 350) of invited participants completed the survey, and of those who responded, the gender distribution was even with a median age of 25 years. Making written notes and reading textbooks were the most frequently utilized resources for learning new material. Online or downloaded question banks were the most frequently used resource for revision. In addition to the use of traditional learning tools, the majority of students report using a variety of e-learning tools including online teaching videos (92%, n = 322) and question banks (90.6%, n = 317).ConclusionDespite the trend towards e-learning, traditional resources like attendance at face-to-face lectures remain the most popular for learning new material. The increasing use of question banks raises potential issues of poor alignment to medical school curricula. With the advantages of exam technique practice, time efficiency and multiplatform availability, their popularity is likely to continue. Evaluation of existing question banks is required to facilitate appropriate integration into the curricula, with equitable access for all students.
Background: Although challenging to integrate within university curricula, evidence suggests that interprofessional education (IPE) positively impacts communication and teamwork skills in the workplace. The nature of Team-based learning (TBL) lends itself to interprofessional education, with the capacity to foster a culture of collaboration among health professional students. Our study was designed to pilot an interprofessional 'back pain' TBL module for physiotherapy and medical students, and to explore their experience of the TBL process, using the conceptual framework of 'knowledge reconsolidation' to discuss our finding. Methods: Three hundred and eleven students participated in the TBL session: 222/277 (80%) of Year 1 medical students and 89/89 (100%) of Year 2 physiotherapy students. Students completed one interprofessional Musculoskeletal Sciences TBL session on the topic of 'back pain'. A questionnaire including closed and open-ended items, was distributed to students immediately following completion of the TBL session. Descriptive statistics were used to analyse the quantitative data. Thematic analysis was used to code and categorise qualitative data into themes. Pre-class quiz scores were compared between the groups using a one-way between groups Analysis of Variance (ANOVA) test with Tukeys Post Hoc test. Results: In total, 117/311 (38%) of participants completed the questionnaire. Both medicine and physiotherapy students appreciated the opportunity to learn about the curriculum of another healthcare discipline, and their scope of practice; gain multiple perspectives on a patient case from different disciplines; and recognised the importance of multidisciplinary teams in patient care. Students felt having an interprofessional team of facilitators who provided immediate feedback helped to consolidate student learning and promoted clinical reasoning. An analysis of variance revealed no difference between Physiotherapy and Medical students' pre-class quiz scores. Conclusion: Our study demonstrated that the small group and task-focused characteristics of TBL provided a studentcentred teaching strategy to support the achievement of interprofessional learning goals. Students valued their interactions with other students from a different professional degree, the opportunity to problem solve together, and learn different perspectives on a patient case. The pre-class quiz results demonstrate that both groups of students had a comparative level of prior knowledge to be able to work together on the in-class activities.
Background Two established small-group learning paradigms in medical education include Case-based learning (CBL) and Team-based learning (TBL). Characteristics common to both pedagogies include the use of an authentic clinical case, active small-group learning, activation of existing knowledge and application of newly acquired knowledge. However, there are also variances between the two teaching methods, and a paucity of studies that consider how these approaches fit with curriculum design principles. In this paper we explore student and facilitator perceptions of the two teaching methods within a medical curriculum, using Experience based learning (ExBL) as a conceptual lens. Methods A total of 34/255 (13%) Year 2 medical students completed four CBLs during the 2019 Renal and Urology teaching block, concurrent to their usual curriculum activities, which included weekly TBLs. Questionnaires were distributed to all students (n = 34) and CBL facilitators (n = 13). In addition, all students were invited to attend focus groups. Data were analysed using descriptive statistics and thematic analysis. Results In total, 23/34 (71%) of students and 11/13 (85%) of facilitators completed the questionnaires. Twelve students (35%) participated in focus groups. Findings indicate their experience in CBL to be positive, with many favourable aspects that built on and complemented their TBL experience that provided an emphasis on the basic sciences. The learning environment was enriched by the CBL framework that allowed application of knowledge to solve clinical problems within the small groups with consistent facilitator guidance and feedback, their capacity to focus discussion, and associated efficiencies in learning. Conclusion While the TBL model was integral in developing students’ knowledge and understanding of basic science concepts, the CBL model was integral in developing students’ clinical reasoning skills. The strengths of CBL relative to TBL included the development of authentic clinical reasoning skills and guided facilitation of small group discussion. Our findings suggest that delivery of a medical curriculum may be enhanced through increased vertical integration, applying TBL in earlier phases of the medical program where the focus is on basic science principles, with CBL becoming more relevant as students move towards clinical immersion.
Background Peer review in Team-based learning (TBL) exists for three key reasons: to promote reflection on individual behaviours; provide opportunities to develop professional skills; and prevent ‘free riders’ who fail to contribute effectively to team discussions. A well-developed process that engages students is needed. However, evidence suggests it remains a difficult task to effectively incorporate into TBL. The purpose of this study was to assess medical students’ ability to provide written feedback to their peers in TBL, and to explore students’ perception of the process, using the conceptual framework of Biggs ‘3P model’. Methods Year 2 students (n = 255) participated in peer review twice during 2019. We evaluated the quality of feedback using a theoretically derived rubric, and undertook a qualitative analysis of focus group data to seek explanations for feedback behaviors. Results Students demonstrated reasonable ability to provide positive feedback, but were less prepared to identify areas for improvement. Their ability did not improve over time, and was influenced by the perceived task difficulty; social discomfort; and sense of responsibility in providing written feedback. Conclusions To increase student engagement, we require a transparent process that incorporates verbal feedback and team discussion, with monitoring of outcomes by faculty and adequate training.
