Rural medical workforce pathways: exploring the importance of postgraduation rural training time.

BACKGROUND: Inadequate distribution of the medical workforce in rural regions remains a key global challenge. Evidence of the importance of postgraduation (after medical school) rural immersion time and subsequent rural practice, particularly after accounting for other key factors, remains limited. This study investigated the combined impact of three key training pathway factors: (1) rural background, (2) medical school rural immersion, and (3) postgraduation rural immersion, and duration time of each immersion factor on working rurally. METHODS: Data from a cross-sectional national survey and a single university survey of Australian doctors who graduated between 2000 to 2018, were utilised. Key pathway factors were similarly measured. Postgraduation rural training time was both broad (first 10 years after medical school, national study) and specific (prevocational period, single university). This was firstly tested as the dependent variable (stage 1), then matched against rural practice (stage 2) amongst consultant doctors (national study, n = 1651) or vocational training doctors with consultants (single university, n = 478). RESULTS: Stage 1 modelling found rural background, > 1 year medical school rural training, being rural bonded, male and later choosing general practice were associated with spending a higher proportion (> 40%) of their postgraduation training time in a rural location. Stage 2 modelling revealed the dominant impact of postgraduation rural time on subsequent rural work for both General Practitioners (GPs) (OR 45, 95% CI 24 to 84) and other specialists (OR 11, 95% CI 5-22) based on the national dataset. Similar trends for both GPs (OR 3.8, 95% CI 1.6-9.1) and other specialists (OR 2.8, 95% CI 1.3-6.4) were observed based on prevocational time only (single university). CONCLUSIONS: This study provides new evidence of the importance of postgraduation rural training time on subsequent rural practice, after accounting for key factors across the entire training pathway. It highlights that developing rural doctors aligns with two distinct career periods; stage 1-up to completing medical school; stage 2-after medical school. This evidence supports the need for strengthened rural training pathways after medical school, given its strong association with longer-term decisions to work rurally.

Evaluation of rural general practice experiences for pre-vocational medical graduates.

INTRODUCTION: Despite substantial investment in rural workforce support, sustaining the necessary recruitment and retention of general practitioners (GPs) in rural areas remains a challenge. Insufficient medical graduates are choosing a general/rural practice career. Medical training at postgraduate level, particularly for those 'between' undergraduate medical education and specialty training, remains strongly reliant on hospital experience in larger hospitals, potentially diverting interest away from general/rural practice. The Rural Junior Doctor Training Innovation Fund (RJDTIF) program offered junior hospital doctors (interns) an experience of 10 weeks in a rural general practice, aiming to increase their consideration of general/rural practice careers This study aimed to evaluate the educational and potential workforce impact of the RJDTIF program. METHODS: Up to 110 places were established during 2019-2020 for Queensland's interns to undertake an 8-12-week rotation (depending on individual hospital rosters) out of regional hospitals to work in a rural general practice. Participants were surveyed before and after the placement, although only 86 were invited due to the disruption caused by the COVID-19 pandemic. Descriptive quantitative statistics were applied to the survey data. Four semi-structured interviews were conducted to further explore the experiences post-placement, with audio-recordings transcribed verbatim. Semi-structured interview data were analysed using inductive, reflexive thematic analysis. RESULTS: In total, 60 interns completed either survey, although only 25 were matched as completing both surveys. About half (48%) indicated they had preferenced the rural GP term and 48% indicated strong enthusiasm for the experience. General practice was indicated as the most likely career option for 50%, other general specialty 28% and subspecialty 22%. Likelihood to be working in a regional/rural location in 10 years was indicated as 'likely' or 'very likely' for 40%, 'unlikely' for 24% and 'unsure' for 36%. The two most common reasons for preferencing a rural GP term were experiencing training in a primary care setting (50%) and gaining more clinical skills through increased patient exposure (22%). The overall impact on pursuing a primary care career was self-assessed as much more likely by 41%, but much less by 15%. Interest in a rural location was less influenced. Those rating the term poor or average had low pre-placement enthusiasm for the term. The qualitative analysis of interview data produced two themes: importance of the rural GP term for interns (hands-on learning, skills improvement, influence on future career choice and engagement with the local community), and potential improvements to rural intern GP rotations. CONCLUSION: Most participants reported a positive experience from their rural GP rotation, which was recognised as a sound learning experience at an important time with respect to choosing a specialty. Despite the challenges posed by the pandemic, this evidence supports the investment in programs that provide opportunities for junior doctors to experience rural general practice in these formative postgraduate years to stimulate interest in this much-needed career pathway. Focusing resources on those who have at least some interest and enthusiasm may improve its workforce impact.

Short-term medical student placements completed consecutively at a rural general practice positively impact chronic disease management.

