Figures
Abstract
Background
Psychosocial processes are implicated as mediators of racial/ethnic health disparities via dysregulation of physiological responses to stress. Our aim was to investigate the extent to which factors previously documented as buffering the impact of high-risk family environments on Aboriginal youths’ psychosocial functioning were similarly beneficial for their physical health status.
Method and Results
We examined the relationship between psychosocial resilience and physical health of urban Aboriginal youth (12–17 years, n = 677) drawn from a representative survey of Western Australian Aboriginal children and their families. A composite variable of psychosocial resilient status, derived by cross-classifying youth by high/low family risk exposure and normal/abnormal psychosocial functioning, resulted in four groups- Resilient, Less Resilient, Expected Good and Vulnerable. Separate logistic regression modeling for high and low risk exposed youth revealed that Resilient youth were significantly more likely to have lower self-reported asthma symptoms (OR 3.48, p<.001) and carer reported lifetime health problems (OR 1.76, p<.04) than Less Resilient youth.
Conclusion
The findings are consistent with biopsychosocial models and provide a more nuanced understanding of the patterns of risks, resources and adaptation that impact on the physical health of Aboriginal youth. The results support the posited biological pathways between chronic stress and physical health, and identify the protective role of social connections impacting not only psychosocial function but also physical health. Using a resilience framework may identify potent protective factors otherwise undetected in aggregated analyses, offering important insights to augment general public health prevention strategies.
Citation: Hopkins KD, Shepherd CCJ, Taylor CL, Zubrick SR (2015) Relationships between Psychosocial Resilience and Physical Health Status of Western Australian Urban Aboriginal Youth. PLoS ONE 10(12): e0145382. https://doi.org/10.1371/journal.pone.0145382
Editor: Ignacio Correa-Velez, Queensland University of Technology, AUSTRALIA
Received: July 26, 2015; Accepted: December 1, 2015; Published: December 30, 2015
Copyright: © 2015 Hopkins et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Data Availability: Data are from the WA Aboriginal Child Health Survey (WAACHS 2000-2002) and are available upon request, as imposed by the W.A. Aboriginal Health Ethics Committee. Data are available for researchers who meet the criteria imposed by these ethical bodies for access to confidential data. Chief Investigator, Prof Stephen Zubrick, may be contacted at the Telethon Kids Institute, Subiaco, Western Australia (stephen.Zubrick@telethonkids.org.au).
Funding: SZ is supported by a grant from the Australian Research Council (CE140100027). CCJS is supported by a grant from the Australian National Health and Medical Research Council (1074146).
Competing interests: The authors have declared that no competing interests exist.
Introduction
Despite comprising a small proportion of the total Australian population (3% or around 670,000), Australian Aboriginal and Torres Strait Islander peoples (the Indigenous peoples of the Australian continent and referred to hereafter as ‘Aboriginal’) experience pervasive disparities across multiple indices of health and wellbeing [1]. These disparities have their origins in, and reflect the downstream impact of, colonial policies imposing forced removal of Aboriginal people from their land and their children from their natural families [2]. Now, the current generation of Aboriginal young people experience the impact of these historical policies through more proximal exposures to related but different sets of risks that include family dysfunction, alcohol abuse, and incarceration [3, 4]. This is indexed in a life expectancy that is 9–11 years lower than that of the Australian non-Aboriginal population with 68% of deaths in 2006–10 due to chronic diseases such as circulatory disease, diabetes and respiratory disease [1].
Low SES and its accompanying multiple and unmitigated stresses is strongly implicated in this pathway [5, 6]. Exposure to “levels of stress associated with excessive, persistent, and/or uncontrollable adversity, without the buffering protection of stable adult support, is associated with disruptive effects on multiple organ systems that can lead to lifelong disease” [7]. Exposure to chronic stress has been linked to physiologic dysregulation of the hypothalamic-pituitary-adrenal (HPA) [8] and other metabolic and immune systems [9–11], and premature poor health and aging [12–15].
Low SES, Psychological Appraisal of Chronic Stress and Asthma
Processes involving cognitive and emotional appraisal of stressors and the triggering of physiological responses are increasingly implicated as mediating the ubiquitous relationship between low SES and a range of physical health outcomes [16, 17]. These outcomes include cardiovascular disease and asthma symptoms specifically [18–21].
One pathway from low SES to asthma involves the negative appraisal of, and physiological responses to, chronic stress and consequential heightened inflammatory profiles indicated by elevated c-reactive protein and interleukin-6 [18, 22, 23]. In both minority and Indigenous populations, for example, studies have found that racism [24, 25] and even the anticipation of discrimination or stereotype threat is associated with physiological arousal [26, 27].
Using a resilience framework to examine adaptive processes that ameliorate the impact of adverse environments on health outcomes may enable a more nuanced understanding of critical pathways entrenching or mitigating health inequalities. Gallo [28] proposes a “reserve capacity” model in which the interactions between SES, chronic stress, resilience resources and cognitive-emotional processing link low SES with poor health outcomes. Low SES individuals exposed to higher levels of chronic stress experience higher levels of negative emotionality, depression, anxiety and hostility, which in turn increased the likelihood of negative physiological and behavioral health responses leading to poorer health outcomes. Resilience resources (e.g., personal and social factors such as self-esteem, optimism and social support) are posited as potentially moderating the low SES-health relationship.
A quantitative resilience framework was used in our previous work in order to understand factors uniquely protecting the psychosocial functioning of Western Australian Aboriginal youth living in high risk family environments. Notably, this research identified 58% of young people as psychosocially resilient despite exposure to high risk family contexts, with prosocial peers protecting adverse outcomes for these youth [29].
The extent to which psychosocial risks are associated with physical health outcomes in the Australian Aboriginal context has received scant attention [30–32] and gives rise to a number of uncertainties in the current evidence base. First, the nature of risks and resources experienced by low SES non-minority populations may not be the same as those experienced by minority populations such as African Americans [33–35] and Australian Aboriginal youth specifically[1, 36]. Second, although the majority of the Australian Aboriginal population lives in urban environments the majority of research on physical health outcomes has been undertaken in remote locations [37]. Third, much of the health disparities research focuses on single risk exposures rather than the examining the net effect of multiple risks and resources [38–40]. Few studies have adopted multilevel ecological models that take into account multiple and context specific risks and protective factors influencing diseases [41], factors buffering the impact of allostatic load on physical health outcomes [42], nor how these factors may vary within the Australian Aboriginal population [43].
