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Primary care visits due to injuries among the Aboriginal off-reserve population of British Columbia, Canada, 1991–2010

Abstract

Background

Aboriginal people in British Columbia (BC) have higher injury incidence than the general population. This report describes variability in visits to primary care due to injury, among injury categories, time periods, geographies, and demographic groups.

Methods

We used BC’s universal health care insurance plan as a population registry, linked to practitioner payment and vital statistics databases. We identified Aboriginal people by insurance premium group and birth and death record notations. Within that population we identified those residing off-reserve according to postal code. We calculated crude incidence and Standardized Relative Risk (SRR) of primary care visit due to injury, standardized for age, gender and Health Service Delivery Area (HSDA), relative to the total population of BC.

Results

During 1991 through 2010, the crude rate of primary care visit due to injury in BC was 3172 per 10,000 person-years. The Aboriginal off-reserve rate was 4291 per 10,000 and SRR was 1.41 (95 % confidence interval: 1.41 to 1.42). Northern and non-metropolitan HSDAs had higher SRRs, within both total BC and Aboriginal off-reserve populations. In every age and gender category, the HSDA-standardized SRR was higher among the Aboriginal off-reserve than among the total population. For all injuries combined, and for the categories of trauma, poisoning, and burn, between 1991 and 2010, crude rates and SRRs declined substantially, but proportionally more rapidly among the Aboriginal off-reserve population, so the gap between the Aboriginal off-reserve and total populations is narrowing, particularly among metropolitan residents.

Conclusions

These findings corroborate our previous reports regarding hospitalizations due to injury, suggesting that our observations reflect real disparities and changes in the underlying incidence of injury, and are not merely artefacts related to health care utilization.

Background

Aboriginal people in British Columbia (BC) have higher incidences of injuries than the general population [16]. Our project, Injury in British Columbia’s Aboriginal Communities: Building Capacity while Developing Knowledge [711], adds information about variability of incidence rates among injury categories, geographic regions, time periods, and demographic and socio-economic groups within the Aboriginal population. This report focuses on visits to primary care due to injuries.

Most previous researchers in Canada have studied injuries among the populations of Indian reserves [1, 5, 12, 13] or areas with high proportions of Aboriginal residents [14, 15], and exclude the experience of Aboriginal people who live elsewhere. In BC, such exclusion would be materially significant because 74 % of people who self-identified as Aboriginal in the 2006 Census did not reside in any recognized Indian reserve or settlement [16]. Aboriginal people may choose to live off-reserve for many reasons, including employment opportunities, pursuit of education, improved availability and quality of housing, need for specialized health care, and for some women, the need to escape domestic violence [17]. Plausibly, these factors could also be associated with differences in injury incidence and other health outcomes. A Canadian study of Potential Years of Life Lost (PYLL), among a cohort who self-identified as Aboriginal in the 1991 Census, found the rate of PYLL due to injury was 2.74 times higher among people with Indian status living off-reserve, and 4.09 times higher among those living on-reserve, compared to the rate among non-Aboriginal Canadians [18].

Two BC studies of mortality incidence used the province’s universal health care insurance program as a population registry, and identified Aboriginal people, within the population, and among death records, by record linkage, using a combination of insurance premium group, Indian status, and birth and death record notations [2, 4]. The method included both on-reserve and off-reserve residents, but the analyses did not separate or compare the mortality experience of the two groups. Also, these studies did not address how much of the differences in injury rates between the Aboriginal and general populations were due to the higher proportions of the Aboriginal population residing in northern, rural or remote locations that may be more conducive to injuries for a variety of reasons, i.e., harsher physical environment, more hazardous occupations, less adherence to safety measures, hazardous outdoor recreational activities, transportation over longer distances and at higher speeds, or less access to emergency medical care [19].

We adapted these studies’ methods [2, 4], and made three specific improvements. First, we studied non-fatal injury-related events, which occur much more frequently than deaths due to injury, thus enabling more precise description of variability in incidence rates among geographic regions, demographic groups and time periods. Second, we standardized comparisons of injury rates between the Aboriginal and general populations, by age, gender and also region of the province, thus compensating for the effects of northern location and degree of urbanization. Third, we distinguished between the on-reserve and off-reserve Aboriginal populations, and compared their injury experiences separately to that of the general population of BC.