INTRODUCTION: Little is known about how medical school placements in rural areas impact key stakeholders such as patients, host organisations and the wider rural community. With engagement from rural communities crucial to the success of rural medical training, this case study sought to demonstrate the benefit that rural clinical placements can have on rural general practices (systems) and likely impacts on communities (health outcomes). Specifically, we describe how a series of consecutive short-term student placements in a single rural practice were the drivers of a series of clinical audits and interventions resulting in improved management of chronic disease. METHODS: Data for this project were obtained from student research reports completed as part of a rural and remote medicine rotation at an Australian medical school. For this series of projects, eight consecutive students were based at the same rural medical centre, with each attending for 6 weeks across a 15-month period, completing a report for a quality improvement activity and evaluating the outcomes. Each project related to chronic kidney disease (CKD), with CKD chosen based on the needs of the medical centre and the higher burden of this disease in rural areas. Each project was developed and delivered in consultation with the practice, taking into account student interest and skills, and related projects completed prior or concurrently. Projects were related to database management (n=2), alignment between CKD management and best-practice guidelines (n=3), patient health literacy (n=3), and a summary and staff perceptions of the preceding quality improvement activities (n=1). RESULTS: The combination of student projects led to tangible improvements in CKD management at a rural general practice. All doctors at the medical centre (n=4) reported using the database management tools implemented by the students and felt the interventions were sustainable, long-term solutions for ensuring clinical investigations are not being delayed or missed. Following the various interventions completed by the students, clinician knowledge and implementation of best-practice CKD management increased, and some patients became more aware of their condition and how to manage it. CONCLUSION: This case study provides evidence that short-term rural clinical placements for medical students have the potential to greatly improve health care and clinical practice in rural and remote communities, when designed around a consistent topic within a medical practice. Outcomes of the student projects in combination demonstrate that addressing CKD management longitudinally led to improvements in administrative processes, clinical practices, and patient awareness and accountability, despite each student only being at the medical centre for a short period of time. Similar approaches to structuring rural clinical placements and defining community projects for medical students should be considered more broadly.

Outcomes of rural generalist internship training in Victoria, Australia.

INTRODUCTION: Victoria, Australia commenced its first Rural Community Internship Training program in 2012 to support the development of rural generalist (RG) doctors. These general practitioners have additional skills to work at a broad scope to deliver the range of primary care and additional specialist services that communities need. Unlike most internships, which are wholly hospital-based and delivered mostly within larger metropolitan and regional centres, this RG internship training model involves completing general practice experience in smaller rural communities working with RGs and visiting specialists. This study aimed to explore the characteristics and satisfaction of doctors who participate in RG internship training in Victoria and their workforce outcomes. METHODS: Between October and November 2021, a retrospective 10-minute anonymous survey invitation was sent to all contactable interns (n=222) who had completed/were completing the RG internship training (2012-2021). The survey was co-designed with RG internship managers and other stakeholders of a statewide evaluation advisory group, informed by the latest evidence regarding RG medicine and rural training predictors, and outcomes of interest. Participants completed the survey using Microsoft Forms, with three invitations circulated to an up-to-date email address maintained by the internship program. Collected data were analysed descriptively, by subgroup, to explore training pathway outcomes by region, training stage and specialty choice. Workforce distribution outcomes were defined in line with objectives of the program and predetermined indicators of RG scope. Results were compared with the benchmarks of rural workforce training outcomes in Australia using recent research. RESULTS: There were 59 participants (27% response rate); 81% were in postgraduate years 3-7. Respondents included 54% male, 17% rurally bonded, 39% of rural origin, 34% having had more than 3 months rural undergraduate training and 48% doing RG training where they previously did undergraduate training. All were satisfied/very satisfied with the RG training and 61% were working in general practice (excluding the prevocational group). Overall, 40% were currently working in the same rural region as their internship (including three who were currently interns), 56% continued to complete some prevocational training in the same region as their RG internship, while 20% had gone on to be currently based in smaller rural communities (Modified Monash Model locations 4-7) and 44% to be working part-time in smaller rural communities. Overall, 42% self-identified as working as an RG and nearly all (97%) met at least one of the key indicators of extended (RG) scope. In all areas the RG internship outcomes were better than the national benchmarks from published evidence about rural training. CONCLUSION: This study provides evidence from doctors up to 9 years after completing their RG internship. Compared with industry benchmarks, the RG internships attract rurally intentioned and rurally experienced doctors who may be likely to remain in the same rural region as their undergraduate rural medical training and continue their postgraduate training in the same region. They were all satisfied with RG internship training, had high propensity to follow a general practice career and work at broad scope in smaller communities. Importantly, they intended to stay in the region where they trained. This suggests RG internship programs are a positive intervention for promoting an RG workforce.

Effect of infusion set replacement intervals on catheter-related bloodstream infections (RSVP): a randomised, controlled, equivalence (central venous access device)-non-inferiority (peripheral arterial catheter) trial.

