Connect
MJA
MJA

Vocational training of general practitioners in rural locations is critical for the Australian rural medical workforce

Matthew R McGrail, Deborah J Russell and David G Campbell
Med J Aust 2016; 205 (5): 216-221. || doi: 10.5694/mja16.00063
Published online: 5 September 2016

Abstract

Objective: To investigate associations between general practitioner vocational training location and subsequent practice location, including the effect of rural origin.

Design and participants: Annual panel survey of GPs (from the MABEL study) who completed their vocational training and transitioned to independent practice, 2008–2014.

Main outcome measures: Rural practice location in the 5 years after vocational registration for participants in four primary cohorts: (1) rural origin/rural training; (2) metropolitan origin/rural training; (3) rural origin/metropolitan training; and (4) metropolitan origin/metropolitan training.

Results: During the study period, 610 doctors completed GP vocational training and commenced independent practice. 74–91% of rural origin/rural training cohort GPs remained in rural areas during their first 5 years after completing training, with 61–70% remaining in the same community. Conversely, 87–95% of metropolitan origin/metropolitan training cohort GPs remained in metropolitan areas. GPs from the other two cohorts initially remained in their training location type, but gradually moved towards their origin type. Generalised estimating equation logit models identified a highly significant association between rural training pathways and subsequent rural practice that was sustained for 5 years after vocational registration; it was substantially strengthened when combined with rural origin (cohort 2 v cohort 4: odds ratio [OR], 24; 95% CI, 13–43; cohort 1 v cohort 4: OR, 52; 95% CI, 24–111).

Conclusion: This study provides new quantitative evidence of strong associations between rural GP vocational training location and subsequent rural practice location, which is strengthened when combined with rural origin. This evidence supports current government policy supporting rural GP vocational training and quotas for medical student selection based on rural origin.

The known In efforts to reduce the longstanding geographically inequitable distribution of Australian GPs, current policy requires that 50% of GP vocational training (registrar) positions are located in rural or remote areas. 

The new We identified a strong association between rural training pathways and subsequent rural practice, and it is intensified by a rural origin effect. Despite some attenuation over time, these associations remained strong up to 5 years after vocational registration. 

The implications Ongoing support for rural GP vocational training opportunities and the selection of rural origin medical students are critical components of GP workforce policy. 

The geographically inequitable distribution of the Australian medical workforce continues, and rural and remote general practitioner positions are largely filled by international medical graduates (IMGs).1 This dependency persists despite substantial government efforts to stimulate recruitment and retention of Australian-trained GPs in rural areas. Recent government initiatives have included a large increase in the number of federally supported medical school places for students, and supporting medical education and training in rural communities through the Rural Clinical Training and Support (RCTS) program.1,2 A quota for the proportion of domestic students with a rural background selected by medical schools (at least 25%) has also been introduced, and rural clinical exposure during undergraduate and pre-vocational medical training programs has increased. In addition, Australian policy now requires that 50% of GP vocational (registrar) training occurs outside metropolitan areas.1 This policy is based chiefly on research that has indicated that a positive educational experience in rural settings, targeted training of GP registrars for rural practice, and clear pathways to rural practice are the most effective incentives for interesting a GP in a rural career.3,4 Doctors accepted into GP training are selected into either the Rural Pathway or the General (mostly metropolitan) Pathway, with about 50% of candidates allocated to each.5

Evidence for the effectiveness of these interventions for increasing rural recruitment and retaining Australian medical graduates in rural areas has accumulated. Ranmuthugala and colleagues6 reported that evidence for the effectiveness of increased rural exposure during undergraduate medical training on the uptake of rural practice was inconclusive, but Wilkinson and colleagues7 found that postgraduate rural GP training had a stronger association with rural practice uptake than rural exposure during undergraduate training (although the availability of rural GP postgraduate training was low at the time of this study because the number of rural training positions was limited). More recent empirical data8-10 and data on intentions collected at training completion11,12 suggest moderate improvement in the uptake of rural practice by students who have participated in RCTS programs. However, as reported in three literature reviews on the recruitment and retention of medical practitioners in rural areas3,13,14 and as lamented in a recent letter to the Medical Journal of Australia,15 there remains a large evidence gap as to the effectiveness of rural exposure during vocational training programs. A review of the outcomes of the regionalised Australian General Practice Training Program16 found that only 27% of former Rural Pathway registrars remained in rural practice after 7 years. In addition, several North American studies have produced limited quantitative evidence of associations between vocational training in a rural primary care setting and subsequent rural practice.17-20