Studying hospitalizations due to injury, we previously reported that during the period 1991 to 2010, the Standardized Relative Risk (SRR) of hospitalization due to unintentional falls was 1.77 among the Aboriginal off-reserve population and 2.00 among the Aboriginal on-reserve population [11]. The present analysis applies our improved method to the study of visits to primary care due to injury, among the off-reserve Aboriginal population of BC. Such a study has not previously been reported in the literature.

Methods

Ethics review and permission for data access

The University of British Columbia Behavioural Research Ethics Board reviewed and approved our methods (BREB file H06-80585). The Data Stewards representing the BC Ministry of Health and the BC Vital Statistics Agency approved the data access requests. We used existing databases, permanently linked by British Columbia Personal Health Number, maintained by Population Data BC (project George 11–012) [2023]. Population Data BC rendered the client records anonymous before our analysis. Disclaimer: all inferences, opinions, and conclusions drawn in this journal manuscript are those of the authors, and do not reflect the opinions or policies of the Data Stewards.

Population counts

We used the registration and premium billing files [20] of the Medical Services Plan of BC (MSP, the province’s universal health care insurance program), to count the total resident population of BC at the mid-points of fiscal years 1991–1992 through 2009–2010. Within this population, we identified people whom we considered “Aboriginal”, using a combination of insurance premium group, and notations of Indian status on linked birth [21] and death records [22]. We previously described this method, and discussed the quality of the population registry, and validity and limitations of the Aboriginal identification [10, 11].

We classified as “on-reserve” those Aboriginal people residing in a postal code area associated with an Indian reserve or settlement recognized by Statistics Canada and the federal Department of Aboriginal Affairs and Northern Development. We classified all other Aboriginal people as “off-reserve”.

There are sixteen Health Service Delivery Areas (HSDAs) in BC [24]. We classified HSDAs as “metropolitan” (HSDAs 22, 23, 31, 32, 33 and 41, comprising metropolitan Vancouver and metropolitan Victoria) or “not metropolitan” (HSDAs (11, 12, 13, 14, 21, 42, 43, 51, 52, and 53). Vancouver and Victoria are the two largest Census Metropolitan Areas in BC, containing 60.4 % of the population enumerated in BC by the 2011 Census of Canada [25]. The categories of “metropolitan” and “not metropolitan” are respectively the same as the categories we called “urban” and “not urban” in our previous reports [911].

We tabulated population counts by fiscal year, gender, 5-year age group, Aboriginal status, reserve residence, HSDA, and metropolitan residence.

Primary care visit counts

We tabulated counts of visits to primary care [23] by residents of BC, from January 1, 1991 through December 31, 2010. We defined a “primary care visit as due to injury” as a payment by MSP for examination by a general practice physician, emergency physician, nurse practitioner, pediatrician, geriatrician, dentist or optometrist, with a diagnostic code indicative of injury, i.e., an International Classification of Diseases - Revision 9 (ICD-9) numeric code in the range 800 through 999, or an MSP code indicative of injury (listed in the Appendix). This definition excludes payments to surgeons, anaesthesiologists, radiologists and physical therapists because we consider these to be providers of diagnostic and secondary treatment procedures. Not included are payments to practitioners by Work Safe BC (BC’s mandatory occupational injury insurance and compensation program). Our definition may under-count examinations by emergency physicians and nurse practitioners, because these practitioners are often paid salaries or sessional (hourly) fees, but the under-counting would apply both to Aboriginal people residing off-reserve and to the general population, so there would be no bias in the comparison between these two populations (assuming that off-reserve Aboriginal and non-Aboriginal people access such practitioners equally). Our definition does, however, seriously under-count examinations by physicians and nurse practitioners employed by community health facilities located on Indian reserves, again because these practitioners are often paid salaries or sessional fees, and this under-counting would apply to people resident on-reserve, but not to those resident off-reserve (assuming that off-reserve Aboriginal people would not travel back to the reserve to obtain primary care). For this reason, the present analysis makes no comparison of Aboriginal people residing on Indian reserves with Aboriginal people residing off-reserve, or with the general population. We classified primary care visits by injury type (trauma, poisoning, burn, or other), according to the diagnostic code. Unlike death certificates and hospital discharge records, each MSP payment record contains only a single diagnostic code, therefore it cannot also contain a supplemental ICD-9 “E” code describing the external cause of the injury. Also, as of December 31, 2010, MSP payment records continue to use the ICD-9 coding system. We tabulated numbers of visits by injury type, calendar year (of visit date), gender, 5-year age group, Aboriginal status, reserve residence, HSDA, and metropolitan residence.