BACKGROUND: The optimal duration of infusion set use to prevent life-threatening catheter-related bloodstream infection (CRBSI) is unclear. We aimed to compare the effectiveness and costs of 7-day (intervention) versus 4-day (control) infusion set replacement to prevent CRBSI in patients with central venous access devices (tunnelled cuffed, non-tunnelled, peripherally inserted, and totally implanted) and peripheral arterial catheters. METHODS: We did a randomised, controlled, assessor-masked trial at ten Australian hospitals. Our hypothesis was CRBSI equivalence for central venous access devices and non-inferiority for peripheral arterial catheters (both 2% margin). Adults and children with expected greater than 24 h central venous access device-peripheral arterial catheter use were randomly assigned (1:1; stratified by hospital, catheter type, and intensive care unit or ward) by a centralised, web-based service (concealed before allocation) to infusion set replacement every 7 days, or 4 days. This included crystalloids, non-lipid parenteral nutrition, and medication infusions. Patients and clinicians were not masked, but the primary outcome (CRBSI) was adjudicated by masked infectious diseases physicians. The analysis was modified intention to treat (mITT). This study is registered with the Australian New Zealand Clinical Trials Registry ACTRN12610000505000 and is complete. FINDINGS: Between May 30, 2011, and Dec, 9, 2016, from 6007 patients assessed, we assigned 2944 patients to 7-day (n=1463) or 4-day (n=1481) infusion set replacement, with 2941 in the mITT analysis. For central venous access devices, 20 (1·78%) of 1124 patients (7-day group) and 16 (1·46%) of 1097 patients (4-day group) had CRBSI (absolute risk difference [ARD] 0·32%, 95% CI -0·73 to 1·37). For peripheral arterial catheters, one (0·28%) of 357 patients in the 7-day group and none of 363 patients in the 4-day group had CRBSI (ARD 0·28%, -0·27% to 0·83%). There were no treatment-related adverse events. INTERPRETATION: Infusion set use can be safely extended to 7 days with resultant cost and workload reductions. FUNDING: Australian National Health and Medical Research Council.

Influence of rural clinical school experience and rural origin on practising in rural communities five and eight years after graduation.

OBJECTIVE: To examine associations between extended medical graduates' rural clinical school (RCS) experience and geographic origins with practising in rural communities five and eight years after graduation. DESIGN, PARTICIPANTS: Cohort study of 2011 domestic medical graduates from ten Australian medical schools with rural clinical or regional medical schools. MAIN OUTCOME MEASURES: Practice location types eight years after graduation (2019/2020) as recorded by the Australian Health Practitioner Regulation Agency, classified as rural or metropolitan according to the 2015 Modified Monash Model; changes in practice location type between postgraduate years 5 (2016/2017) and 8 (2019/2020). RESULTS: Data were available for 1321 graduates from ten universities; 696 were women (52.7%), 259 had rural backgrounds (19.6%), and 413 had extended RCS experience (31.3%). Eight years after graduation, rural origin graduates with extended RCS experience were more likely than metropolitan origin graduates without this experience to practise in regional (relative risk [RR], 3.6; 95% CI, 1.8-7.1) or rural communities (RR, 4.8; 95% CI, 3.1-7.5). Concordance of location type five and eight years after graduation was 92.6% for metropolitan practice (84 of 1136 graduates had moved to regional/rural practice, 7.4%), 26% for regional practice (56 of 95 had moved to metropolitan practice, 59%), and 73% for rural practice (20 of 100 had moved to metropolitan practice, 20%). Metropolitan origin graduates with extended RCS experience were more likely than those without it to remain in rural practice (RR, 2.0; 95% CI, 1.3-2.9) or to move to rural practice (RR, 1.9; 95% CI, 1.2-3.1). CONCLUSION: The distribution of graduates by practice location type was similar five and eight years after graduation. Recruitment to and retention in rural practice were higher among graduates with extended RCS experience. Our findings reinforce the importance of longitudinal rural and regional training pathways, and the role of RCSs, regional training hubs, and the rural generalist training program in coordinating these initiatives.

Building a sustainable rural physician workforce.