In this study, we examined whether specific configurations of risks and resources (or reserve capacity) protects some Aboriginal young people but not others from the adverse physical effects of psychosocial risks, with specific reference to symptoms of asthma. We focus on asthma symptoms specifically as the hospitalization rate for Aboriginal people is more than double that of other Australians, and urban Aboriginal youth are additionally at higher risk by virtue of their urban locality and low socioeconomic status [44]. We use a contemporary resilience framework of analysis to examine whether the factors that buffer the impact of high risk environments on psychosocial functioning of Aboriginal urban youth confer similar benefits for their physical health, as measured by primary carer reports of their lifetime health problems and youth reported asthma symptoms.
Current study
Our current analysis extends previous work by Hopkins et al [29, 45] by hypothesizing that the social connections buffering the mental health of high risk exposed youth from the impact of high risk family environments will also confer protection for their physical health as measured by symptoms of asthma. In our previous work we used a composite variable of psychosocial resilient status to test the hypothesis that psychosocially resilient Aboriginal youth (Resilient) would have reported better physical health than less psychosocially resilient youth (Less Resilient). Because this variable is a key construct it is described more fully in the Methods and Table 1.
We include additional independent variables in the modeling: at the individual level of influence, e.g., proportion of optimal birth weight/gestational age [46, 47], cigarette smoking [48]; at the family level, e.g., parental cigarette smoking [19, 49], poor quality housing [19, 50]; and at the neighborhood level, e.g., a Census-based measure of neighborhood socioeconomic disadvantage [51, 52].
Method
As the current study draws a sample of urban Aboriginal youth from data collected by the Western Australian Aboriginal Child Health Survey 2000–2002 (WAACHS) a brief overview of this epidemiological survey is provided.
The WAACHS implemented a state-wide area-based clustered multi-stage random sample design selected in three stages: census collection districts (CDs), households, and children. CDs were selected with the probability of inclusion proportional to the number of Aboriginal and Torres Strait Islander children living in the CD. The primary sampling unit for the WAACHS was households. Households were eligible to be selected for participation if they had (an) Aboriginal child(ren) aged 0–17 years. When households had more than one Aboriginal child in this age range all Aboriginal children were selected.
The WAACHS identified a random sample of 2,386 households with 6,209 Aboriginal children as eligible. Of this, 1,999 (84%) households agreed to participate. These 1,999 households had 5,513 children of whom 1,480 were youth aged 12–17 years. Parent-report data were secured on 1,480 youth and of these youth 1,073 (73%) provided self-report data. Parental consent and individual consent was obtained from all participants, and data were collected via face to face interviews and data linkage with State Government administrative datasets. The WAACHS Aboriginal Steering Committee gave direction to the cultural appropriateness of survey instruments and methodology. Details of the design and implementation of the WAACHS are described extensively elsewhere [53, 54] and can be accessed online at http://aboriginal.telethonkids.org.au/kulunga-research-network/waachs.aspx.
Ethics
Human research ethics approval for this study was obtained from the Human Research Ethics Committee of The University of Western Australia (RA/4/1/4810) and the Western Australian Aboriginal Health Ethics Committee (formerly the Western Australian Aboriginal Health Information and Ethics Committee) of the Aboriginal Health Council of Western Australia (Ref 298–07.10). Cultural advice and guidance was obtained for this current study through the Western Australian Aboriginal Consultative Council Advising Research and Evaluation (ACCARE) based at the Telethon Kids Institute in Perth, Western Australia. The WAACHS was conducted under the direction of the project’s Aboriginal Steering Committee with extensive attention to the cultural appropriateness of survey instruments and methodology. The written permission of primary carers of Aboriginal children aged 0–17 years was obtained for data-linkage information to be collected, and for youth aged 12–17 years to be interviewed, as part of the WAACHS.
Study Sample
The study sample for this paper was selected if they were 12–17 years old, had both Youth Self Report and primary carer reports, and lived in urbanized areas of WA such as the capital city of Perth or large regional centres (e.g., Kalgoorlie and Geraldton). A total of N = 677 met these criteria. Using weighted population estimates that allow for the complex survey design, this sample weighted to an estimated population of 5,180 (95% CI: 5,130–5,180). Of the sample youth 50.4% (95% CI 45.8, 55) were males, and 38.1% (95% CI 33.7, 42.9) were aged 12–13 years, 35.5% (95% CI 31.1, 39.9) 14–15 years, and 26.4% (95% CI 22.8, 30.4) 16–17 years. Around one-third reported smoking more than just a once or twice occurrence (34.7%, 95% CI 30.3, 39.5). These Aboriginal youth lived in more socioeconomically disadvantaged neighborhoods, with around 30% living in the bottom 10% of neighborhoods ranked by SES characteristics and less than 10% of their primary carers having 13 or more years of formal education. Further, one-fifth (20.7%) of their primary carers reported 7–14 family life stress events occurring in the 12 months prior to the survey.
Measures
Dependent variables
Lifetime health problems.
This is a binary measure (1 = none, 2 = one or more lifetime health problems) derived from the sum of primary carer reports of youth ever having experienced one or more of 19 health problems e.g., epilepsy, kidney/renal disease, arthritis/rheumatism, developmental delay, muscular dystrophy, recurring chest, ear and/or skin infections, allergies. As this index counts data internal consistency is not reported.
Asthma symptoms.
This binary variable measures asthma and associated respiratory symptoms using three survey questions developed for the International Study of Asthma and Allergies in Childhood (ISAAC)[53]. Youth self-reports were coded as having an asthma symptom if they responded ‘yes’ to one or more of the following questions: have you ever had asthma, in the past 12 months has your chest ever sounded wheezy during or after exercise, and in the past 12 months have you ever taken any medication (medicines, pills, puffers) for wheezing or asthma.