The geographic origin of doctors also has an impact on their commencing rural practice, with convincing evidence about a strong link between an individual’s rural upbringing and their subsequent decisions about a rural career.21,22 The consistency of the reported association between GPs having a rural background and their choosing a rural career suggests that their origin is a critical factor in making this decision, regardless of vocational training location. Our study therefore aimed to investigate the association between vocational training location and the subsequent choice of practice location for newly registered GPs, including the effect of a rural background.

Methods

This study was based on data from the Medicine in Australia: Balancing Employment and Life (MABEL) study, conducted by the Centre for Research Excellence in Medical Workforce Dynamics (https://mabel.org.au/). MABEL is a national longitudinal survey that collects annual data from a panel of doctors, with a regular small participation top-up. The first wave of the MABEL study (2008) invited the entire medical workforce to participate, and 10 498 doctors (19.4% of the medical population) completed the initial survey, including 17.7% of GPs. There has subsequently been an annual 70–80% study retention rate. Further participants (generally recently graduated, non-specialist hospital doctors or IMGs newly registered in Australia) are added to the MABEL pool each year.

Our study analysed data from MABEL waves 1 to 7 (2008–2014), and was restricted to respondents who had completed their GP vocational training and were transitioning to independent practice. The transition year for a GP was identified from MABEL data on the basis of their participation in GP registrar training and details of newly completed medical qualifications. Data for IMG GPs — defined as those who had completed their initial medical training outside Australia and New Zealand — were analysed separately.

Rural origin and work location

Rural origin was defined for doctors trained in Australia or New Zealand as their having resided for at least 6 years in a rural area before the age of 18 years. Each doctor’s work location was geocoded in each MABEL wave to a specific town or suburb, then classified as metropolitan or rural. Rural location was defined as including Australian Standard Geographic Classification Remoteness Areas (ASGC-RA) 2 to 5;23 it was self-defined for New Zealand-trained doctors. Vocational training location was defined in two ways: as rural or metropolitan by work location in the year the doctor completed their training (final training location), and as an aggregate of work locations in the 2 to 3 years preceding their completion of training.

Statistical analysis

Four cohorts were defined by a combination of origin type and final training location: rural origin/rural training, metropolitan origin/rural training, rural origin/metropolitan training, and metropolitan origin/metropolitan training. For comparison purposes, IMGs were separately divided into two cohorts: rural training and metropolitan training.

A secondary (sensitivity) analysis defined four cohorts by multiple training locations: rural training only; completed training in a rural area, but also had some metropolitan training; completed training in a metropolitan area, but also had some rural training; metropolitan training only.

For each cohort, the proportions of GPs working in rural and metropolitan locations were calculated for each of the first 5 years after they had completed their vocational training. Rurally trained GPs were further classified according to whether they were working in the same or a different rural community from that in which they completed their vocational training; a buffer of 20 kilometres was allowed.

Separate generalised estimating equation (GEE) models with a logit link function and exchangeable correlation structure were used to test associations between vocational training pathways and subsequent work location for the four primary cohorts (non-IMGs only) for each of the 5 years after completing vocational training. Adjustments were made for four additional demographic variables during each particular year: sex, age, living with a partner, and having dependent children. A further variable — whether the GP was rurally bonded (contracted to work for part of their early career in rural locations) in a particular year — was included in each regression model. These models were repeated for the four secondary cohorts, with rural origin as an additional covariate; its multi-year cohort definitions limited analysis to 4 outcome years. All calculations were performed in StataSE 12 (StataCorp).

