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Childhood socio-economic disadvantages versus adverse care experiences: Mediation and moderation impacts on late-life depressive symptoms

Published online by Cambridge University Press:  27 August 2024

Ying Yue Huang
Affiliation:
School of Public Health, Sun Yat-sen University, Guangzhou, China Greater Bay Area Public Health Research Collaboration, China
Wei Sen Zhang*
Affiliation:
Guangzhou Twelfth People’s Hospital, Guangzhou, China Greater Bay Area Public Health Research Collaboration, China
Chao Qiang Jiang
Affiliation:
Guangzhou Twelfth People’s Hospital, Guangzhou, China Greater Bay Area Public Health Research Collaboration, China
Feng Zhu
Affiliation:
Guangzhou Twelfth People’s Hospital, Guangzhou, China
Ya Li Jin
Affiliation:
Guangzhou Twelfth People’s Hospital, Guangzhou, China
Shiu Lun Au Yeung
Affiliation:
School of Public Health, The University of Hong Kong, Hong Kong, China Greater Bay Area Public Health Research Collaboration, China
Jiao Wang
Affiliation:
School of Public Health, Sun Yat-sen University, Guangzhou, China Greater Bay Area Public Health Research Collaboration, China
Kar Keung Cheng
Affiliation:
Institute of Applied Health Research, University of Birmingham, Birmingham, UK
Tai Hing Lam
Affiliation:
Guangzhou Twelfth People’s Hospital, Guangzhou, China School of Public Health, The University of Hong Kong, Hong Kong, China Greater Bay Area Public Health Research Collaboration, China
Lin Xu*
Affiliation:
School of Public Health, Sun Yat-sen University, Guangzhou, China School of Public Health, The University of Hong Kong, Hong Kong, China Institute of Applied Health Research, University of Birmingham, Birmingham, UK Greater Bay Area Public Health Research Collaboration, China
*
Corresponding authors: Wei Sen Zhang and Lin Xu; Emails: [email protected]; [email protected]
Corresponding authors: Wei Sen Zhang and Lin Xu; Emails: [email protected]; [email protected]

Abstract

Background

Whether material deprivation-related childhood socio-economic disadvantages (CSD) and care-related adverse childhood experiences (ACE) have different impacts on depressive symptoms in middle-aged and older people is unclear.

Methods

In the Guangzhou Biobank Cohort Study, CSD and ACE were assessed by 7 and 5 culturally sensitive questions, respectively, on 8,716 participants aged 50+. Depressive symptoms were measured by 15-item Geriatric Depression Scale (GDS). Multivariable linear regression, stratification analyses, and mediation analyses were done.

Results

Higher CSD and ACE scores were associated with higher GDS score in dose-response manner (P for trend <0.001). Participants with one point increment in CSD and ACE had higher GDS score by 0.11 (95% confidence interval [CI], 0.09–0.14) and 0.41 (95% CI, 0.35–0.47), respectively. The association of CSD with GDS score was significant in women only (P for sex interaction <0.001; women: β (95% CI)=0.14 (0.11–0.17), men: 0.04 (−0.01 to 0.08)). The association between ACE and GDS score was stronger in participants with high social deprivation index (SDI) (P for interaction = 0.01; low SDI: β (95% CI)=0.36 (0.29–0.43), high SDI: 0.64 (0.48–0.80)). The proportion of association of CSD and ACE scores with GDS score mediated via education was 20.11% and 2.28%.

Conclusions

CSD and ACE were associated with late-life depressive symptoms with dose-response patterns, especially in women and those with low adulthood socio-economic status. Education was a major mediator for CSD but not ACE. Eliminating ACE should be a top priority.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of European Psychiatric Association