Independent Variables
Defining psychosocial resilient status.
This primary variable of interest was derived by grouping youths according to their family level risk exposure (high/low) and psychosocial functioning (good/poor) [29] using a 2 x 2 full classification model [55], and is briefly described below.
Family-level risk. Five risk factors were previously identified as specific predictors of increased likelihood of poor psychosocial functioning amongst Aboriginal youth [56]. The five measures comprise (a) low nurturing parenting; (b) harsh parenting; (c) exposure to family violence; (d) single parent household; and (e) unemployed primary carer. High family risk was defined as exposure to 2 or more risks.
Psychosocial functioning. This was measured from responses to the Youth Self Report form of Goodman’s Strengths and Difficulties Questionnaire (SDQ, [57]). Extensive pilot-testing and modeling of the SDQ subscales was undertaken for the WAACHS to confirm its reliability and validity for use with a diverse population of Aboriginal families and the 20-item scale showed good reliability of 0.93 [58]. SDQ cut points were defined as: “good”, 0–15 (normal range), and “poor”, 16–40 (borderline/abnormal).
Four groups comprise psychosocial resilient status: Expected Good (low risk, good psychosocial functioning), Vulnerable (low risk, poor psychosocial functioning), Resilient (high risk, good psychosocial functioning), Less Resilient (high risk, poor psychosocial functioning).
Childhood factors.
Proportion of optimal birth weight (POBW) is a ratio of actual birth weight and expected birth weight, taking into account a number of factors known to influence fetal growth rate e.g., gestational age, child sex, mother’s height. It utilizes youth birth record data drawn from the Western Australian Midwives Notification of Births database and is described fully in the WAACHS [53]. Whether breastfed: Primary carers were asked whether the young person was ever breastfed (“yes”/”no”).
Young person factors.
Sex and age (“12–13 years”, “14–15 years”, and “16–17 years”) of youth are reported in categories. Youth smoked: Youth were asked whether they smoked cigarettes more than just once or twice (“yes”/”no”). Psychosocial resilient status is a derived 4-part categorical variable measuring psychosocial functioning in contexts of high and low family risk exposure empirically associated with poor psychosocial functioning [56]. The four groups of youth are those are those described in our previous research [29] and their profiles are briefly outlined in Table 1.
Family factors.
Primary carer level of formal education was measured on a 5-part ordinal scale from primary carer response and recoded for this study to a 3-level variable (“less than 9 years”, “10–12 years”, and “13 or more years”). Index of poor housing quality is based on primary carer reports of whether their house meets eight indicators of healthy living practices, such as, washing children and clothes, waste removal, healthy food preparation, and separation of animals from people (i.e., screen doors). The scale ranges from “0” to “3 or more” with higher scores reflecting more indicators of poor housing and is discussed fully elsewhere [54]. A parent smokes is a binary variable (“no”/”yes”) of youth reporting whether they have a parent who smokes. Life Stress Events is a measure of the number of life stress events occurring in the family in the 12 months prior to the survey (carer report). Dichotomous (“no”/”yes”) responses to fourteen items (including death, sickness, overcrowding, unemployment, incarceration, and financial stress) were summed and a quartile split imposed (from “low” 0–2 to “high” 7+).
Neighborhood factors.
Socio-Economic Index for Areas (SEIFA) is calculated from census data and indexes relative socio-economic disadvantage for each census district in Australia [51]. As the majority of Aboriginal children live in families in the bottom 50% of SEIFA neighborhoods were classified into a three-part variable of socioeconomic disadvantage from the lowest (10% most disadvantaged) to highest (top 50% or least disadvantaged) socioeconomically disadvantaged neighborhoods (“bottom 10%”, “10–50%” and “highest 50%”). Neighborhood problems is a 3-part variable based on carer endorsement of a checklist of 17 problems in their neighborhood/community, including vandalism, car stealing, family violence, drug and alcohol abuse, unemployment, racism, youth gangs. Responses were summed and a tertile split created where “low” = 0–2, “moderate” = 3–8, and “high” = 9–16. Youth self-reported safety uses six items from the WAACHS measuring feelings of safety at home, on public transport and in the community during the day or night. Responses were scored on a 5-point scale, where lower scores reflect lower feelings of safety, and summed across all items. Total scores ranging from 4 to 30 were then ranked into quartiles from “most unsafe” to “most safe”.
Data analysis
The WAACHS sample was selected in three stages: census collection districts (CDs), families, and children. CDs were selected with the probability of inclusion proportional to the number of Aboriginal and Torres Strait Islander children living in the CD. As a result multi-level modelling was used to account for the hierarchical structure of the survey data. Hierarchical logistic regression modeling was used to compare the influence of multilevel predictors on the likelihood of (a) no lifetime health problems and (b) no symptoms of asthma.
Entering independent variables simultaneously in logistic regression models identifies the unique association of each single variable with a dependent variable when multiple and multilevel independent variables are thought to be interrelated. Thus logistic regression modelling determines the unique effect of a single variable independent of the effect of other variables in the model [54]. SAS version 9.2 was used for all analyses (SAS Institute Inc., Cary, NC, USA, 2000–2008). Reported associations between the outcome variables and the predictor variables are expressed as odds ratios. Odds ratios of less than 1.0 denote a reduced likelihood of the outcome relative to the reference category, and odds ratios of greater than 1.0 an increased likelihood of the outcome relative to the reference category [59, 60].
Because multicollinearity can result in non-convergence of logistic regression models [60] the selection of predictor variables in the models required careful consideration. As described above, psychosocial resilient status, an independent variable in this study, utilizes five family risk variables (harsh parenting, low nurturing parenting, exposure to family violence, sole parent status and unemployed primary carer). Remaining predictors were selected to pay respect to this composite variable. The logistic regression reference category for psychosocial resilient status was designated as Less Resilient as the primary comparison of interest was within high risk exposed youth to assess the extent to which processes underlying Resilient status protected against lifetime health problems and asthma symptoms.