Physical and psychological trauma which results in mood disorders and the disruption of complex behaviours is associated with reductions in hippocampal volume. Clinical evaluation of neuropathic pain reveals mood and behavioural change in a significant number of patients. A rat model of neuropathic injury results in complex behavioural changes in a subpopulation (~30%) of injured rats; these changes are co-morbid with a range of other 'disabilities'. The specific objective of this study was to determine in rats the morphology of the hippocampus and dentate gyrus in individuals with and without complex behavioural disruptions following a constriction injury of the sciatic nerve, and to determine whether rats that develop disabilities following nerve injury have a reduced hippocampal volume compared with injured rats with no disabilities. The social behaviours of nerve-injured rats were evaluated before and after nerve injury. The morphology of the hippocampus of rats with and without behavioural disruptions was compared in serial histological sections. Single-housing and repeated social-interaction testing had no effect on the morphology of either the hippocampus or the dentate gyrus. Rats with transient or ongoing disability identified by behavioural disruption following sciatic nerve injury, show bilateral reductions in hippocampal volume, and lateralised reduction in the dentate gyrus (left side). Disabled rats display a combination of behavioural and physiological changes, which resemble many of the criteria used clinically to diagnose mood disorders. They also show reductions in the volume of the hippocampus similar to people with clinically diagnosed mood disorders. The sciatic nerve injury model reveals a similarity to the human neuropathic pain presentation presenting an anatomically specific focus for the investigation of the neural mechanisms underpinning the co-morbidity of chronic pain and mood disorder.
Absract Background With increased student numbers in the Sydney Medical Program, and concerns regarding standardisation across cohorts, student satisfaction of the problem-based learning (PBL) model had decreased in recent years. In 2017, Team-based learning (TBL) replaced PBL in Years 1 and 2 of the medical program. This study sought to explore students’ perceptions of their experience of TBL, and to consider resource implications. Methods In 2017, Years 1 and 2 medical students (n = 625) participated in weekly TBL sessions, with approximately 60 students per class, consisting of 11 teams of five or six students. Each class was facilitated by a consultant, a basic scientist and a medical registrar. Prior to each class, students were given pre-work, and completed an online Individual Readiness Assurance Test (IRAT). During face-to-face class, students completed the Team Readiness Assurance Test (TRAT), and received feedback with clarification from facilitators, followed by clinical problem-solving activities. Student feedback was collected by questionnaire, using closed and open-ended items. Data were analysed using descriptive statistics and thematic analysis. Results In total, 232/275 (84%) Year 1 and 258/350 (74%) Year 2 students responded to the questionnaire. Students found positive aspects of TBL included the small group dynamics, intra- and inter-team discussions, interactions with facilitators, provision of clinical contexts by clinicians, and the readiness assurance process. Suggested improvements included: better alignment of pre-reading tasks, shorter class time, increased opportunity for clinical reasoning, and additional feedback on the mechanistic flowchart. Resource efficiencies were identified, such as a reduction in the number of teaching sessions and required facilitators, and the ability to provide each classroom with clinical expertise. Conclusions Our findings demonstrate that TBL, as a replacement for PBL in Years 1 and 2 of the medical curriculum, provided a standardised approach to small group learning on a large scale, and also provided resource efficiencies. Students perceived benefits related to the active learning strategy of TBL that encourage individual learning, consolidation of knowledge, retrieval practice, peer discussion and feedback. However, improvements are needed in terms of better alignment of pre-reading tasks with the TBL patient case, and greater facilitator interaction during the problem-solving activities. Additionally, consideration should be given to reducing class time, and providing TRAT scores.
Background Medical degree programs use scholarly activities to support development of basic research skills, critical evaluation of medical information and promotion of medical research. The University of Sydney Doctor of Medicine Program includes a compulsory research project. Medical student projects are supervised by academic staff and affiliates, including biomedical science researchers and clinician-academics. This study investigated research supervisors’ observations of the barriers to and enablers of successful medical student research projects. Methods Research supervisors (n = 130) completed an anonymous, online survey after the completion of the research project. Survey questions targeted the research supervisors’ perceptions of barriers to successful completion of projects and sources of support for their supervision of the student project. Data were analysed by descriptive statistics and using manifest content analysis. Further quantitative investigation was made by cross-tabulation according to prior research supervision experience. Results Research supervisors reported that students needed both generic skills (75%) and research-based skills (71%) to successfully complete the project. The major barrier to successful research projects was the lack of protected time for research activities (61%). The assessment schedule with compulsory progress milestones enabled project completion (75%), and improved scientific presentation (90%) and writing (93%) skills. Supervisors requested further support for their students for statistics (75%), scientific writing (51%), and funding for projects (52%). Prior research supervision experience influenced the responses. Compared to novice supervisors, highly experienced supervisors were significantly more likely to want students to be allocated dedicated time for the project (P < 0.01) and reported higher rates of access to expert assistance in scientific writing, preparing ethics applications and research methodology. Novice supervisors reported higher rates of unexpected project delays and data acquisition problems (P < 0.05). Co-supervision was favoured by experienced supervisors but rejected by novice supervisors. Conclusions Both generic and research-related skills were important for medical student research project success. Overall, protected research time, financial and other academic support were identified as factors that would improve the research project program. Prior research supervision experience influences perceptions of program barriers and enablers. These findings will inform future support needs for projects and research supervisor training for the research supervision role.
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