Ethics approval

The MABEL study was approved by the University of Melbourne Faculty of Business and Economics Human Ethics Advisory Group (reference, 0709559) and the Monash University Standing Committee on Ethics in Research Involving Humans (reference, CF07/1102 – 2007000291).

Results

During the 7-year study period, 610 doctors completed their GP vocational training and commenced in at least one subsequent work location. The demographic characteristics of these GPs are summarised in Box 1. Just under half of the local graduates (ie, those who graduated in Australia) trained in the Rural Pathway, and about one quarter were of rural origin (consistent with current policy requirements for GP training posts and medical student intakes); fewer than 10% were rurally bonded. Most local medical graduates were women, most lived with a partner, and almost 40% had dependent children. The proportions of IMGs who trained in the Rural Pathway, were men, were aged 35 years or more, lived with a partner, or had dependent children were higher than for local medical graduates (Box 1).

Box 2 summarises the practice location as an independent GP for the four primary cohorts of local medical graduates for each of the 5 years following their completion of vocational training. There were very strong and sustained associations between final vocational training location type and subsequent practice location for the rural origin/rural training and metropolitan origin/metropolitan training cohorts; 74–91% and 87–95% respectively remained in their origin/training type during their first 5 post-training years. Moreover, 61–70% of the rural origin/rural training cohort practised in the same rural community in which they trained during the first 4 years after completing their vocational training. Outcomes for GPs from cohorts 2 and 3 also showed a clear pattern: initially, these GPs generally remained in their final vocational training location type, but there was subsequently a gradual move in work location toward their origin type. The career patterns of rurally trained IMGs was similar to those of metropolitan origin/rural trained local graduate GPs, with a gradual move in work location toward metropolitan areas during the 5 years after vocational registration (Box 3).

The rural training pathway, regardless of childhood location, was highly significantly associated with subsequent rural practice. The odds of rural practice for each of the rural training cohorts of GPs decreased with time, but a strong and highly significant association was nevertheless retained across the 5 years. Unsurprisingly, rural bonding and rural origin were positively associated with rural practice. Higher age was also associated with rural practice, while there were no consistent statistically significant associations between practising in a rural location and sex, or with having a partner or dependent children (Box 4).

Secondary analysis, using the multiple year training location definition, confirmed the importance of rural training, particularly that of the final GP training year (Box 5).

Discussion

We have provided empirical evidence for the contribution of rural vocational training, in combination with the selection of rural origin students, to the Australian rural GP workforce. This is highly significant for rural workforce policy, as the Australian government requires that more than half of Australian GP vocational training positions be located in rural areas; our study allows an opportunity to assess the effect on the workforce of these policies.1

We found that training in the rural training pathway and the trainee having a rural background were each strongly associated with early career rural practice. The strength of the association between vocational training location and choosing rural practice remained strong and statistically significant up to 5 years after completing GP training for doctors of either rural or metropolitan origin (primary cohorts 1 and 2). Sustained rural practice was very strongly linked with the combination of a rural origin and rural training, but this cohort alone is unlikely to provide a sustainable rural GP workforce while only 25% of Australian-trained doctors are of rural origin, as about 30% of the Australian population live in rural or remote areas.

Most mixed rural/metropolitan origin/training GPs (cohorts 2 and 3) subsequently practised in a same location type as that in which they trained, although some gradually returned to their origin type. Diminution of the pathway effect over time is perhaps expected, as 50% of GP registrar training positions are in rural areas but about 75% of young doctors are of metropolitan origin. Other research has found that work location changes are most likely during early career stages,24 when personal circumstances, including relationships with spouses and dependents, are more fluid. The secondary analysis confirmed the strong influence of rural training on subsequent rural practice, especially location during the final year of vocational training. Together, these findings suggest that the periods leading up to and immediately following vocational training are critically important windows of opportunity for ensuring that appropriate policies optimise recruitment of GPs for rural practice and their subsequent retention.25,26