Results
The sample comprised four groups of psychosocial resilient status youth: Expected Good (41.3%, 95% CI 36.6, 46.2), Resilient (26.4%, 95% CI 22.6, 30.7), Less Resilient (21.4%, 95% CI 17.8, 25.5) and Vulnerable (10.9%, 95% CI 8.4, 13.8). Just over one-third (34.2%, 95% CI 29.8, 38.6%) of youth was reported by primary carers to have had no lifetime health problems. A close to significantly higher proportion of Resilient youth (39.0%, 95% CI 30.7, 47.5%) than Less Resilient youth (23.9%, 95% CI 17.0, 32.7%) had no lifetime health problems.
Nearly half the sample of youth or 49.5% (95% CI 44.9, 54.3%) self-reported no asthma symptoms. Bivariate analyses revealed no significant differences between youth with or without asthma symptoms by any of the predictor variables. Of particular interest was the non-significant association of youth smoking and asthma. Of youth who smoked, 56.9% (95% CI 48.6, 64.7) reported one or more asthma symptoms compared to 47% (95% CI 41.2, 52.7) of non-smoking youth. Significant differences are identified at the p = .05 level by 95% confidence intervals that do not overlap (see Table 2).
Predicting the Likelihood of Lifetime Physical Health Problems
The first logistic regression model used simultaneous entry of 13 independent variables on the likelihood of youth having no lifetime health problems (see Table 3).
This yielded three independent and significant relationships. In line with our hypothesis, the derived psychosocial resilient status variable was significantly and independently related to lifetime health problems. Specifically, Resilient (OR = 3.48; p<.001) and Expected Good (OR = 2.82; p = .001) youth were more likely than Less Resilient youth (ref) to have no primary carer reported lifetime health problems. Carers of youth exposed to low (0–2) life stress events were more than twice as likely to report no lifetime health problems (OR 2.22, p<.05) than those youth exposed to high (7+) life stress events. Youth self-reported feelings of being unsafe were associated with a lower likelihood of having no lifetime health problems, although this relationship was neither consistent nor strong.
Predicting the Likelihood of Self-Reported Asthma Symptoms
The only statistically significant predictor in this model was psychosocial resilient status. Expected Good and Resilient youth were significantly more likely to report no asthma symptoms than Less Resilient youth (OR 2.47, p<.001, and OR 1.76, p<.04 respectively, see Table 3).
Discussion
This study investigated links between psychosocial resilient status, multiple environmental risks, lifetime health problems and asthma symptoms in an urban sample of Aboriginal youth aged 12–17 years. The primary finding supported our principle hypothesis that psychosocial resilient status would be independently and significantly associated with both carer reported lifetime health problems and youth self-reports of asthma symptoms. Both Expected Good and Resilient youth were significantly less likely to have lifetime health problems and asthma symptoms than Less Resilient youth independent of a range of other plausible influences. This finding provides preliminary evidence that interventions and supports that foster the mental wellbeing among at-risk Aboriginal youth may also confer benefits to their physical health. The primary study finding is also consistent with biopsychosocial models of accumulating risks and resources collectively impacting on mental and physical health [23, 61]. It confirms that even within a large sample of Western Australian Aboriginal youth there are unique patterns of risks, resources and adaptation that can differentially impact on physical health.
Psychosocial resilient status: social connections and physical health
Positive social connections underlying the psychosocial resilient status derived measure were significantly protective only for high family risk exposed youth influencing not only their psychosocial functioning but physical health. In high family risk contexts, Resilient youth were nearly 3.5 times as likely as Less Resilient youth to have no lifetime health problems (primary carer reported) and nearly twice as likely to report no asthma symptoms (self-reported). The importance of supportive social connections on positive developmental outcomes of children living with adversity is one of the most consistent findings in the resilience literature [62].
The limited resilience research with Indigenous youth and their communities similarly highlights the singular importance of social support [63]. In Australia, it is increasingly recognized that engagement of Aboriginal children in community-based natural resource management programs also benefits their identity development, cultural and social connectedness. These programs use culturally-relevant, land and sea management activities, and in the process expose young people to positive adult role models and provide opportunities for engagement with prosocial peers [64–66]. Participation in such natural resource management activities has been associated with multiple benefits including a reduction in perceived stress and indicators of diabetes and cardiovascular disease [67, 68].
Our results suggest that, for urban high family risk exposed Resilient youth, the protective influence of positive social connections afforded by living in low SES neighborhoods (inhabited by the majority of the Aboriginal population) may facilitate ready access to extended family support, in contrast to those youth living in higher SES neighborhoods. Aboriginal youth in upward socially mobile families may not only be exposed to actual discrimination but feel a very identifiable minority with attendant increase in stress [56, 69]. Therefore, government policies aimed at facilitating upward socioeconomic mobility may unintentionally impose sufficient burden to lower individual adaptive functioning for Aboriginal youth.
Despite the absence of biomarkers of allostatic load it is plausible that the presence of social connections ameliorates the impact of high risk family environments by dampening precisely those physiological response mechanisms involved in conferring risk [40, 70]. Further research utilizing a resilience framework and data-linkage processes could examine the nexus between psychosocial and physical health among Aboriginal youth across time.
Psychosocial resilient status: perceived racism and physical health
Perceived racism is widely recognized as a significant stressor and has been linked to psychosocial functioning and physical health among Indigenous peoples and African American populations [25, 71]. Perceived racism was a significant predictor of psychosocial function only for Aboriginal youth in low family risk contexts (Expected Good and Vulnerable groups of youth). Within the low risk exposed Aboriginal youth, Vulnerable youth were more likely than the Expected Good group to report exposure to racism [29]. According to some biopsychosocial models, cognitive appraisal and negative responses to racism may underlie the impact of self-reported racism on psychosocial function and physical health [72]. The anticipation of being treated differently because of racial group membership, and the consequences for coping strategies invoked, can depend on a number of factors including preparation for bias and relevance of an event to self-identity [73, 74].