1. Introduction

Depression has become increasingly common in older people with heavy disease burden [1]. A 2021 meta-analysis by Tang et al. showed that the prevalence of depressive symptoms in adults aged ≥60 years in mainland China was 20%, and the prevalence increased with age [Reference Tang, Jiang and Tang2]. A 2020 systematic review by Worrall et al. showed that health behaviours and socio-economic status (SES) were associated with depressive symptoms in older people, but the study did not consider childhood variables [Reference Worrall, Jongenelis and Pettigrew3]. Similar to this systematic review, most reports were on later-life behavioural, social, and health status, while childhood variables had not been included. A 2017 meta-analysis by Nelson et al. showed that childhood maltreatment was a risk factor for depressive symptoms in older adults [Reference Nelson, Klumparendt, Doebler and Ehring4]. However, most of the studies in this meta-analysis were from high-income Western countries, and none from low-to-middle-income countries. Moreover, this meta-analysis examined direct childhood adversity and ignored indirect childhood adversity such as household difficulties [Reference Nelson, Klumparendt, Doebler and Ehring4]. A 2021 meta-analysis by Hughes et al. showed that childhood adversity, including both direct (e.g., maltreatment) and indirect (e.g., household difficulties) types, increased the risk of depressive symptoms in older adults [Reference Hughes, Ford, Bellis, Glendinning, Harrison and Passmore5]. However, this meta-analysis included only European countries and assumed that each type of childhood adversity had the same adverse effect on health. Note that the magnitude of the associations above may vary across socio-economic and political contexts [Reference Beckfield and Olafsdottir6, Reference Hartas7]. Whether these associations exist in other settings and ethnic groups and whether different types of childhood adversity have different impacts on depressive symptoms have not been reported.

Before and during the early years of the People’s Republic of China, most older Chinese people experienced harsh social and family environments during their childhood. During adulthood due to the open-door policy started about 40+ years ago, their livelihood and SES have continued to improve greatly. Such changes are quite different from people born in the same period in developed Western countries. Therefore, examining the associations between childhood adversity and late-life depressive symptoms in China may provide new insights for our understanding of depressive symptoms and early life risk factors.

Several conceptual models have been introduced to explain the associations of childhood adversity with late-life depressive symptoms, suggesting that adulthood socio-economic and health-related factors might be involved in the pathway. Nevertheless, the effect modifiers and underlying mechanisms remain unclear [Reference Liu8]. Moreover, most previous European studies used a cumulative measure of childhood adversities [Reference Hughes, Ford, Bellis, Glendinning, Harrison and Passmore5], which could not separate potentially differential effects of different types of childhood adversities on depressive symptoms [Reference Hartas7, Reference Ward, Turner, Briggs, O’Halloran and Kenny9, Reference Ho and King10]. Hence, in the present study, we used data from the Guangzhou Biobank Cohort Study (GBCS) to examine the associations of different types of childhood adversities separately, including material deprivation-related childhood socio-economic disadvantages (CSD) and care-related adverse childhood experiences (ACE), with depressive symptoms in middle-aged and older people, and potential moderation effect of sex, SES, and chronic diseases and mediations by socio-economic factors, health behaviours and stressful life events (SLE) in adulthood. We hypothesised that the number of CSD items and ACE items were positively associated with depressive symptoms in older people, and the associations, if any, might differ by sex and SES and involve different pathways.

2. Materials and methods

2.1. Study participants

The GBCS is a three-way collaboration among the Guangzhou Twelfth People’s Hospital and the Universities of Hong Kong, China, and Birmingham, UK. Details of the GBCS have been described previously [Reference Jiang, Thomas, Lam, Schooling, Zhang and Lao11]. Briefly, participants were recruited from the Guangzhou Health and Happiness Association for the Respective Elders, which is a community social and welfare organization with branches in all 10 districts of Guangzhou. Permanent residents in Guangzhou aged 50 years or above were eligible to participate. The baseline examination included a face-to-face interview by trained nurses using a computer-assisted standardized questionnaire. The study was approved by the Guangzhou Medical Ethics Committee of the Chinese Medical Association, and all participants provided written informed consent prior to participation. In phase 3 (2006–2008), the questionnaire included the validated Chinese version of the 15-item Geriatric Depression Scale (GDS) [Reference Lim, Ng, Chiam, Ong, Ngui and Sahadevan12]; thus, in the present study, participants from phase 3 were included.

2.2. Exposures

CSD and ACE were exposure variables. Given the specific socio-historical context of China during the mid-20th century, standard tools for measuring CSD and ACE may not fully capture the range of experiences relevant to our study population. Therefore, we used measures developed from sociological accounts and prior research relevant to this context. Although these measures have been used in our previous studies, we acknowledge that they are not widely validated, which may limit the direct comparability of our findings.