Incidence rates of primary care visits

We calculated the crude rate of primary care visit as the number of visits divided by the person-years of observation (the sum of the annual population counts) during the same time period. We considered the crude rate to be a binomial proportion, and we estimated standard errors of the proportion, and 95 % confidence intervals of the proportion accordingly. We calculated Standardized Relative Risk (SRR) of primary care visit relative to the risk in the reference population (82,585,786 person-years, the combined total population of BC from January 1, 1991 through December 31, 2010) using the method of indirect standardization [11, 26], standardizing by gender, 5-year age group, and HSDA, or standardizing for just gender and 5-year age group when calculating SRRs for specific HSDAs, or for HSDAs aggregated into categories (metropolitan or not metropolitan).

We assessed cumulative change in SRR over time as the proportional change between the first and last years of the observation period, i.e., (SRR2010/SRR1991) −1. To facilitate comparisons, we converted proportional change over the entire period to an annualized change, using this formula.

$$ {\left(\frac{SR{R}_{2010}}{SR{R}_{1991}}\right)}^{1/\left(2010-1991\right)}-1 $$

Results

Aboriginal status and off-reserve residence

Table 1 shows crude rates and SRRs of primary care visits due to injury, during the period 1991–2010, among the total population of BC (i.e., the reference population), and the Aboriginal population residing off-reserve. For every major category of injury type, the crude incidence and the SRR (standardized by age, gender and HSDA) are higher among the Aboriginal off-reserve population than among the total population.

Table 1 Primary care visitsa due to injuriesb, British Columbia, 1991-2010c

HSDAs and metropolitan residence

Table 2 shows crude rates and age and gender-standardized SRRs of primary care visit due to injury, during the period 1991–2010, within the total population and the Aboriginal off-reserve population of each HSDA. Crude incidence rates and SRRs are highly variable among HSDAs, and this applies to both population groups. Comparing crude incidence rates within specific HSDAs, one sees that in most, but not all HSDAs, the Aboriginal off-reserve population has a higher rate of primary care visit due to injury than do the total population. Comparing SRRs, one sees that in every HSDA, standardized for age and gender, Aboriginal off-reserve people have a higher risk of primary care visit due to injury than do the total population.

Table 2 Primary care visitsa due to injuriesb, British Columbia, 1991-2010c, by Health Service Delivery Area

Aggregating the HSDAs into categories of “metropolitan” or “not metropolitan”, one sees that metropolitan HSDAs have lower crude rates and SRRs than do HSDAs that are not metropolitan, and this applies to both the Aboriginal off-reserve population and among the total population. Metropolitan-dwelling Aboriginal off-reserve people have a higher risk of primary care visit due to injury than do the metropolitan dwelling total population. Aboriginal off-reserve people residing in non-metropolitan HSDAS also have a higher risk of primary care visit due to injury than do the total population residing in non-metropolitan HSDAs.

Aggregating all HSDAs together, the Aboriginal off-reserve population of BC has SRR of 1.47, standardized for age and gender. Compare this to the SRR of 1.41 (standardized for age, gender and HSDA) for the same population, with all injury categories combined, shown in Table 1.

Age and gender

Table 3 shows crude rates and age and gender-specific, HSDA-standardized SRRs of primary care visit due to injury, during the period 1991–2010, within specific age and gender categories of the total population and the Aboriginal off-reserve population of BC. Among those aged less than 50 years, males have higher incidence rates of primary care visit due to injury than do females, but among those aged 50 years and older, females have higher incidence rates, and the excess among females is even larger among persons aged 70 years or older. This pattern applies both among the total population and among the Aboriginal off-reserve population. Among females, the incidence rate increases with age, with this pattern occurring in both the total population and the Aboriginal off-reserve population. Among the males in the Aboriginal off-reserve population, the incidence rate increases with age, peaking in the 40 to 49 year age group, then declines. Among males in the total population, the rate peaks in the 10 to 19 year age group, declines, then increases again in males over 70 years of age.