Finally, although multilevel variables at the individual, family and community level of influence were modelled, it is noteworthy that few variables other than psychosocial resilient status were independently associated with lifetime health problems or asthma symptoms. One explanation may lie in the comprehensive process undertaken to assess risks and resources from which the psychosocial resilient status variable was derived [29, 45]. For example, whereas other research has found factors related to cultural identity and continuity at the family and individual level to be related to psychosocial function and youth suicide e.g., [75, 76] our previous research found an inverse relationship [56]. This research with a sample of high family risk exposed Aboriginal youth from urban and remote regions of Western Australia, utilised proxy measures of cultural continuity, such as knowledge of Indigenous culture and language, or being in families impacted by policies of forced removals of children from families and homelands. Even including youth residing in remote locations where cultural measures such as speaking an Aboriginal language are stronger did not yield significant relationships in the expected direction and as such they were not included in these current analyses [56]. Despite the lack of statistical significance, it is important to acknowledge the past colonial policies of welfare and assimilation which separated Aboriginal children from families and Aboriginal families from their traditional lands, and the complexities involved in empirically measuring the consequences for current generations living with the feelings of loss, trauma and anger [2, 77, 78].
The current study contributes a rare empirical examination of associations between the psychosocial resilience and physical health of urban Aboriginal youth. It begins to tease out the complex relationship between contextually specific risks and resources, psychosocial wellbeing and physical health within a widely recognized disadvantaged, low SES, sample of urban Aboriginal youth. The continuing mental and physical health disparities between Australian Aboriginal and non-Aboriginal populations requires concerted attention be paid to the social processes and structural conditions perpetuating these inequalities. The study addresses an identified gap in the extant literature on physical health of urban Aboriginal youth and has provided preliminary evidence of factors buffering and exacerbating the impact of adverse social contexts. Critically, this research emphasizes that the needs of high risk youth are not the same as low risk youth and interventions need to be targeted accordingly.
Strengths and Limitations
This study addresses a number of gaps in the extant and limited literature pertaining to urban Aboriginal youth. It contributes new evidence of associations between unique patterns of risks, resources, and psychosocial resilience and is the first study, to our knowledge, that investigates these relationships within an urban sample of Aboriginal youth in relation to physical health. This serves to highlight the heterogeneity of contexts and diversity of responses to similar high family risk environments within this circumscribed subset of the Aboriginal population. As such, the results may not be generalizable to Western Australian Aboriginal youth in geographically rural or remote environments nor to Indigenous youth elsewhere.
The WAACHS was not specifically designed to support an empirical examination of psychosocial resilience and physical health among Aboriginal youth. Respondent fatigue, time and cost of administering face to face questionnaires across a geographically dispersed population was a factor determining the extent to which psychological processes and physical health assessments could be assessed. Therefore some of the measures utilized in this current study can only be considered blunt indicators of physical health and wellbeing. While the data source is now over ten years old, they still provide a reliable assessment of the social, economic and health circumstances of Aboriginal children and families as there have been few significant changes in these circumstances across Australia since the WAACHS data were collected [1].
Asthma symptoms are self-reported by young people and there is some concern about the extent to which negative emotionality could systematically influence the self-reporting of physical health status [28, 79]. To address this issue we also use primary carer reports of youth lifetime health problems. Finally, given the complex etiology of asthma it was not possible to control for all possible confounders. Nevertheless, given the paucity of research on physical health in urban Aboriginal youth [37, 80] this current research provides insights into the heterogeneity of environmental exposures and sources of adaptation that ultimately may contribute to improved targeting of health prevention and intervention strategies.
Conclusion
This study provides a more nuanced understanding of the multilevel influences impacting lifetime health problems and asthma symptoms in an urban sample of Australian Aboriginal youth. The composite construct of psychosocial resilient status has demonstrated that processes differentiating psychosocial functioning in both low family risk and high family risk contexts are also associated with less lifetime health problems and asthma symptoms. Thus the beneficial effects of a warm and nurturing family environment on a range of child developmental outcomes are unchallenged, constituting a fundamental and expectable environment of care [81]. Ensuring families have the capabilities to provide these caring and nurturing environments for children is a necessary step to maximising capability expansion within the Aboriginal population [82].
There is a broadly acknowledged link between toxic levels of stress and child developmental outcomes [15]. However, it is also clear that there is great heterogeneity in responses to similar risk exposures [11, 14, 83]. A more comprehensive representation of the risks and resources impacting the lives of Aboriginal youth, and the specific processes aiding their successful navigation of these challenges, is a step towards better targeting of prevention and intervention strategies to meet the complex needs of high risk youth.
Acknowledgments
Cultural guidance was provided by the Aboriginal Collaborative Council Advising Research and Evaluation. The authors acknowledge with gratitude the 1,999 families and more than 5,000 children and young people who participated in the Western Australian Aboriginal Child Health Survey 2000–2002.
Author Contributions
Conceived and designed the experiments: KDH. Performed the experiments: KDH. Analyzed the data: KDH. Contributed reagents/materials/analysis tools: SRZ. Wrote the paper: KDH SRZ CLT CCJS.
References
- 1.
Steering Committee for the Review of Government Services Provision. Overcoming Indigenous Disadvantage: Key Indicators 2014. Commission. P, editor. Canberra: Australian Government; 2014 5 December 2013.
- 2.
De Maio JA, Zubrick SR, Silburn SR, Lawrence DM, Mitrou FG, Dalby RB, et al. The Western Australian Aboriginal Child Health Survey: Measuring the Social and Emotional Wellbeing of Aboriginal Children and Intergenerational Effects of Forced Separation. Perth: Curtin University of Technology and Telethon Institute for Child Health Research, 2005 5 December 2013. Report No.: Contract No.: ISBN 0 9579494 8 0.
- 3. Clarke C, Hamett P, Atkinson J, Shochet I. Enhancing Resilience in lndigenous People: The Integration of Individual, Family and Community Interventions. Aboriginal and Islander Health Worker Journal. 1999;23(4):6–10. 201738587025697.
- 4. O'Shane P. The Psychological Impact of White Colonialism on Aboriginal People. Australasian Psychiatry. 1995;3(3):149–53.