We took into account parental possession and childhood material deprivation in CSD measurement. Parental possession included three simple and easily notable items, that is, a bicycle, a sewing machine, and a watch, based on sociological accounts of life in southern China in the mid-20th century and were used in our previous GBCS papers [Reference Ni, Jiang, Cheng, Zhang, Gilman and Lam13, Reference Schooling, Jiang, Lam, Zhang, Cheng and Leung14]. Each item was coded as 0 for the present or 1 for the absent. Childhood material deprivation was assessed by four questions: “Did you usually have shoes when you were a child?,” “Did you usually get new clothes at Chinese New Year?,” “How often do you remember being hungry as a child?” and “How often did you eat meat as a child?” Each item was coded as zero when the answer was “Yes,” “Yes,” “Never,” and “Daily” for the four questions above, respectively, or as one otherwise. Then the cumulative CSD score was calculated. The CSD score ranged from 0 to 7, with higher CSD scores indicating greater CSDs. Participants were further classified into two categories as low CSD (CSD score < 4) and high CSD (CSD score ≥ 4) based on the median CSD score of 4.

ACE was assessed by the following five culturally sensitive questions before the age of 18 years as we reported previously [Reference Ni, Jiang, Cheng, Zhang, Gilman and Lam13, Reference Schooling, Jiang, Lam, Zhang, Cheng and Leung15]: separation from mother for more than one year continuously, an experience so frightening as to be thought about years afterwards, being sent away from home because of wrongdoing, frequent quarrelling of parents, and early parental death. One point was assigned for a positive response of each question and zero point otherwise. The cumulative ACE score was calculated. The ACE score ranged from 0 to 5, with higher ACE score indicating more care-related ACEs. Participants were further classified into two categories as absence of ACE (ACE score = 0) and presence of ACE (ACE score ≥ 1) based on the median ACE score of 0.

2.3. Outcomes

The main outcome was the score of the 15-item GDS [Reference Lim, Ng, Chiam, Ong, Ngui and Sahadevan12]. GDS was analysed as a continuous score, with higher scores indicating more negative symptoms. We also dichotomized the variable into the presence or absence of depressive symptoms as another outcome. The presence of depressive symptoms was defined by a GDS score of 8 or more, which is the standard cut-off score for the Chinese population [Reference Cheng and Chan16] and has been widely used elsewhere, and reported in our previous papers [Reference Sun, Xu, Chan, Lam and Schooling17Reference Chen, Jiang, Zhang, Zhu, Jin and Cheng19].

2.4. Potential confounders, mediators, and effect modifiers

Sex and age (in years) were included as potential confounders in regression model 1 (main model). To further examine potential mediators of the associations of CSD and ACE with GDS score, we included socio-economic factors, health behaviours and SLE in adulthood in regression model 2. Socio-economic factors included education (primary or below, secondary, and college or above); occupation (manual, non-manual, and others); marital status (never married, married, separated, and widowed); and household income (<30 000 CNY/year, ≥30 000 CNY/year, and not known; US$1 = 7 CNY). Health behaviours included smoking status (never, former, and current smoker) and alcohol drinking status (never, former, and current user); physical activity (inactive, moderate, and active); and body mass index (BMI) (continuous variable). SLE in adulthood were defined as at least one of ten major life events in the last year, including separation or divorce, unemployment or retirement, business bankruptcy, physical assault, major conflict within family, major injury or traffic accident, death of spouse, major illness or death of a close family member, major natural disaster (such as flood or drought), and loss of all sources of income or living on debt, as reported in our previous papers [Reference Ni, Jiang, Cheng, Zhang, Gilman and Lam13, Reference Liang, Zhang, Jin, Jiang, Zhu and Cheng20]. Moreover, CSD and ACE were also mutually adjusted in the regression model 3.

As women [Reference Tang, Jiang and Tang2, Reference Salk, Hyde and Abramson21], those with greater social deprivation [Reference Ribeiro, Bauer, Andrade, York-Smith, Pan and Pingani22, Reference Ruiz, Beenackers, Doiron, Gurer, Sarr and Sohel23] and with chronic diseases [Reference Stubbs, Vancampfort, Veronese, Kahl, Mitchell and Lin24] might be more vulnerable to depressive symptoms, sex, SES in adulthood, and history of chronic diseases were considered as potential effect modifiers. According to previous studies [Reference Hofbauer and Rodriguez25, Reference Wong, Ou, Chan, Chau, Thach and Yang26], we derived a social deprivation index (SDI) as proxy for adult SES by summing the presence of the following four indicators, with one point assigned to each: never married status, primary school or below, unemployment, and household income < 30 000 CNY/year. The SDI score ranged from 0 to 4, with higher SDI scores indicating greater social deprivation and lower SES. Participants were further classified into low SDI (score 0–1) and high SDI (scores 2–4) based on half of the maximum SDI score. History of chronic diseases was defined by the presence of any of the following 20 diseases: hypertension, dyslipidaemia, type 2 diabetes mellitus, coronary heart disease, stroke, angina, rheumatic heart disease, arrhythmia, heart failure, cancer, liver disease, gastrointestinal disease, chest disease, genitourinary disease, neurological disease, eye disease, arthritis, thyroid disease, fracture history, and mental disease [Reference Barnett, Mercer, Norbury, Watt, Wyke and Guthrie27].