CHAPTER 1: CHARACTERISING AUSTRALIA'S RURAL SPECIALIST PHYSICIAN WORKFORCE: THE PROFESSIONAL PROFILE AND PROFESSIONAL SATISFACTION OF JUNIOR DOCTORS AND CONSULTANTS: Objective: To assess differences in the demographic characteristics, professional profile and professional satisfaction of rural and metropolitan junior physicians and physician consultants in Australia. DESIGN, SETTING AND PARTICIPANTS: Cross-sectional, population level national survey of the Medicine in Australia: Balancing Employment and Life longitudinal cohort study (collected 2008-2016). Participants were specialist physicians from four career stage groups: pre-registrars (physician intent); registrars; new consultants (< 5 years since Fellowship); and consultants. MAIN OUTCOME MEASURES: Level of professional satisfaction across various job aspects, such as hours worked, working conditions, support networks and educational opportunities, comparing rural and metropolitan based physicians. RESULTS: Participants included 1587 pre-registrars (15% rural), 1745 physician registrars (9% rural), 421 new consultants (20% rural) and 1143 consultants (13% rural). Rural physicians of all career stages demonstrated equivalent professional satisfaction across most job aspects, compared with metropolitan physician counterparts. Some examples of differences in satisfaction included rural pre-registrars being less likely to agree they had good access to support and supervision from qualified consultants (odds ratio [OR], 0.6; 95% CI, 0.3-0.9) and rural consultants being more likely to agree they had a poorer professional support network (OR, 1.9; 95% CI, 1.2-2.9). In terms of demographics, relatively more rural physicians had a rural background or were trained overseas. Although most junior physicians were women, female consultants were less likely to be working in a rural location (OR, 0.6; 95% CI, 0.4-0.8). CONCLUSION: Junior physicians in metropolitan or rural settings have a similar professional experience, which is important in attracting future trainees. Increased opportunities for rural training should be prioritised, along with addressing concerns about the professional isolation and poorer support network of those in rural areas, not only among junior doctors but also consultants. Finally, making rural practice more attractive to female junior physicians could greatly improve the consultant physician distribution. CHAPTER 2: GENERAL PHYSICIANS AND PAEDIATRICIANS IN RURAL AUSTRALIA: THE SOCIAL CONSTRUCTION OF PROFESSIONAL IDENTITY: Objective: To explore the construction of professional identity among general physicians and paediatricians working in non-metropolitan areas. DESIGN, SETTING AND PARTICIPANTS: In-depth qualitative interviews were conducted with general physicians and paediatricians, plus informants from specialist colleges, government agencies and academia who were involved in policy and programs for the training and recruitment of specialists in rural locations across three states and two territories. This research is part of the Training Pathways and Professional Support for Building a Rural Physician Workforce Study, 2018-19. MAIN OUTCOME MEASURES: Individual and collective descriptors of professional identity. RESULTS: We interviewed 36 key informants. Professional identity for general physicians and paediatricians working in regional, rural and remote Australia is grounded in the breadth of their training, but qualified by location - geographic location, population served or specific location, where social and cultural context specifically shapes practice. General physicians and paediatricians were deeply engaged with their local community and its economic vulnerability, and they described the population size and dynamics of local economies as determinants of viable practice. They often complemented their practice with formal or informal training in areas of special interest, but balanced their practice against subspecialist availability, also dependent on demographics. While valuing their professional roles, they showed limited inclination for industrial organisation. CONCLUSION: Despite limited consensus on identity descriptors, rural general physicians and paediatricians highly value generalism and their rural engagement. The structural and geographic bias that preferences urban areas will need to be addressed to further develop coordinated strategies for advanced training in rural contexts, for which collective identity is integral. CHAPTER 3: SUSTAINABLE RURAL PHYSICIAN TRAINING: LEADERSHIP IN A FRAGILE ENVIRONMENT: Objectives: To understand Royal Australasian College of Physicians (RACP) training contexts, including supervisor and trainee perspectives, and to identify contributors to the sustainability of training sites, including training quality. DESIGN, SETTING AND PARTICIPANTS: A cross-sectional mixed-methods design was used. A national sample of RACP trainees and Fellows completed online surveys. Survey respondents who indicated willingness to participate in interviews were purposively recruited to cover perspectives from a range of geographic, demographic and training context parameters. MAIN OUTCOME MEASURES: Fellows' and trainees' work and life satisfaction, and their experiences of supervision and training, respectively, by geographic location. RESULTS: Fellows and trainees reported high levels of satisfaction, with one exception - inner regional Fellows reported lower satisfaction regarding opportunities to use their abilities. Not having a good support network was associated with lower satisfaction. Our qualitative findings indicate that a culture of undermining rural practice is prevalent and that good leadership at all levels is important to reduce negative impacts on supervisor and trainee availability, site accreditation and viability. Trainees described challenges in navigating training pathways, ensuring career development, and having the flexibility to meet family needs. The small number of Fellows in some sites poses challenges for supervisors and trainees and results in a blurring of roles; accreditation is an obstacle to provision of training at rural sites; and the overlap between service and training roles can be difficult for supervisors. CONCLUSION: Our qualitative findings emphasise the distinctive nature of regional specialist training, which can make it a fragile environment. Leadership at all levels is critical to sustaining accreditation and support for supervisors and trainees. CHAPTER 4: PRINCIPLES TO GUIDE TRAINING AND PROFESSIONAL SUPPORT FOR A SUSTAINABLE RURAL SPECIALIST PHYSICIAN WORKFORCE: Objective: To draw on research conducted in the Building a Rural Physician Workforce project, the first national study on rural specialist physicians, to define a set of principles applicable to guiding training and professional support action. DESIGN: We used elements of the Delphi approach for systematic data collection and codesign, and applied a hybrid participatory action planning approach to achieve consensus on a set of principles. RESULTS: Eight interconnected foundational principles built around rural regions and rural people were identified: FP1, grow your own "connected to" place; FP2, select trainees invested in rural practice; FP3, ground training in community need; FP4, rural immersion - not exposure; FP5, optimise and invest in general medicine; FP6, include service and academic learning components; FP7, join up the steps in rural training; and FP8, plan sustainable specialist roles. CONCLUSION: These eight principles can guide training and professional support to build a sustainable rural physician workforce. Application of the principles, and coordinated action by stakeholders and the responsible organisations, are needed at national, state and local levels to achieve a sustainable rural physician workforce.

Increasing doctors working in specific rural regions through selection from and training in the same region: national evidence from Australia.