- 5. Evans GW. The Environment of Childhood Poverty. American Psychologist 2004;59:77–92. pmid:14992634
- 6. Huston AC, Bentley AC. Human Development in Societal Context. Annual Review of Psychology. 2010;61:411–37. CCC:000273885200017. pmid:19572786
- 7. Shonkoff JP, Boyce WT, McEwen BS. Neuroscience, Molecular Biology, and the Childhood Roots of Health Disparities. The Journal of the American Medical Association. 2009;301(21):2252–9.
- 8. Blair C, Raver CC, Granger D, Mills-Koonce R, Hibel L. Allostasis and allostatic load in the context of poverty in early childhood. Development and Psychopathology. 2011;23(3):845–57. pmid:21756436
- 9. Essex MJ, Shirtcliff EA, Burk LR, Ruttle PL, Klein MH, Slattery MJ, et al. Influence of early life stress on later hypothalamic-pituitary-adrenal axis functioning and its covariation with mental health symptoms: A study of the allostatic process from childhood into adolescence. Development and Psychopathology. 2011;23(Special Issue 04):1039–58.
- 10. Segerstrom SC, Miller GE. Psychological stress and the human immune system: a meta-analytic study of 30 years of inquiry. Psychological bulletin. 2004;130(4):601. pmid:15250815
- 11. Gunnar M, Quevedo K. The neurobiology of stress and development. Annual Review of Psychology. 2007;58:145–73. pmid:16903808
- 12. Danese A, McEwen BS. Adverse childhood experiences, allostasis, allostatic load, and age-related disease. Physiology & behavior. 2012;106(1):29–39.
- 13. Hertzman C, Boyce T. How experience gets under the skin to create gradients in developmental health. Annual Review of Public Health. 2010;31:329–47. pmid:20070189
- 14. Juster R-P, McEwen BS, Lupien SJ. Allostatic load biomarkers of chronic stress and impact on health and cognition. Neuroscience & Biobehavioral Reviews. 2010;35(1):2–16.
- 15. Shonkoff JP, Garner AS, The Committee on Psychosocial Aspects of Child Family Health, Committee on Early Childhood Adoption and Dependent Care, Section on Developmental Behavioral Pediatrics, Siegel BS, et al. The Lifelong Effects of Early Childhood Adversity and Toxic Stress. Pediatrics. 2012;129(1):e232–e46. pmid:22201156
- 16. Matthews KA, Gallo LC, Taylor SE. Are psychosocial factors mediators of socioeconomic status and health connections? Annals of the New York Academy of Sciences. 2010;1186(The Biology of Disadvantage: Socioeconomic Status and Health):146–73.
- 17. Gallo LC, Matthews KA. Understanding the association between socioeconomic status and physical health: Do negative emotions play a role? Psychological Bulletin. 2003;129(1):10–51.pmid:12555793
- 18. Schreier HMC, Chen E. Socioeconomic Status and the Health of Youth: A Multilevel, Multidomain Approach to Conceptualizing Pathways. Psychological Bulletin. 2013:Advance online publication.
- 19. Gold DR, Wright R. Population disparities in asthma. Annual Review of Public Health. 2005;26(1):89–113. pmid:15760282.
- 20. Chen E, Strunk RC, Trethewey A, Schreier HMC, Maharaj N, Miller GE. Resilience in low-socioeconomic-status children with asthma: Adaptations to stress. Journal of Allergy and Clinical Immunology. 2011;128(5):970–6. pmid:21824649
- 21. Boehm JK, Kubzansky LD. The Heart's Content: The Association Between Positive Psychological Well-Being and Cardiovascular Health. [Article]. Psychological Bulletin. 2012. 00006823-900000000-99942.
- 22. Wright RJ, Rodriguez M, Cohen S. Review of psychosocial stress and asthma: an integrated biopsychosocial approach. Thorax. 1998;53(12):1066–74. pmid:10195081
- 23. Miller GE, Chen E, Cole SW. Health Psychology: Developing Biologically Plausible Models Linking the Social World and Physical Health. Annual Review of Psychology. 2009;60(1):501–24. 19035829%U http://arjournals.annualreviews.org/doi/abs/10.1146/annurev.psych.60.110707.163551 %X
- 24. Brondolo E, Love EE, Pencille M, Schoenthaler A, Ogedegbe G. Racism and hypertension: A review of the empirical evidence and implications for clinical practice. American Journal of Hypertension. 2011;24(5):518–29. pmid:21331054
- 25. Paradies Y. A systematic review of empirical research on self-reported racism and health. International Journal of Epidemiology. 2006;35:888. pmid:16585055
- 26. Sawyer PJ, Major B, Casad BJ, Townsend SSM, Mendes WB. Discrimination and the stress response: Psychological and physiological consequences of anticipating prejudice in interethnic interactions. American Journal of Public Health. 2012;102(5):1020–6. pmid:22420818
- 27. Pascoe EA, Richman LS. Perceived Discrimination and Health: A Meta-Analytic Review. [Article]. Psychological Bulletin. 2009;135(4):531–54. 00006823-200907000-00003. pmid:19586161
- 28. Gallo LC. The Reserve Capacity Model as a Framework for Understanding Psychosocial Factors in Health Disparities. Applied Psychology: Health and Well-Being. 2009;1(1):62–72.
- 29. Hopkins KD, Zubrick SR, Taylor CL. Resilience amongst Australian Aboriginal youth: an ecological analysis of factors associated with psychosocial functioning in high and low family risk contexts. PLOS ONE. 2014;9(7).
- 30. Paradies Y. A review of psychosocial stress and chronic disease for 4th world indigenous peoples and African Americans. Ethnicity and Disease. 2006;16(1):295–308. pmid:16599387
- 31. Daniel M, Lekkas P, Cargo M, Stankov I, Brown A. Environmental Risk Conditions and Pathways to Cardiometabolic Diseases in Indigenous Populations. Annual Review of Public Health. 2011;32:327–47. pmid:21219157
- 32. Azzopardi PS, Kennedy EC, Patton GC, Power R, Roseby RD, Sawyer SM, et al. The quality of health research for young Indigenous Australians: systematic review. Medical Journal of Australia. 2013;199(1):57–63. pmid:23829266
- 33. Wallace JM, Muroff JR. Preventing Substance Abuse Among African American Children and Youth: Race Differences in Risk Factor Exposure and Vulnerability. The Journal of Primary Prevention. 2002;22(3):235–61.