Table 3 Primary care visitsa due to injuriesb, British Columbia, 1991-2010c, by gender and age

Comparing age and gender-specific crude incidence rates, one sees that all age and gender categories except females aged 80 years or older), Aboriginal off-reserve people have a higher rate of primary care visit due to injury than do the total population. Comparing age and gender-specific, HSDA-standardized SRRs, one sees that in every age and gender category except the most elderly (females and males aged 80 years or older) Aboriginal off-reserve people have a higher risk of primary care visit due to injury than do the total population. The increased relative risk among Aboriginal off-reserve people is less severe among the young (less than 20 years of age).

Changes over time

Figure 1 shows SRRs of primary care visit due to injury, during the period 1991–2010, among the total population and the Aboriginal off-reserve population of BC, by year. SRRs have been standardized for age, gender, and HSDA. Recall that the reference population is the combined total population of BC during the entire period (1991 through 2010). Thus, the SRR for the total population in a particular year can be higher or lower than one, but the average of the SRRs for the total population, over all the years, will be equal to one. The Aboriginal off-reserve population had higher SRR than did the total population, in all years. Over the period 1991–2010, there was substantial decrease of SRR among both populations.

Fig. 1
figure 1

Primary care visits due to injuries, British Columbia, 1991–2010, by calendar year

According to our analysis of the population registry, among the Aboriginal off-reserve population, the proportion residing in metropolitan HSDAs decreased from 39.8 % in 1991 to 36.3 % in 2010. In contrast, among the total population of BC, the proportion increased from 60.0 % in 1991 to 62.4 % in 2010. Having standardized by HSDA, we can say that the reductions in SRR are independent of any effect from changes in the proportions of the populations residing in metropolitan areas.

Table 4 shows proportional changes in SRR between 1991 and 2010, among the Aboriginal off-reserve and the total population of BC, by categories of injury type. Between 1991 and 2010 there was 25.2 % decline in SRR of primary care visit due to injury (total, all types combined) among the Aboriginal off-reserve population (annualized change of −1.5 %), compared to 10.5 % decline among the total population (annualized change of −0.6 %). The disparity between the Aboriginal off-reserve and total populations was statistically significant (p < 0.001, 2-sided). In all major categories of injury type (trauma, poisoning, and burn) the Aboriginal off-reserve population showed significantly larger proportional declines in SRR than did the total population.

Table 4 Standardized Relative Risks of primary care visit due to injury, British Columbia, 1991–2010

As shown in Table 5, metropolitan residents showed larger declines in SRR of trauma, poisoning, burn than did non-metropolitan residents. This pattern occurred in both the Aboriginal off-reserve and the general population. The greater declines in SRR means that the gap between the Aboriginal off-reserve and total populations is shrinking, particularly among metropolitan residents.

Table 5 Standardized Relative Risks of primary care visit due to injury (categorized by type and metropolitan residence), British Columbia, 1991–2010

Discussion

Aboriginal off-reserve people have higher incidence of primary care visit due to injury than the total population of BC. Standardizing for age reveals the disparity that was masked because the Aboriginal off-reserve population are on average younger than the total population, and primary care visit due to injury is most frequent among the elderly. Standardizing for geographic area of residence (HSDA) eliminates the confounding that tended to exaggerate the disparity, because the Aboriginal off-reserve population are more likely to reside in northern or non-metropolitan HSDAs, where primary care visit due to injury occurs more frequently. Standardizing for both age and HSDA takes into account these competing effects, and we found that Aboriginal off-reserve people have 1.41 times the risk of primary care visit due to injury than the total population. Changes over time in risk of primary care visit due to injury suggest that the gap between the Aboriginal off-reserve population and the total population is narrowing, and more rapidly among metropolitan residents.

Standardizing by age and gender (but not HSDA), Aboriginal off-reserve people have 1.47 times the risk of primary care visit due to injury than the total population. Therefore, we estimate that 13 % [i.e., (1.47–1.41)/(1.47–1)] of the age and gender-standardized risk disparity between the Aboriginal off-reserve and total populations of BC is attributable to geography, and the remaining 87 % is attributable to other factors. In a future series of reports, we will measure the extent to which socioeconomic conditions, as well geography, can explain the disparities of injury risk between the Aboriginal and total populations of BC.

