Feedback learning opportunities from medical student logs of paediatric patients.

BACKGROUND: Feedback can alter medical student logging practices, although most learners feel feedback is inadequate. A varied case mix in rural and urban contexts offers diverse clinical encounters. Logs are an indicator of these clinical experiences, and contain opportunities for feedback, which can greatly influence learning: we labelled these 'feedback learning opportunities' (FLOs). We asked: How often do FLOs occur? What are the case complexities of rural compared to urban paediatric logs? Do more complex cases result in more FLOs? METHODS: In Western Australia, 25% of medical students are dispersed in a Rural Clinical School (RCSWA) up to 2175 miles (3500 km) from the city. Urban students logged 20 written cases; rural students logged a minimum of 25 paediatric cases electronically. These were reviewed to identify FLOs, using a coding convention. FLO categories provided a structure for feedback: medical, professionalism, insufficient, clinical reasoning, student wellbeing, quality and safety, and sociocultural. Each log was assigned an overall primary, secondary or tertiary case complexity. RESULTS: There were 76 consenting students in each urban and rural group, providing 3034 logs for analysis after exclusions. FLOs occurred in more than half the logs, with significantly more rural (OR 1.35 95% CI 1.17, 1.56; p < 0.0001). Major FLOs occurred in over a third of logs, but with no significant difference between rural and urban (OR 1.10 95% CI 0.94, 1.28; p = 0.24). Medical FLOs were the most common, accounting for 64.0% of rural and 75.2% of urban FLOs (OR 1.71 95% CI 1.37, 2.12; p < 0.0001). Students logged cases with a variety of complexities. Most cases logged by urban students in a tertiary healthcare setting were of primary and secondary complexity. Major medical FLOs increased with increasing patient complexity, occurring in 32.1% of tertiary complexity cases logged by urban students (p < 0.001). CONCLUSIONS: Case logs are a valuable resource for medical educators to enhance students' learning by providing meaningful feedback. FLOs occurred often, particularly in paediatric cases with multiple medical problems. This study strengthens recommendations for regular review and timely feedback on student logs. We recommend the FLOs categories as a framework for medical educators to identify FLOs.

Paediatric case mix in a rural clinical school is relevant to future practice.

BACKGROUND: Exposure to a representative case mix is essential for clinical learning, with logbooks established as a way of demonstrating patient contacts. Few studies have reported the paediatric case mix available to geographically distributed students within the same medical school. Given international interest in expanding medical teaching locations to rural contexts, equitable case exposure in rural relative to urban settings is topical. The Rural Clinical School of Western Australia locates students up to 3500 km from the urban university for an academic year. There is particular need to examine paediatric case mix as a study reported Australian graduates felt unprepared for paediatric rotations. We asked: Does a rural clinical school provide a paediatric case mix relevant to future practice? How does the paediatric case mix as logged by rural students compare with that by urban students? METHODS: The 3745 logs of 76 urban and 76 rural consenting medical students were categorised by presenting symptoms and compared to the Australian Institute of Health and Welfare (AIHW) database Major Diagnostic Categories (MDCs). RESULTS: Rural and urban students logged core paediatric cases, in similar order, despite the striking difference in geographic locations. The pattern of overall presenting problems closely corresponded to Australian paediatric hospital admissions. Rural students logged 91% of cases in secondary healthcare settings; urban students logged 90% of cases in tertiary settings. The top four presenting problems were ENT/respiratory, gastrointestinal/urogenital, neurodevelopmental and musculoskeletal; these made up 60% of all cases. Rural and urban students logged similar proportions of infants, children and adolescents, with a variety of case morbidity. CONCLUSIONS: Rural clinical school students logged a mix of core paediatric cases relevant to illnesses of Australian children admitted to public hospitals, with similar order and pattern by age group to urban students, despite major differences in clinical settings. Logged cases met the curriculum learning outcomes of graduates. Minor variations were readily addressed via recommendations about logging. This paper provides evidence of the legitimacy of student logs as useful tools in affirming appropriate paediatric case mix. It validates the rural clinical school context as appropriate for medical students to prepare for future clinical paediatric practice.

Pedagogy Rules: Open Mindset in Adopting Fit-for-Purpose Educational Tools in Teaching Dispersed Medical Students.