- 34. Bersamin M, Paschall MJ, Flewelling RL. Ethnic Differences in Relationships Between Risk Factors and Adolescent Binge Drinking: A National Study. Prevention Science. 2005;6(2):127–36. pmid:15889627
- 35. Brady SS, Matthews KA. The Influence of Socioeconomic Status and Ethnicity on Adolescents' Exposure to Stressful Life Events. Journal of Pediatric Psychology. 2002;27(7):575–83. pmid:12228329
- 36.
Lincoln R, Lynch-Bloss M, O'Connor I, Ogilvie E. Peer networks and other influences on Aboriginal offending. Report to Criminology Research Council, Canberra: 1998 5 December 2013. Report No.
- 37. Priest N, Mackean T, Waters E, Davis E, Riggs E. Indigenous child health research: a critical analysis of Australian studies. Australian and New Zealand Journal of Public Health. 2009;33(1):55–63. CCC:000263243100009. pmid:19236360
- 38. Adler N, Bush NR, Pantell MS. Rigor, vigor, and the study of health disparities. Proceedings of the National Academy of Sciences. 2012;109(Supplement 2):17154–9.
- 39. Gallo LC, Espinosa De Los Monteros K, Shivpuri S. Socioeconomic status and health: What is the role of reserve capacity? Current Directions in Psychological Science. 2009;18(5):269–74. pmid:22210579
- 40. Chen E, Miller GE. Socioeconomic Status and Health: Mediating and Moderating Factors. Annual Review of Clinical Psychology. 2012;9(1).
- 41. Williams DR, Sternthal MJ, Wright RJ. Social Determinants: Taking the Social Context of Asthma Seriously. Pediatrics. 2009;123(Supplement 3):S174–S84.
- 42. Wright RJ, Schreier HMC. Seeking an integrated approach to assessing stress mechanisms related to asthma: Is the allostatic load framework useful? American Journal of Respiratory and Critical Care Medicine. 2013;187(2):115–6. pmid:23322789
- 43. Priest N, Mackean T, Davis E, Briggs L, Waters E. Aboriginal perspectives of child health and wellbeing in an urban setting: Developing a conceptual framework. Health Sociology Review. 2012;21(2):180–95.
- 44.
Australian Institute of Health and Welfare. Asthma hospitalisations in Australia 2010–2011. Canberra: AIHW; 2013 5 December 2013.
- 45. Hopkins KD, Taylor CL, Zubrick SR. The Differential Influence of Contextual Risks on Psychosocial Functioning and Participation of Australian Aboriginal Youth. American Journal of Orthopsychiatry. 2013;83(4):459–71. pmid:24164518
- 46. Geva R, Eshel R, Leitner Y, Valevski AF, Harel S. Neuropsychological Outcome of Children With Intrauterine Growth Restriction: A 9-Year Prospective Study. Pediatrics. 2006;118(1):91–100. pmid:16818553
- 47. Zubrick SR, Kurinczuk JJ, McDermott BMC, McKelvey RS, Silburn SR, Davies LC. Fetal growth and subsequent mental health problems in children aged 4 to 13 years. Developmental Medicine and Child Neurology. 2000;42(1):14–20. pmid:10665970
- 48. Wright RJ. Epidemiology of stress and asthma: from constricting communities and fragile families to epigenetics. Immunology and allergy clinics of North America. 2011;31(1):19. pmid:21094921
- 49. Drake KA, Galanter JM, Burchard EGl. Race, ethnicity and social class and the complex etiologies of asthma. Pharmacogenomics. 2008;9(4):453–62. pmid:18384258
- 50. Shepherd CCJ, Li J, Zubrick SR. Socioeconomic disparities in physical health among Aboriginal and Torres Strait Islander children in Western Australia Ethnicity and Health. 2012. PubMed Central PMCID: PMCYes.
- 51.
Australian Bureau of Statistics. An introduction to socio-economic indexes for areas (SEIFA), Cat. No. 2039.0. Canberra: Commonwealth of Australia; 2006.
- 52. Shepherd CCJ, Li J, Zubrick SR. Social gradients in the health of Indigenous Australians. American Journal of Public Health. 2012;102:107–17. PubMed Central PMCID: PMCYes. pmid:22095336
- 53.
Zubrick SR, Lawrence DM, Silburn SR, Blair E, Milroy H, Wilkes T, et al. The Western Australian Aboriginal Child Health Survey: The Health of Aboriginal Children and Young People. Perth, Western Australia: Telethon Institute for Child Health Research, 2004 2004 5 December 2013. Report No.
- 54.
Silburn SR, Zubrick SR, De Maio JA, Shepherd C, Griffin J, Mitrou FG, et al. The Western Australian Child Health Survey: Strengthening the Capacity of Aboriginal Children, Families and Communities. Perth, Western Australia: Curtin University of Technology and the Telethon Institute for Child Health Research, 2006 5 December 2013. Report No.
- 55. Masten AS, Hubbard JJ, Gest SD, Tellegen A, Garmezy N, Ramirez M. Competence in the context of adversity: pathways to resilience and maladaptation from childhood to late adolescence. Development and Psychopathology. 1999;11:143–69. pmid:10208360
- 56.
Hopkins KD, Taylor CL, D'Antoine HA, Zubrick SR. Predictors of resilient psychosocial functioning in Western Australian Aboriginal young people exposed to high family-level risk. In: Ungar M, editor. The Social Ecology of Resilience: A Handbook of Theory and Practice. New York: Springer; 2012.
- 57. Goodman R, Ford T, Simmons H, Gatward R, Meltzer H. Using the Strengths and Difficulties Questionnaire (SDQ) to screen for child psychiatric disorders in a community sample. The British Journal of Psychiatry. 2000;177:534–9. pmid:11102329
- 58.