The patterns of disparity in risk of primary care visit due to injury are remarkably similar to those we reported previously, regarding risk of hospitalization due to injury. The changes over time are similar [10], as are the patterns by gender, age group and metropolitan residence regarding risk of hospitalization due to unintentional falls [11], comparing the Aboriginal population to the total population of BC. This suggests that our observations, now and in previous reports [811], are not merely artefacts related to health care utilization, but reflect real disparities and trends in the underlying incidence of injury.

In both the present analysis of primary care visits due to injury and our previous analysis of hospitalizations due to unintentional falls [11], we observed that the increased relative risk among Aboriginal off-reserve people (compared to the general population) is less severe among the young (less than 20 years of age) and the very elderly. This suggests that the socioeconomic and environmental disadvantages faced by Aboriginal people may have been partially mitigated by prevention programs and cultural adaptations aimed at protecting children. The apparently reduced risk among the very elderly may simply indicate a survivorship bias, due to earlier attrition of susceptible individuals within the Aboriginal population. However, the secular trend towards declining injury rates [10], likely driven by improvements in socioeconomic conditions [27], favours older adults more than the young [11].

The disparities in risk of primary care visit due to injury among the Aboriginal off-reserve population, compared to the general population, though statistically and materially significant, were much smaller than the disparities in risk of death [18], and somewhat smaller than the disparities in risk of hospitalization [11]. Aboriginal people may have more severe injuries than the general population, leading to death without hospitalization, or hospitalization instead of primary care treatment. Alternatively, Aboriginal people may under-utilize health care services for less severe injuries.

Primary care visits are an indicator of injury burden, but are also influenced by availability and access to primary health care. These factors vary among regions of the province, and we standardized risks by HSDA, so the comparison between the Aboriginal off-reserve and the total populations of BC should not be biased. As we explained above, we excluded residents of Aboriginal reserves from this analysis, because the usual method of payment for on-reserve health care services would have introduced a measurement bias that we could not have compensated for.

The main limitations of this study are in the outcome that we measured. In this study we did not count injuries, we counted primary care visits due to injury. An injury often entails more than one primary care visit. Primary care visits would include minor injuries requiring no further care, but also severe injuries requiring hospitalization, surgery or other specialist care, as a primary care practitioner may have performed the initial assessment, and likely would also be involved with subsequent care. Generally, more severe injuries would be associated with greater numbers of visits, but extremely severe injuries resulting in immediate death would not require any primary care visit. Primary care visits, hospitalizations [10, 11], worker compensation claims [9], and deaths [2, 4, 18] are all pieces of a larger picture.

Another limitation is that the Aboriginal population we studied included only off-reserve residents. In future reports, measuring the extent to which socioeconomic markers, geographic place, and Aboriginal ethnicity explain disparities of injury risk, we will count injury hospitalizations as the outcome of interest, and we will include both on-reserve and off-reserve Aboriginal people.

Conclusions

The historical and persistent disparity in socioeconomic status, and health and safety outcomes between the Aboriginal and general populations is a significant moral and public policy challenge for Canada. Measuring health and safety in the starkest of terms, death, the disparity is most egregious in the category of injury [2]. The causes and possible remedies to the disparity are important research questions. Our research on injuries contributes to a broader discussion.

References

  1. Bell N, Schuurman N, Hameed SM, Caron N. Are we homogenising risk factors for public health surveillance? Variability in severe injuries on First Nations reserves in British Columbia, 2001–5. Inj Prev. 2011;17:394–400.

    Article  PubMed  Google Scholar 

  2. British Columbia Vital Statistics Agency (2004). Regional Analysis of Health Statistics for Status Indians in British Columbia, 1992–2002. Birth-related and mortality statistics for British Columbia and 16 Health Service Delivery Areas. 2004.