BACKGROUND: 'Grow your own' strategies are considered important for developing rural workforce capacity. They involve selecting health students from specific rural regions and training them for extended periods in the same regions, to improve local retention. However, most research about these strategies is limited to single institution studies that lack granularity as to whether the specific regions of origin, training and work are related. This national study aims to explore whether doctors working in specific rural regions also entered medicine from that region and/or trained in the same region, compared with those without these connections to the region. A secondary aim is to explore these associations with duration of rural training. METHODS: Utilising a cross-sectional survey of Australian doctors in 2017 (n = 6627), rural region of work was defined as the doctor's main work location geocoded to one of 42 rural regions. This was matched to both (1) Rural region of undergraduate training (< 12 weeks, 3-12 months, > 1 university year) and (2) Rural region of childhood origin (6+ years), to test association with returning to work in communities of the same rural region. RESULTS: Multinomial logistic regression, which adjusted for specialty, career stage and gender, showed those with > 1 year (RRR 5.2, 4.0-6.9) and 3-12 month rural training (RRR 1.4, 1.1-1.9) were more likely to work in the same rural region compared with < 12 week rural training. Those selected from a specific region and having > 1-year rural training there related to 17.4 times increased chance of working in the same rural region compared with < 12 week rural training and metropolitan origin. CONCLUSION: This study provides the first national-scale empirical evidence supporting that 'grow your own' may be a key workforce capacity building strategy. It supports underserviced rural areas selecting and training more doctors, which may be preferable over policies that select from or train doctors in 'any' rural location. Longer training in the same region enhances these outcomes. Reorienting medical training to selecting and training in specific rural regions where doctors are needed is likely to be an efficient means to correcting healthcare access inequalities.

Effective dimensions of rural undergraduate training and the value of training policies for encouraging rural work.

CONTEXT: The implementation of rural undergraduate medical education can be improved by collecting national evidence about the aspects of these programmes that work well and the value of investing in national policies. OBJECTIVES: This study aimed to explore how different durations, degree of remoteness and number of rural undergraduate medical training placements relate to working rurally, and to investigate differences after the introduction of formal national training policies that fund short- and long-term rural training experiences for medical students. METHODS: A cohort of 6510 Australian-trained doctors who completed the Medicine in Australia: Balancing Employment and Life survey recalled their participation in rural undergraduate medical training. Responses were categorised by duration, remoteness as defined by the Modified Monash Model levels 3-4 and 4-7 compared with 1, and total number of placements. Multivariate regression was used to test associations with working rurally in 2017, and differences between cohorts of students who graduated pre- and post-2000, of which the latter were exposed to formal national training policies. RESULTS: Any rural undergraduate training was associated with working rurally (odds ratio [OR] 1.6, 95% confidence interval [CI] 1.3-1.9) with incrementally stronger associations for longer duration (>1 year: OR 3.0, 95% CI 2.3-4.0), greater remoteness (OR 1.8, 95% CI 1.5-2.1) and three placements (OR 2.4, 95% CI 1.9-3.0) compared with none. Rural background (OR 2.6, 95% CI 2.3-3.0) and general practice (OR 2.6, 95% CI 2.2-2.9) were independently associated with working rurally; being female was negatively associated with rural work (OR 0.7, 95% CI 0.6-0.8). The cohort of doctors who trained in a period when national rural training policies had been implemented included more graduates with a rural background and experience of undergraduate rural training but returned equivalent proportions of rural doctors to pre-policy cohorts, and included proportionally more women and fewer general practitioners. CONCLUSIONS: Rural undergraduate training should focus on multiple dimensions of duration, remoteness and number of rural undergraduate training experiences to grow the rural medical workforce. Formal national rural training policies may be an important part of the broader system for rural workforce development, but they rely on the uptake of general practice and the participation of female doctors in rural medicine.

Understanding the professional satisfaction of hospital trainees in Australia.

CONTEXT: Ensuring that specialty trainees are professionally satisfied is not only important from the point of view of trainee well-being, but is also critical if health systems are to retain doctors. Despite this, little systematic research in specialist trainees has identified policy-amenable factors correlated with professional satisfaction. This study examined factors associated with trainee professional satisfaction in a national Australian cohort. METHODS: This study used 2008-2015 data from the Medicine in Australia: Balancing Employment and Life (MABEL) survey, a national study of doctor demographics, characteristics and professional and personal satisfaction. Our study examined specialist trainees using a repeat cross-sectional method pooling first responses across all waves. A multivariate logistic regression analysis was used to assess correlates with professional satisfaction. RESULTS: The three factors most strongly correlated with professional satisfaction were feeling well supported and supervised by consultants (odds ratio [OR] 2.59, 95% confidence interval [CI] 2.42-2.77), having sufficient study time (OR 1.54, 95% CI 1.40-1.70) and self-rated health status (OR 1.65, 95% CI 1.53-1.80). Those working >56 hours per week were significantly less professionally satisfied (OR 0.76, 95% CI 0.70-0.84) compared with those working the median work hours (45-50 hours per week). Those earning in the lower quintiles, those earlier in their training and those who had studied at overseas universities were also significantly less likely to be satisfied. CONCLUSIONS: Our study suggests that good clinical supervision and support, appropriate working hours and supported study time directly impact trainee satisfaction, potentially affecting the quality of clinical care delivered by trainees. Furthermore, the needs of junior trainees, overseas graduates and those working >56 hours per week should be given particular consideration when developing well-being and training programmes.

Exploring preference for, and uptake of, rural medical internships, a key issue for supporting rural training pathways.