The largest cohort, metropolitan origin doctors undertaking GP training in metropolitan areas (cohort 4) largely remained in metropolitan practice. Further, there was no evidence that rural origin Australian doctors were more likely than metropolitan origin doctors to choose general practice as their specialty (unpublished MABEL data). Consequently, metropolitan origin doctors continue to remain the major source of non-IMG rural GPs, making cohort 2 (metropolitan origin/rural training) critical for the rural GP workforce. This cohort is nearly twice the size of cohort 1, and the association with rural practice was much stronger than for those in the metropolitan pathway (cohort 4). However, more than 50% of cohort 2 had moved to metropolitan practice after 5 years, further highlighting the importance of targeted retention initiatives focused on this cohort.

The odds of members of the smallest cohort (cohort 3: local medical graduates with a rural background who undertook their training in metropolitan areas) practising in rural areas was three times that for metropolitan origin/metropolitan training GPs, although the association was statistically significant only from 3 years after completing vocational training. However, the odds were much lower than for the rural origin/rural training cohort 1, highlighting the importance of the rural training pathway.

A key limitation of this study is that it cannot establish cause and effect. There is probably a strong self-selection bias, in that the rural training pathway attracts those who are interested in a rural career. Further limitations include the use of a self-selected cohort, the participants of the MABEL survey, who represent 15–18% of all Australian GPs. While the panel design of our study enabled individual tracking of doctors over a 7-year period and application of GEE (logit) modelling, the observed patterns, particularly in the mixed origin/training cohorts, suggest that these doctors have not yet decided on their long term preferred work location, and it is therefore difficult to accurately predict outcomes at, for example, 10 or 20 years. Additionally, vocational training location was primarily defined for the purposes of this study as the location of the trainee in the year they completed their training, as this was considered to be the most influential year for subsequent practice location. Our secondary analysis partially examined this aspect by separately analysing GPs who had undertaken vocational training in a mix of rural and metropolitan locations. Further, our key focus was on the joint effects of rural origin with rural/metropolitan training pathways. This necessitated a focus on GPs who had completed their medical degrees in Australia or New Zealand, despite IMGs comprising a considerable proportion of the rural GP workforce in Australia (more than 50% in some regions). Finally, this study used a binary measure of rurality (metropolitan v non-metropolitan) that may not adequately adjust for the substantial heterogeneity in the attractiveness to GPs of different rural and remote Australian locations. It is possible that more nuanced measures of rurality, including multiple levels of remoteness and population size, might have identified different associations for the four cohorts.27

Conclusion

Our study analysed the best available Australian longitudinal data about individual GPs to provide new quantitative evidence of a strongly positive association between rural GP vocational training location and subsequent rural practice, even after adjusting for the influence of rural origin. This evidence supports the objectives of existing policies that require at least 50% of GP training to occur in rural locations, and that at least 25% of medical students should be of rural origin. While Australia strives to reduce its reliance on IMG GPs for the rural workforce, this aim requires long term improvements in the rural recruitment and retention of Australian-trained GPs. Ongoing support for rural GP vocational training opportunities is a critical component of rural GP workforce policy in Australia.

Box 1 – Demographic characteristics of participating doctors at the time they completed general practitioner vocational training

Local medical graduates

International medical graduates


Number

467

143

Rural Pathway (year of training completion)

221 (47.3%)

101 (70.6%)

Rural origin

118 (25.3%)

NA

Sex (women)

322 (69.0%)

74 (51.8%)

Age, median

32 years

41 years

Age, ≥ 35 years

153 (32.9%)

125 (89.9%)

Living with a partner

335 (72.7%)

119 (83.2%)

Has dependent children

179 (39.4%)

119 (83.8%)

Rurally bonded

35 (7.5%)

NA


NA = not applicable. Percentages exclude missing data for local medical graduates (age, 2; living with partner, 6; dependent children, 13) and international medical graduates (age, 4; dependent children, 1).