2.5. Statistical analysis

The chi-square test and analysis of variance were used, respectively, to compare the characteristics of categorical and continuous variables according to low/high CSD (<4 or ≥4) and ACE (0 or ≥1) score. Multivariable linear regression and logistic regression were used to analyse the associations of CSD and ACE with GDS score and the presence of depressive symptoms, respectively, giving adjusted regression coefficients (βs), odds ratios (ORs), and 95% confidence intervals (CIs). Multivariable linear regression was also used to analyse the associations of each CSD and ACE item with the GDS score. To analyse the potential moderation effect, interaction terms by multiplying CSD or ACE score and potential effect modifiers were generated, and the heterogeneity of models with and without interaction terms was compared. If a moderation effect exists, the interaction term would be statistically significant [Reference Baron and Kenny28]. When a significant interaction was found, we conducted stratification analyses. To estimate the contribution of potential mediators to the association of CSD and ACE score with GDS score, we used causal mediation analysis under the counterfactual framework, which can decompose the averaged total effect into indirect effect (average causal mediation effect) and direct effect (average direct effect) [Reference Imai, Keele, Tingley and Yamamoto29]. For mediation analyses, potential mediators were dichotomized, that is, education (secondary or above vs. primary or below), occupation (unemployment vs. employment), marital status (never married vs. married), household income (≥30 000 CNY/year vs. <30 000 CNY/year), smoking status (ever vs. never), alcohol drinking status (ever vs. never), physical activity (moderate or above vs. inactive), and SLE in adulthood (yes vs. no). The “medeff” package in STATA was used to perform mediation analysis. All analyses were performed using STATA (Version 16.0; StataCorp LP, College Station, TX, USA). All tests were two-sided, and statistical significance was indicated by P < 0.05.

3. Results

3.1. Characteristics of participants

Of 10 088 participants recruited from 2006 to 2008, after excluding those with duplicate information (N=39), and missing information on CSD (N=353), ACE (N=687), GDS score (N=97), and potential mediators (N=429), 8 716 participants (86.4%) were included in the current study. Figure 1 shows an overview of the present study models.

Figure 1. Overview of the present study models.

Table 1 shows that participants with high CSD or ACE score had greater GDS score and higher prevalence of depressive symptoms (all P < 0.001). Participants with high CSD score were older, had higher proportions of men and current smokers, and had higher ACE score (all P < 0.001). They had lower proportions of married people, current alcohol users and those with SLEs in adulthood, and lower socio-economic position (lower education and household income and with manual occupation) (P from <0.001 to 0.003). Participants with high ACE score were also older, had higher proportions of men and current smokers, had higher CSD score but more with SLEs in adulthood (P from <0.001 to 0.01). They had lower proportions of married people and those with lower education and manual occupation, and lower household income (P from <0.001 to 0.04). No significant differences were found for physical activity and BMI (P from 0.07 to 0.70).

Table 1. Characteristics of the study sample by childhood socio-economic disadvantages or adverse childhood experiences

Abbreviations: GDS, Geriatric Depression Scale: higher scores indicating more negative symptoms; SD, standard deviation; US$1, 7 CNY.