BACKGROUND: Improved medical care access for rural populations continues to be a major concern. There remains little published evidence about postgraduate rural pathways of junior doctors, which may have strong implications for a long-term skilled rural workforce. This exploratory study describes and compares preferences for, and uptake of, rural internships by new domestic and international graduates of Victorian medical schools during a period of rural internship position expansion. METHODS: We used administrative data of all new Victorian medical graduates' location preference and accepted location of internship positions for 2013-16. Associations between preferred internship location and accepted internship position were explored including by rurality and year. Moreover, data were stratified between 'domestic graduates' (Australian and New Zealand citizens or permanent residents) and 'international graduates' (temporary residents who graduated from an Australian university). RESULTS: Across 2013-16, there were 4562 applicants who filled 3130 internship positions (46% oversubscribed). Domestic graduates filled most (69.7%, 457/656) rural internship positions, but significantly less than metropolitan positions (92.2%, p < 0.001). Only 20.1% (551/2737) included a rural location in their top five preferences, less than for international graduates (34.4%, p < 0.001). A greater proportion of rural compared with metropolitan interns accepted a position not in their top five preferences (36.1% versus 7.4%, p < 0.001). The proportion nominating a rural location in their preference list increased across 2013-2016. CONCLUSIONS: The preferences for, and uptake of, rural internship positions by domestic graduates is sub-optimal for growing a rural workforce from local graduates. Current actions that have increased the number of rural positions are unlikely to be sufficient as a stand-alone intervention, thus regional areas must rely on international graduates. Strategies are needed to increase the attractiveness of rural internships for domestic students so that more graduates from rural undergraduate medical training are retained rurally. Further research could explore whether the uptake of rural internships is facilitated by aligning these positions with protected opportunities to continue vocational training in regionally-based or metropolitan fellowships. Increased understanding is needed of the factors impacting work location decisions of junior doctors, particularly those with some rural career intent.

Dressings and securements for the prevention of peripheral intravenous catheter failure in adults (SAVE): a pragmatic, randomised controlled, superiority trial.

BACKGROUND: Two billion peripheral intravenous catheters (PIVCs) are used globally each year, but optimal dressing and securement methods are not well established. We aimed to compare the efficacy and costs of three alternative approaches to standard non-bordered polyurethane dressings. METHODS: We did a pragmatic, randomised controlled, parallel-group superiority trial at two hospitals in Queensland, Australia. Eligible patients were aged 18 years or older and required PIVC insertion for clinical treatment, which was expected to be required for longer than 24 h. Patients were randomly assigned (1:1:1:1) via a centralised web-based randomisation service using random block sizes, stratified by hospital, to receive tissue adhesive with polyurethane dressing, bordered polyurethane dressing, a securement device with polyurethane dressing, or polyurethane dressing (control). Randomisation was concealed before allocation. Patients, clinicians, and research staff were not masked because of the nature of the intervention, but infections were adjudicated by a physician who was masked to treatment allocation. The primary outcome was all-cause PIVC failure (as a composite of complete dislodgement, occlusion, phlebitis, and infection [primary bloodstream infection or local infection]). Analysis was by modified intention to treat. This trial is registered with the Australian New Zealand Clinical Trials Registry, number ACTRN12611000769987. FINDINGS: Between March 18, 2013, and Sept 9, 2014, we randomly assigned 1807 patients to receive tissue adhesive with polyurethane (n=446), bordered polyurethane (n=454), securement device with polyurethane (n=453), or polyurethane (n=454); 1697 patients comprised the modified intention-to-treat population. 163 (38%) of 427 patients in the tissue adhesive with polyurethane group (absolute risk difference -4·5% [95% CI -11·1 to 2·1%], p=0·19), 169 (40%) of 423 of patients in the bordered polyurethane group (-2·7% [-9·3 to 3·9%] p=0·44), 176 (41%) of 425 patients in the securement device with poplyurethane group (-1·2% [-7·9% to 5·4%], p=0·73), and 180 (43%) of 422 patients in the polyurethane group had PIVC failure. 17 patients in the tissue adhesive with polyurethane group, two patients in the bordered polyurethane group, eight patients in the securement device with polyurethane group, and seven patients in the polyurethane group had skin adverse events. Total costs of the trial interventions did not differ significantly between groups. INTERPRETATION: Current dressing and securement methods are commonly associated with PIVC failure and poor durability, with simultaneous use of multiple products commonly required. Cost is currently the main factor that determines product choice. Innovations to achieve effective, durable dressings and securements, and randomised controlled trials assessing their effectiveness are urgently needed. FUNDING: Australian National Health and Medical Research Council.

Reviewing reliance on overseas-trained doctors in rural Australia and planning for self-sufficiency: applying 10 years' MABEL evidence.