Box 2 – Final vocational training location and general practice location for local medical graduates during the first 5 years after completing general practitioner vocational training

Time since completion of training

Location of practice

(1) Rural origin/rural training

(2) Metropolitan origin/rural training

(3) Rural origin/metropolitan training

(4) Metropolitan origin/metropolitan training


Number of GPs

78 (17%)

143 (31%)

42 (9%)

204 (44%)

1 year

Same rural

70%

54%

Other rural

20%

22%

18%

5%

Metropolitan

10%

25%

82%

95%

2 years

Same rural

62%

42%

Other rural

24%

31%

30%

13%

Metropolitan

14%

27%

70%

87%

3 years

Same rural

68%

24%

Other rural

15%

42%

35%*

11%

Metropolitan

18%

34%

65%*

89%

4 years

Same rural

61%

25%

Other rural

30%

29%

46%*

9%

Metropolitan

9%

45%

54%*

91%

5 years

Same rural

42%*

15%

Other rural

32%*

33%

33%*

9%

Metropolitan

26%*

52%

67%*

91%


* Groups with fewer than 20 participants.

Box 3 – Final vocational training location and general practice location for international medical graduates during the first 5 years after completing general practitioner vocational training

Time since completion of training

Location of practice

Rural training

Metropolitan training


Number of GPs

101 (71%)

42 (29%)

1 year

Same rural

81%

Other rural

6%

4%

Metropolitan

13%

96%

2 years

Same rural

57%

Other rural

17%

8%

Metropolitan

26%

92%

3 years

Same rural

49%

Other rural

10%

0*

Metropolitan

41%

100%*

4 years

Same rural

45%

Other rural

21%

18%*

Metropolitan

34%

82%*

5 years

Same rural

53%*

Other rural

7%*

20%*

Metropolitan

40%*

80%*


* Groups with fewer than 20 participants.

Box 4 – Odds of local medical graduates practising in a rural location during the first 5 years after completing general practitioner vocational training

Odds ratio (95% confidence interval)


1 year post-GP training

2 years post-GP training

3 years post-GP training

4 years post-GP training

5 years post-GP training


Primary cohorts

(1) Rural origin/rural training

159 (45–558)

65 (27–158)

48 (22–102)

50 (24–106)

52 (24–111)

(2) Metropolitan origin/rural training

68 (26–175)

32 (16–60)

28 (16–51)

23 (13–41)

24 (13–43)

(3) Rural origin/metropolitan training

2.8 (0.7–11)

2.4 (0.9–6.2)

2.9 (1.2–6.7)*

3.3 (1.5–7.4)

3.5 (1.5–7.9)

(4) Metropolitan origin/metropolitan training

1.00

1.00

1.00

1.00

1.00

Age (for each 1-year increase in age)

1.06 (1.00–1.13)*

1.04 (0.99–1.08)

1.04 (1.00–1.08)*

1.05 (1.01–1.08)*

1.04 (1.01–1.08)*

Sex (reference: men)

1.00 (0.48–2.1)

0.9 (0.5–1.6)

1.03 (0.6–1.7)

0.8 (0.5–1.4)

0.8 (0.5–1.4)

Living with a partner

0.8 (0.3–1.9)

0.9 (0.5–1.7)

0.9 (0.5–1.7)

0.98 (0.6–1.7)

0.9 (0.6–1.5)

Has dependent children

1.8 (0.8–4.1)

1.9 (1.06–3.3)*

1.4 (0.9–2.3)

1.3 (0.9–2.0)

1.3 (0.9–1.9)

Rurally bonded

5.1 (1.2–22)*

3.5 (1.1–11)*

3.8 (1.4–11)*

3.7 (1.4–10)*

3.6 (1.3–10)*


Odds ratios from generalised estimating equation (logit) model: * P < 0.05; † P < 0.01.