    Google Scholar 

  3. British Columbia, Provincial Health Officer (2009). Pathways to Health and Healing – 2nd Report on the Health and Well-being of Aboriginal People in British Columbia. Provincial Health Officer’s Annual Report 2007. Victoria, BC: Ministry of Healthy Living and Sport. Available at: http://www.health.gov.bc.ca/pho/pdf/abohlth11-var7.pdf. (accessed November 12, 2015).

  4. Bridges FS, Kunselman JC. Premature mortality due to suicide, homicide and motor vehicle accidents in Health Service Delivery Areas: Comparison of status Indians in British Columbia, Canada with all other residents. Psychol Rep. 2005;97:739–49.

    PubMed  Google Scholar 

  5. Chandler MJ, Lalonde C. Cultural continuity as a hedge against suicide in Canada’s First Nations. Transcult Psychiatry. 1998;35(2):191–219.

    Article  Google Scholar 

  6. Desapriya E, Sones M, Ramanzin T, Weinstein S, Scime G, Pike I. Injury prevention in child death review: child pedestrian fatalities. Inj Prev. 2011;17 Suppl 1:i4–9.

    Article  PubMed  Google Scholar 

  7. George MA, McCormick R, Jin A, Lalonde CE, Brussoni M. The RISC research project: injury in First Nations communities in British Columbia, Canada. Int J Circumpolar Health. 2013;72:21182. doi:10.3402/ijch.v72i0.21182.

    Article  Google Scholar 

  8. Brussoni M, Jin A, George MA, Lalonde CE. Aboriginal community-level predictors of injury-related hospitalizations in British Columbia, Canada. Prev Sci. 2014; doi:10.1007/s11121-014-0503-1

  9. Jin A, George MA, Brussoni B, Lalonde CE. Worker compensation injuries among the Aboriginal population of British Columbia, Canada: incidence, annual trends, and ecological analysis of risk markers, 1987–2010. BMC Public Health. 2014;14:710. doi:10.1186/1471-2458-14-710.

    Article  PubMed Central  PubMed  Google Scholar 

  10. George MA, Jin A, Brussoni M, Lalonde CE. Is the injury gap closing between the Aboriginal and general populations of British Columbia? Health Rep. 2015;26(1):3–14.

    PubMed  Google Scholar 

  11. Jin A, Lalonde CE, Brussoni M, McCormick R, George MA. Injury hospitalizations due to unintentional falls among the Aboriginal population of British Columbia, Canada: Incidence, changes over time, and ecological analysis of risk markers, 1991–2010. PLoS One. 2015;10(3):e0121694. doi:10.1371/journal.pone.0121694.

  12. Fantus D, Shah BR, Qiu F, Hux J, Rochon P. Injury in First Nations communities in Ontario. Can J Public Health. 2009;100(4):258–62.

    PubMed  Google Scholar 

  13. Alaghenhbandan R, Sikdar K, MacDonald D, Collins KD, Rossignol AM. Unintended injuries among children and adolescents in Aboriginal and non-Aboriginal communities, Newfoundland and Labrador, Canada. Int J Circumpolar Health. 2010;69(1):61–71.

    Google Scholar 

  14. Finès P, Bougie E, Oliver LN, Kohen DE. Hospitalizations for unintentional injuries among Canadian adults in areas with high percentage of Aboriginal-identity residents. Chronic Dis Inj Can. 2013;33(4):204–16.

    PubMed  Google Scholar 

  15. Oliver LN, Kohen DE. Unintentional injury hospitalizations among children and youth in areas with a high percentage of Aboriginal identity residents: 2001/2002 to 2005/2006. Health Rep. 2012;23(3):7–15.

    PubMed  Google Scholar 

  16. BC Stats. (2007). British Columbia Statistical Profile of Aboriginal Peoples 2006, With Emphasis on Labour Market and Post Secondary Issues: Aboriginal Peoples Compared to the non-Aboriginal Population. http://www.bcstats.gov.bc.ca/StatisticsBySubject/AboriginalPeoples/CensusProfiles.aspx. (accessed November 12, 2015).

  17. Browne AJ, McDonald H, Elliot D. A Report for the First Nations Centre, National Aboriginal Health Organization. Ottawa: National Aboriginal Health Organization; 2009. First Nations Urban Aboriginal Health Research Discussion Paper.