BACKGROUND: The capacity for high-income countries to supply enough locally trained doctors to minimise their reliance on overseas-trained doctors (OTDs) is important for equitable global workforce distribution. However, the ability to achieve self-sufficiency of individual countries is poorly evaluated. This review draws on a decade of research evidence and applies additional stratified analyses from a unique longitudinal medical workforce research program (the Medicine in Australia: Balancing Employment and Life survey (MABEL)) to explore Australia's rural medical workforce self-sufficiency and inform rural workforce planning. Australia is a country with a strong medical education system and extensive rural workforce policies, including a requirement that newly arrived OTDs work up to 10 years in underserved, mostly rural, communities to access reimbursement for clinical services through Australia's universal health insurance scheme, called Medicare. FINDINGS: Despite increases in the number of Australian-trained doctors, more than doubling since the late 1990s, recent locally trained graduates are less likely to work either as general practitioners (GPs) or in rural communities compared to local graduates of the 1970s-1980s. The proportion of OTDs among rural GPs and other medical specialists increases for each cohort of doctors entering the medical workforce since the 1970, peaking for entrants in 2005-2009. Rural self-sufficiency will be enhanced with policies of selecting rural-origin students, increasing the balance of generalist doctors, enhancing opportunities for remaining in rural areas for training, ensuring sustainable rural working conditions and using innovative service models. However, these policies need to be strongly integrated across the long medical workforce training pathway for successful rural workforce supply and distribution outcomes by locally trained doctors. Meanwhile, OTDs substantially continue to underpin Australia's rural medical service capacity. The training pathways and social support for OTDs in rural areas is critical given their ongoing contribution to Australia's rural medical workforce. CONCLUSION: It is essential for Australia to monitor its ongoing reliance on OTDs in rural areas and be considerate of the potential impact on global workforce distribution.

Outcomes of a 1-year longitudinal integrated medical clerkship in small rural Victorian communities.

INTRODUCTION: Access to medical services for rural communities is poorer than for metropolitan communities in many parts of the world. One of the strategies to improve rural medical workforce has been rural clinical placements for undergraduate medical students. This study explores the workforce outcomes of one model of such placements - the longitudinal integrated clerkship (LIC) - delivered in year 4, the penultimate year of the medical course, as part of the rural programs delivered by a medical school in Victoria, Australia. The LIC involved student supervision under a parallel consulting model with experienced rural generalist doctors for a whole year in small community rural general practices. METHODS: This study aimed to compare the work locations (regional or more rural), following registration as a medical practitioner, of medical students who had completed 1 year of the LIC, with, first, students who had other types of rural training of comparable duration elsewhere, and second, students who had no rural training. Study participants commenced their medical degree after 2004 and had graduated between 2008 and 2016 and thus were in postgraduate year 1-9 in 2017 when evaluated. Information about the student training location(s), and duration, type and timing of training, was prospectively collected from university administrative systems. The outcome of interest was the main work location in 2017, obtained from the Australian Health Practitioner Regulation Agency's public website. RESULTS: Students who had undertaken the year 4 LIC along with additional rural training in years 3 and/or 5 were more likely than all other groups to be working in smaller regional or rural towns, where workforce need is greatest (relative risk ratio (RRR) 5.62, 95% confidence interval (CI) 2.81-11.20, compared with those having metropolitan training only). Non-LIC training of similar duration in rural areas was also significantly associated, but more weakly, with smaller regional work location (RRR 2.99, 95%CI 1.87-4.77). Students whose only rural training was the year 4 LIC were not significantly associated with smaller regional work location (RRR 1.72, 95%CI 0.59-5.04). Overall, after accounting for both LIC and non-LIC rural training exposure, rural work after graduation was also consistently positively associated with rural background, being an international student and having a return of service obligation under a bonded program as a student. CONCLUSION: This study demonstrates the value of rural LICs, coupled with additional rural training, in contributing to improving Australia's medical workforce distribution. Whilst other evidence has already demonstrated positive educational outcomes for doctors who participate in rural LIC placements, this is the first known study of work location outcomes. The study provides evidence that expanding this model of rural undergraduate education may lead to a better geographically distributed medical workforce.

Rural training pathways: the return rate of doctors to work in the same region as their basic medical training.

BACKGROUND: Limited evidence exists about the extent to which doctors are returning to rural region(s) where they had previously trained. This study aims to investigate the rate at which medical students who have trained for 12 months or more in a rural region return to practice in that same region in their early medical career. A secondary aim is to investigate whether there is an independent or additional association with the effect of longer duration of rural exposure in a region (18-24 months) and for those completing both schooling and training in the same rural region. METHODS: The outcome was rural region of work, based on postcode of work location in 2017 for graduates spanning 1-9 years post-graduation, for one large medical program in Victoria, Australia. Region of rural training, combined with region of secondary schooling and duration of rural training, was explored for its association with region of practice. A multinomial logistic regression model, accounting for other covariates, measured the strength of association with practising in the same rural region as where they had trained. RESULTS: Overall, 357/2451 (15%) graduates were working rurally, with 90/357 (25%) working in the same rural region as where they did rural training. Similarly, 41/170 (24%) were working in the same region as where they completed schooling. Longer duration (18-24 vs 12 months) of rural training (relative risk ratio, RRR, 3.37, 1.89-5.98) and completing both schooling and training in the same rural region (RRR: 4.47, 2.14-9.36) were associated with returning to practice in the same rural region after training. CONCLUSIONS: Medical graduates practising rurally in their early career (1-9 years post-graduation) are likely to have previous connections to the region, through either their basic medical training, their secondary schooling, or both. Social accountability of medical schools and rural medical workforce outcomes could be improved by policies that enable preferential selection and training of prospective medical students from rural regions that need more doctors, and further enhanced by longer duration of within-region training.

A review of characteristics and outcomes of Australia's undergraduate medical education rural immersion programs.