Box 5 – Odds of practising in a rural location for each of the 4 years after completing general practitioner training for local medical graduates

Odds ratio (95% confidence interval)


1 year post-GP training

2 years post-GP training

3 years post-GP training

4 years post-GP training


Secondary cohorts

(1) Rural training only

92 (27–312)

49 (21–115)

41 (19–88)

29 (14–59)

(2) End training rural, with some metropolitan training

17 (5–58)

11.6 (4.6–29)

11.5 (4.9–26)

9.9 (4.3–23)

(3) End training metropolitan, with some rural training

0.94 (0.09–9.4)

2.8 (0.8–9.4)

2.9 (1.00–81)

2.7 (0.96–7.9)

(4) Metropolitan training only

1.00

1.00

1.00

1.00

Rural origin

4.1 (1.3–13)*

2.0 (0.9–4.3)

2.1 (1.02–4.1)*

2.5 (1.3–4.9)

Age (for each 1-year increase in age)

1.2 (1.04–1.3)

1.08 (1.01–1.16)*

1.07 (1.01–1.14)*

1.05 (1.00–1.12)

Sex (reference: men)

0.9 (0.3–2.4)

0.8 (0.4–1.7)

0.9 (0.5–1.9)

0.8 (0.4–1.5)

Living with a partner

0.6 (0.2–2.1)

1.1 (0.5–2.6)

1.1 (0.5–2.4)

1.07 (0.5–2.1)

Has dependent children

0.6 (0.2–2.0)

1.3 (0.6–2.7)

1.09 (0.6–2.1)

1.02 (0.6–1.8)

Rurally bonded

2.0 (0.4–10)

2.21 (0.6–7.8)

3.8 (1.2–13)*

3.6 (1.1–11)*


Odds ratios from generalised estimating equation (logit) model: * P < 0.05, † P < 0.01.

Received 19 January 2016, accepted 27 June 2016

  • Matthew R McGrail1
  • Deborah J Russell2
  • David G Campbell3

  • 1 Monash University, Churchill, VIC
  • 2 Monash University, Bendigo, VIC
  • 3 Monash University, Bairnsdale, VIC


Correspondence: matthew.mcgrail@monash.edu

Acknowledgements: 

This work is part of the MABEL longitudinal study of Australian doctors. MABEL is funded by the National Health and Medical Research Council (Health Services Research Grant, 2007–2011; and Centre for Research Excellence in Medical Workforce Dynamics, 2012–2016), with additional funding from the federal Department of Health and Health Workforce Australia. The views in this paper are those of the authors. We thank the other members of the MABEL team for their support and input, and especially acknowledge the doctors who give their valuable time to participate in MABEL.

Competing interests:

No relevant disclosures.