    Google Scholar 

  18. Tjepkema M, Wilkins R, Pennock J, Goedhuis N. Potential years of life lost at ages 25 to 74 among Status Indians, 1991 to 2001. Health Rep. 2011;22(1):25–36.

    PubMed  Google Scholar 

  19. Kim K, Ozegovic D, Voaklander DC. Differences in incidence of injury between rural and urban children in Canada and the USA: a systematic review. Inj Prev. 2012;18(4):264–71.

    Article  PubMed  Google Scholar 

  20. BC Ministry of Health [creator], 2012: Consolidation File (MSP Registration & Premium Billing). V2012. Population Data BC [publisher]. Data extract. MOH (2012). Available at: https://www.popdata.bc.ca/data. (accessed November 12, 2015).

  21. BC Vital Statistics Agency [creator], 2011: Vital Statistics Births. Population Data BC [publisher]. Data extract. BC Vital Statistics Agency (2011). Available at: https://www.popdata.bc.ca/data. (accessed November 12, 2015).

  22. BC Vital Statistics Agency [creator], 2011: Vital Statistics Deaths. Population Data BC [publisher]. Data extract. BC Vital Statistics Agency (2011). Available at: https://www.popdata.bc.ca/data. (accessed November 12, 2015).

  23. BC Ministry of Health [creator], 2011: Medical Services Plan (MSP) Payment Information File. Population Data BC [publisher]. Data extract. MOH (2011). Available at: https://www.popdata.bc.ca/data. (accessed November 12, 2015).

  24. BC Stats. Reference Maps: Health Boundaries. Available at: http://www.bcstats.gov.bc.ca/statisticsbysubject/geography/referencemaps/health.aspx. (accessed November 12, 2015).

  25. Statistics Canada. Census Profile. Available at: http://www12.statcan.gc.ca/census-recensement/2011/dp-pd/prof/index.cfm?Lang=E. (accessed November 12, 2015).

  26. Kahn HA, Sempos CT. Statistical Methods in Epidemiology. Oxford: Oxford University Press; 1989. p. 95–105.

    Google Scholar 

  27. Allin K, Sayer P. A Demographic and Socio-Economic Portrait of Aboriginal Populations in Canada. Minister of Indian Affairs and Northern Development and Federal Interlocutor for Métis and Non-Status Indians, Ottawa, 2009. Available at: http://publications.gc.ca/collections/collection_2010/ainc-inac/R3-109-2009-eng.pdf. (accessed November 12, 2015).

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Acknowledgements

This research was funded by the Canadian Institutes of Health Research (funding reference: AHR # 81043). Salary support for authors was provided by the Child and Family Research Institute (AG and MB) and by the British Columbia Region, First Nations and Inuit Health, Health Canada (AJ). The authors thank Anna Low, Sherylyn Arabsky and Kelly Sanderson (née Alke) of Population Data BC for assistance with data access and linkage.

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Correspondence to M. Anne George.

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Competing interests

Andrew Jin, M. Anne George, Mariana Brussoni, Christopher E. Lalonde, and Rod McCormick declare that they have no competing interests.

Authors’ contributions

AJ participated in the conception and design of the study, performed the statistical analysis and drafted the manuscript. MAG, MB, CEL and RM participated in the conception and design of the study and edited the manuscript. All authors read and approved the final manuscript.

Authors’ information

AJ is self-employed as an epidemiology consultant. MAG is an Associate Professor in the Department of Pediatrics, Faculty of Medicine, University of British Columbia, and Scientist Level 1 at the Child and Family Research Institute. MB is an Assistant Professor in the Department of Pediatrics, Faculty of Medicine, University of British Columbia, and Scientist Level 1 at the Child and Family Research Institute. CEL is a Professor in the Department of Psychology, Faculty of Social Sciences, University of Victoria. RM is Senior Professor in Aboriginal Child and Maternal Health, Faculty of Human, Social and Educational Development, Thompson Rivers University.

Appendix

Appendix

Table 6 Injury categories derived from International Classification of Diseases and Medical Services Plan of BC codes

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Jin, A., George, M.A., Brussoni, M. et al. Primary care visits due to injuries among the Aboriginal off-reserve population of British Columbia, Canada, 1991–2010. Int J Equity Health 14, 136 (2015). https://doi.org/10.1186/s12939-015-0269-5

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