BACKGROUND: A key strategy for increasing the supply of rural doctors is rurally located medical education. In 2000, Australia introduced a national policy to increase rural immersion for undergraduate medical students. This study aims to describe the characteristics and outcomes of the rural immersion programs that were implemented in Australian medical schools. METHODS: Information about 19 immersion programs was sourced in 2016 via the grey and published literature. A scoping review of the published peer-reviewed studies via Ovid MEDLINE and Informit (2000-2016) and direct journal searching included studies that focused on outcomes of undergraduate rural immersion in Australian medical schools from 2000 to 2016. RESULTS: Programs varied widely by selection criteria and program design, offering between 1- and 6-year immersion. Based on 26 studies from 10 medical schools, rural immersion was positively associated with rural practice in the first postgraduate year (internship) and early career (first 10 years post-qualifying). Having a rural background increased the effects of rural immersion. Evidence suggested that longer duration of immersion also increases the uptake of rural work, including by metropolitan-background students, though overall there was limited evidence about the influence of different program designs. Most evidence was based on relatively weak, predominantly cross-sectional research designs and single-institution studies. Many had flaws including small sample sizes, studying internship outcomes only, inadequately controlling for confounding variables, not using metropolitan-trained controls and providing limited justification as to the postgraduate stage at which rural practice outcomes were measured. CONCLUSIONS: Australia's immersion programs are moderately associated with an increased rural supply of early career doctors although metropolitan-trained students contribute equal numbers to overall rural workforce capacity. More research is needed about the influence of student interest in rural practice and the duration and setting of immersion on rural work uptake and working more remotely. Research needs to be more nationally balanced and scaled-up to inform national policy development. Critically, the quality of research could be strengthened through longer-term follow-up studies, adjusting for known confounders, accounting for postgraduate stages and using appropriate controls to test the relative effects of student characteristics and program designs.

Demonstrating a new approach to planning and monitoring rural medical training distribution to meet population need in North West Queensland.

BACKGROUND: Improving the health of rural populations requires developing a medical workforce with the right skills and a willingness to work in rural areas. A novel strategy for achieving this aim is to align medical training distribution with community need. This research describes an approach for planning and monitoring the distribution of general practice (GP) training posts to meet health needs across a dispersed geographic catchment. METHODS: An assessment of the location of GP registrars in a large catchment of rural North West Queensland (across 11 sub-regions) in 2017 was made using national workforce supply, rurality and other indicators. These included (1): Index of Access -spatial accessibility (2); 10-year District of Workforce Shortage (DWS) (3); MMM (Modified Monash Model) rurality (4); SEIFA (Socio-Economic Indicator For Areas) (5); Indigenous population and (6) Population size. Distribution was determined relative to GP workforce supply measures and population health needs in each health sub-region of the catchment. An expert panel verified the approach and reliability of findings and discussed the results to inform planning. RESULTS: 378 registrars and 582 supervisors were well-distributed in two sub-regions; in contrast the distribution was below expected levels in three others. Almost a quarter of registrars (24%) were located in the poorest access areas (Index of Access) compared with 15% of the population located in these areas. Relative to the population size, registrars were proportionally over-represented in the most rural towns, those consistently rated as DWS or those with the poorest SEIFA value and highest Indigenous proportion. CONCLUSIONS: Current regional distribution was good, but individual town-level data further enabled the training provider to discuss the nuance of where and why more registrars (or supervisors) may be needed. The approach described enables distributed workforce planning and monitoring applicable in a range of contexts, with increased sensitivity for registrar distribution planning where most needed, supporting useful discussions about the potential causes and solutions. This evidence-based approach also enables training organisations to engage with local communities, health services and government to address the sustainable development of the long-term GP workforce in these towns.

Mobility of US Rural Primary Care Physicians During 2000-2014.

PURPOSE: Despite considerable investment in increasing the number of primary care physicians in rural shortage areas, little is known about their movement rates and factors influencing their mobility. We aimed to characterize geographic mobility among rural primary care physicians, and to identify location and individual factors that influence such mobility. METHODS: Using data from the American Medical Association Physician Masterfile for each clinically active US physician, we created seven 2-year (biennial) mobility periods during 2000-2014. These periods were merged with county-level "rurality," physician supply, economic characteristics, key demographic measures, and individual physician characteristics. We computed (1) mobility rates of physicians by rurality; (2) linear regression models of county-level rural nonretention (departure); and (3) logit models of physicians leaving rural practice. RESULTS: Biennial turnover was about 17% among physicians aged 45 and younger, compared with 9% among physicians aged 46 to 65, with little difference between rural and metropolitan groups. County-level physician mobility was higher for counties that lacked a hospital (absolute increase = 5.7%), had a smaller population size, and had lower primary care physician supply, but area-level economic and demographic factors had little impact. Female physicians (odds ratios = 1.24 and 1.46 for those aged 45 or younger and those aged 46 to 65, respectively) and physicians born in a metropolitan area (odds ratios = 1.75 and 1.56 for those aged 45 or younger and those aged 46 to 65, respectively) were more likely to leave rural practice. CONCLUSIONS: These flndings provide national-level evidence of rural physician mobility rates and factors associated with both county-level retention and individual-level departures. Outcomes were notably poorer in the most remote locations and those already having poorer physician supply and professional support. Rural health workforce planners and policymakers must be cognizant of these key factors to more effectively target retention policies and to take into account the additional support needed by these more vulnerable communities.