  • 1. Mason J. Review of Australian government health workforce programs. Canberra: Department of Health and Ageing, 2013. http://www.health.gov.au/internet/main/publishing.nsf/Content/review-australian-government-health-workforce-programs (accessed June 2016).
  • 2. Geffen L. A brief history of medical education and training in Australia. Med J Aust 2014; 201 (1 Suppl): S19-S22. <MJA full text>
  • 3. Wilson N, Couper I, De Vries E, et al. A critical review of interventions to redress the inequitable distribution of healthcare professionals to rural and remote areas. Rural Remote Health 2009; 9: 1060.
  • 4. Strasser R, Neusy A-J. Context counts: training health workers in and for rural and remote areas. Bull World Health Organ 2010; 88: 777-782.
  • 5. Australian Government, Department of Health. Training place and shortlist numbers for the AGPT programme in 2017. Australian General Practice Training [website]. http://www.agpt.com.au/ArticleDocuments/186/2017%20AGPT%20training%20place%20allocation.pdf.aspx (accessed June 2016).
  • 6. Ranmuthugala G, Humphreys JS, Solarsh B, et al. Where is the evidence that rural exposure increases uptake of rural medical practice? Aust J Rural Health 2007; 15: 285-288.
  • 7. Wilkinson D, Laven G, Pratt N, et al. Impact of undergraduate and postgraduate rural training, and medical school entry criteria on rural practice among Australian general practitioners: national study of 2414 doctors. Med Educ 2003; 37: 809-814.
  • 8. Kondalsamy-Chennakesavan S, Eley DS, Ranmuthugala G, et al. Determinants of rural practice: positive interaction between rural background and rural undergraduate training. Med J Aust 2015; 202: 41-45. <MJA full text>
  • 9. Playford DE, Evans SF, Atkinson DN, et al. Impact of the Rural Clinical School of Western Australia on work location of medical graduates. Med J Aust 2014; 200: 104-107. <MJA full text>
  • 10. Farmer J, Kenny A, McKinstry C, et al. A scoping review of the association between rural medical education and rural practice location. Hum Resour Health 2015; 13: 27.
  • 11. Walker JH, DeWitt D, Pallant J, et al. Rural origin plus a rural clinical school placement is a significant predictor of medical students’ intentions to practice rurally: a multi-university study. Rural Remote Health 2012; 12: 1908.
  • 12. Jones MP, Bushnell JA, Humphreys JS. Are rural placements positively associated with rural intentions in medical graduates? Med Educ 2014; 48: 405-416.
  • 13. Grobler L, Marais B, Mabunda S. Interventions for increasing the proportion of health professionals practising in rural and other underserved areas. Cochrane Database Syst Rev 2015; (6): CD005314.
  • 14. Viscomi M, Larkins S, Sen Gupta T. Recruitment and retention of general practitioners in rural Canada and Australia a review of the literature. Can J Rural Med 2013; 18: 13-23.
  • 15. Kitchener SJ. Reporting rural workforce outcomes of rural-based postgraduate vocational training. Med J Aust 2015; 202: 18. <MJA full text>
  • 16. Campbell DG, Greacen JH, Giddings PH, et al. Regionalisation of general practice training — are we meeting the needs of rural Australia? Med J Aust 2011; 194 (Suppl): S71-S74. <MJA full text>
  • 17. Jamieson JL, Kernahan J, Calam B, et al. One program, multiple training sites: does site of family medicine training influence professional practice location? Rural Remote Health 2013; 13: 2496.
  • 18. Rosenthal TC, McGuigan MH, Anderson G. Rural residency tracks in family practice: graduate outcomes. Fam Med 2000; 32: 174-177.
  • 19. Ross R. Fifteen-year outcomes of a rural residency: aligning policy with national needs. Fam Med 2013; 45: 122-127.
  • 20. Heng D, Pong RW, Chan BTB, et al. Graduates of northern Ontario family medicine residency programs practise where they train. Can J Rural Med 2007; 12: 146-152.
  • 21. Hogenbirk J, McGrail M, Strasser R, et al. Urban washout: how strong is the rural-background effect? Aust J Rural Health 2015; 23: 161-168.
  • 22. McGrail MR, Humphreys JS, Joyce CM. Nature of association between rural background and practice location: a comparison of general practitioners and specialists. BMC Health Serv Res 2011; 11: 63.
  • 23. Australian Bureau of Statistics. Remoteness structure. Updated June 2014. http://www.abs.gov.au/websitedbs/d3310114.nsf/home/remoteness+structure (accessed June 2016).
  • 24. McGrail MR, Humphreys JS. Geographical mobility of general practitioners in rural Australia. Med J Aust 2015; 203: 92-96. <MJA full text>
  • 25. Li J, Scott A, McGrail MR, et al. Retaining rural doctors: doctors’ preferences for rural medical workforce incentives. Soc Sci Med 2014; 121: 56-64.
  • 26. Scott A, Witt J, Humphreys JS, et al. Getting doctors into the bush: General Practitioners’ preferences for rural location. Soc Sci Med 2013; 96: 33-44.
  • 27. Humphreys JS, McGrail MR, Joyce CM, et al. Who should receive recruitment and retention incentives? Improved targeting of rural doctors using medical workforce data. Aust J Rural Health 2012; 20: 3-10.

Author

remove_circle_outline Delete Author
add_circle_outline Add Author

Comment
Do you have any competing interests to declare? *

I/we agree to assign copyright to the Medical Journal of Australia and agree to the Conditions of publication *
I/we agree to the Terms of use of the Medical Journal of Australia *
Email me when people comment on this article

Online responses are no longer available. Please refer to our instructions for authors page for more information.