Zubrick SR, Lawrence D, De Maio J, Biddle N. Testing the reliability of a measure of Aboriginal children's mental health: an analysis based on the Western Australian Aboriginal Child Health Survey. Canberra: Australian Bureau of Statistics 1351.0.55.011; 2006 5 December 2013.
- 59.
Hosmer DW, Lemeshow S. Applied logistic regression. New York: Wiley Interscience; 1989 5 December 2013.
- 60.
Tabachnick BG, Fidell LS. Using multivariate statistics. 5th ed. Boston: Pearson Education Inc.; 2007 5 December 2013.
- 61. Matthews KA, Gallo LC. Psychological perspectives on pathways linking socioeconomic status and physical health. Annual Review of Psychology. 2011;62:501–30. pmid:20636127
- 62.
Center on the Developing Child at Harvard University. Supportive relationships and active skill-building strengthen the foundations of resilience 2014.
- 63. Andersson N, Ledogar RJ. The CIET Aboriginal youth resilience studies: 14 years of capacity building and methods development in Canada. Pimatisiwin. 2008;6(2):65–88. pmid:20862230
- 64.
Schwab RG. Kids, skidoos and caribou: the Junior Canadian Ranger Program as a model for re-engaging Indigenous Australian youth in remote areas, CAEPR Discussion Paper No. 281/2006. Canberra: CAEPR, Australian National University; 2006 5 December 2013.
- 65.
Fordham A, Schwab R. Indigenous Youth Engagement in Natural Resource Management in Australia and North America: A Review. Canberra: Centre for Aboriginal Economic Policy Research, Australian National University, CAEPR Working Paper No. 85/2012; 2012.
- 66. Burgess CP, Johnston FH, Bowman DMJS, Whitehead PJ. Healthy Country: Healthy People? Exploring the health benefits of Indigenous natural resource management. Australian and New Zealand Journal of Public Health. 2005;29(2):117–22. pmid:15915614
- 67.
Garnett S, Sithole B. Sustainable northern landscapes and the nexus with Indigenous health: Healthy country, healthy people. Canberra: Land and Water Australia; 2007.
- 68. Campbell D, Burgess CP, Garnett ST, Wakerman J. Potential primary health care savings for chronic disease care associated with Australian Aboriginal involvement in land management. Health Policy. 2011;99(1):83–9. pmid:20708816
- 69. Walter M. The vexed link between social capital and social mobility for Aboriginal and Torres Strait Islander people. The Australian Journal of Social Issues. 2015;50(1). <http://search.informit.com.au/documentSummary;dn=092106907345014;res=IELHSS> ISSN: 0157-6321. [cited 05 Nov 15].
- 70. Chen E, Lee WK, Cavey L, Ho A. Role Models and the Psychological Characteristics That Buffer Low-Socioeconomic-Status Youth From Cardiovascular Risk. Child Development. 2012.
- 71. Paradies Y, Ben J, Denson N, Elias A, Priest N, Pieterse A, et al. Racism as a Determinant of Health: A Systematic Review and Meta-Analysis. PloS one. 2015;10(9):e0138511. pmid:26398658
- 72. Myers HF. Ethnicity- and socio-economic status-related stresses in context: An integrative review and conceptual model. Journal of Behavioral Medicine. 2009;32(1):9–19. pmid:18989769
- 73. Major B, O'Brien LT. The Social Psychology of Stigma. Annual Review of Psychology. 2005;56(1):393–421.
- 74. Rivas-Drake D, Hughes D, Way N. A preliminary analysis of associations among ethnic-racial socialization, ethnic discrimination, and ethnic identity among urban sixth graders. Journal of Research on Adolescence. 2009;19(3):558–84.
- 75.
Chandler MJ, Lalonde CE. Cultural continuity as a moderator of suicide risk among Canada's First Nations. In: Kirmayer LJ, Valaskakis G, editors. The Mental Health of Canadian Aboriginal Peoples: Transformations, Identity, and Community. Vancouver, British Columbia 2009.
- 76. Hallett D, Chandler MJ, Lalonde CE. Aboriginal language, knowledge and youth suicide. Cognitive Development. 2007;22:392–9.
- 77.
Day A, Nakata M, Howells K. Anger and Indigenous Men. Leichhardt, New South Wales, Australia: The Federation Press; 2008 5 December 2013.
- 78.
Dudgeon P, Wright M, Paradies Y, Garvey D, Walker I. The social, cultural and historical context of Aboriginal and Torres Strait Islander Australians. In: Purdie N, Dudgeon P, Walker R, editors. Working Together: Aboriginal and Torres Strait Islander Mental Health and Wellbeing Principles and Practice. Canberra: Commonwealth of Australia; 2010.
- 79. Weil CM, Wade SL, Bauman LJ, Lynn H, Mitchell H, Lavigne J. The Relationship Between Psychosocial Factors and Asthma Morbidity in Inner-City Children With Asthma. Pediatrics. 1999;104(6):1274–80. pmid:10585977
- 80. Dawson A. Asthma in the Australian Indigenous population: a review of the evidence. Rural Remote Health. 2004;4(1):238. pmid:15882106
- 81.
Cicchetti D, Valentino K. An ecological-transactional perspective on child maltreatment: failure of the average expectable environment and its influence on child development. In: Cicchetti D, Cohen DJ, editors. Developmental Psychopathology: Risk, disorder, and adaptation. 3. Hoboken, N.J.: John Wiley & Sons; 2006.
- 82.
Zubrick SR, Silburn SR, Lawrence DM, Mitrou FG, Dalby RB, Blair EM, et al. The Western Australian Aboriginal Child Health Survey: The Social and Emotional Wellbeing of Aboriginal Children and Young People. Perth, Western Australia: Telethon Institute of Child Health Research, 2005 2005 5 December 2013. Report No.
- 83.
Rutter M. Resilience: Causal Pathways and Social Ecology. In: Ungar M, editor. The Social Ecology of Resilience. New York: Springer; 2012. p. 33–42.