Students in the Rural Clinical School of Western Australia (RCSWA) spend one year of clinical study learning in small groups while embedded in rural or remote communities. This aims to increase the locally trained rural medical workforce. Their learning environment, the clinical context of their learning, and their rural doctor-teachers all contrast with the more traditional learning setting in city hospitals. The RCSWA has succeeded in its outcomes for students and in rural medical workforce impact; it has grown from 4 pilot sites to 14 in 12 years. This reflective piece assimilates observations of the formation of the RCSWA pedagogy and of the strategic alignment of education technologies with learning environment and pedagogy over a seven-year period. Internal and external influences, driving change in the RCSWA, were considered from three observer perspectives in a naturalistic setting. Flexibility in both education technologies and organizational governance enabled education management to actively follow pedagogy. Peter Senge's learning organization (LO) theory was overlaid on the strategies for change response in the RCSWA; these aligned with those of known LOs as well with LO disciplines and the archetypal systems thinking. We contend that the successful RCSWA paradigm is that of an LO.

Medical teaching in rural Australia: should we be concerned about the international medical graduate connection?

The two rural workforce strategies of rural clinical schools and deployment of international medical graduates (IMGs) geographically overlap in Australia's large expanse of under-served rural and remote areas. We used the Rural Clinical School of Western Australia (RCSWA) as a model to examine the relative numbers of IMG clinical academics, and the contribution of IMGs to rural clinical school development and education. IMGs have established six of 10 rural clinical school sites, maintained an academic presence, and continue to staff the RCSWA in high proportions. In a fragile rural work ecology, WA's IMGs are contributing to both meeting current workforce needs and the education of future rural doctors. The "double debt" Australia owes to IMGs, stemming from the rich cross-fertilisation of these two workforce strategies, should be acknowledged.

Tuning medical education for rural-ready practice: designing and resourcing optimally.

In an effort to bring doctors back to the bush the Australian government has resourced a number of rural clinical schools (RCS). At the RCS in the University of Western Australia students were allocated in small groups to rural sites for the entire fifth year of a six-year course, sitting the same final examinations as city students. Key factors guiding the successful outcome were the resourcing and implementation of the infrastructure and teaching and learning pedagogy. In designing support, the disconnection of students from their city colleagues was anticipated as an issue, as was the pedagogical indoctrination of the teachers. The curriculum implementation was adapted in this light. The role of the Web in teaching and learning, and their status as 'student colleagues' and independent learners were pivotal aspects. As students settled at their site, their confidence grew and their anxiety over urban disconnection dissipated. By benchmarking themselves using Web-based formative assessments and in formative 'objective structured clinical examinations' staged for them by the RCS, the students received ongoing feedback on their progress. This model of embedding students in rural centres for an extended period with rural practitioners as teachers was successfully implemented at multiple sites geographically vastly separate.

Fibre diffraction of hair can provide a screening test for Alzheimer's disease: a human and animal model study.

BACKGROUND: Studies of molecular changes in hair as possible biomarkers for specific cancers revealed an additional molecular change in the diffraction patterns of some persons aged over 75. This change was found to correlate with the presence of Alzheimer's disease (AD). To confirm this correlation and its relation to the presence of a human APP mutation, known to definitely cause AD, hairs were examined from AD patients, pregnant women known to have an increase in plasma beta amyloid and transgenic mice carrying a mutated human APP gene. Patients were clinically examined by an experienced physician who recorded the patient's history and completed physical and neurological examinations. Hair samples were held taut and centred in the beam. The diffraction patterns were collected on Fuji-Bas Imaging plates and analysed using standard programs. MATERIAL/METHODS: A fan-shaped set of spot-like reflections was observed in the equatorial diffraction patterns from the hair of all AD patients and all third trimester pregnant women. Combined fibre diffraction of hair and histopathologic examination of brains from transgenic mice carrying a mutated human APP gene confirmed that these changes are related to the mutated human APP genes and the formation of beta amyloid plaques. RESULTS: Here we show results that fibre diffraction analysis would provide a non-invasive, accurate bio-marker for Alzheimer's disease. Our results are consistent with the hypothesis that this marker is related to the presence of mutated human APP genes and indicate that the structural change precedes the significant development of plaques. CONCLUSIONS: Here we show results that fibre diffraction analysis would provide a non-invasive, accurate bio-marker for Alzheimer's disease. Our results are consistent with the hypothesis that this marker is related to the presence of mutated human APP genes and indicate that the structural change precedes the significant development of plaques.