3.2. Childhood adversities and GDS score in adulthood

Table 2 shows that higher CSD and ACE scores were associated with higher GDS score after adjusting for sex and age, with significant dose-response patterns (all P for trend <0.001). Participants with one point increment in CSD had GDS score increased by 0.11 (95% CI, 0.09–0.14) after adjusting for sex and age (Model 1). Moreover, GDS score increased by 0.41 (95% CI, 0.35 to 0.47) per ACE score (Model 1). After additionally adjusting for potential mediators and ACE or CSD, almost all the results remained significant with slightly attenuated associations (Models 2 and 3). Each item of CSD and ACE was associated with GDS score (Supplementary Tables S1 and S2). Of the CSD items, the associations of new clothes at Chinese New Year and hungry with GDS score appeared stronger than other items (adjusted mean differences, β (95% CI): 0.49 (0.39–0.59) and 0.43 (0.32–0.54), respectively) (Model 1). Of the ACE items, the associations of frightening experience thought about years afterwards, sent away from home because of wrongdoing and parents quarrelling frequently with GDS score were stronger than other items (β (95% CI): 0.97 (0.81–1.13), 0.88 (0.55–1.20), and 0.98 (0.80–1.16), respectively) (Model 1). The mean differences for these three ACE items were also greater than the seven CSD items. After additionally adjusting for potential mediators and ACE or CSD, the associations of CSD items with GDS score attenuated greatly, while the associations of ACE items with GDS score attenuated slightly (Models 2 and 3). Moreover, higher CSD and ACE scores were also associated with higher odds of depressive symptoms (all P for trend <0.001), and the ORs per ACE score were greater than those per CSD score (Models 1–3) (Supplementary Table S3).

Table 2. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood

Abbreviations: CI, confidence interval; GDS, Geriatric Depression Scale: higher scores indicating more negative symptoms; N, number; Ref, reference.

Note: Model 1: adjusting for sex, and age. Model 2: additionally adjusting for education, occupation, marital status, household income, smoking, alcohol drinking, physical activity, body mass index, and stressful life events in adulthood. Model 3: additionally adjusting for adverse childhood experiences (ACE score) or childhood socio-economic disadvantages (CSD score).

* P < 0.05,

** P < 0.01,

*** P < 0.001.

3.3. Childhood adversities and GDS score in adulthood by sex

Table 3 shows a significant moderation effect of sex on the association between CSD score and GDS score in Model 1 (P for interaction < 0.001). Subgroup analyses by sex showed that the associations of CSD with GDS score became stronger with a significant trend (P < 0.001) in women. However, men showed no significant associations (except for those with two and seven items) and trend (P = 0.14). The GDS score increased by 0.14 (95% CI, 0.11–0.17) in women per CSD score, but the small increase in men was not significant. After additionally adjusting for potential mediators and ACE, the associations for CSD in men and women much attenuated (Models 2 and 3). Although no significant moderation effect of sex was observed for the association between ACE score and GDS score (P for interaction = 0.22 in Model 1), the associations of ACE score with GDS score also appeared to be stronger in women. After additionally adjusting for potential mediators and CSD, the results for ACE in men and women were similar (Models 2 and 3).

Table 3. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood by sex

Abbreviations: CI, confidence interval; GDS, Geriatric Depression Scale: higher scores indicating more negative symptoms; N, number; Ref, reference.

Note: Model 1: adjusting for age. Model 2: additionally adjusting for education, occupation, marital status, household income, smoking, alcohol drinking, physical activity, body mass index, and stressful life events in adulthood. Model 3: additionally adjusting for adverse childhood experiences (ACE score) or childhood socio-economic disadvantages (CSD score).

* P < 0.05.

** P < 0.01.

*** P < 0.001.

3.4. Childhood adversities and GDS score in adulthood by SDI and chronic diseases

Table 4 shows no significant moderation effect of SDI on the association between CSD score and GDS score in Model 1 (P for interaction = 0.30), but when CSD score was dichotomized into good (CSD scores 0–3) and poor (CSD scores 4–7) childhood socio-economic conditions (Supplementary Table S4 Model 1), a significant moderation effect was found (P for interaction = 0.01). Those with poor childhood socio-economic conditions and high SDI in adulthood had the highest GDS score. A significant moderation effect of adulthood SDI on the ACE score and GDS score association was found (P for interaction = 0.01). Compared with participants with low SDI, the association between ACE score and GDS score was stronger in those with high SDI. The GDS score increased by 0.36 (95% CI, 0.29–0.43) per ACE score for low SDI, but by 0.64 (95% CI, 0.48–0.80) for high SDI. After additionally adjusting for potential mediators and ACE or CSD, the results were similar for per ACE score but much attenuated for per CSD score (Models 2 and 3). Chronic diseases did not significantly moderate the association of CSD/ACE with GDS score (P for interaction = 0.62 and 0.96, respectively, in Model 1) (table not shown).

Table 4. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood by social deprivation index

Abbreviations: CI, confidence interval; GDS, Geriatric Depression Scale: higher scores indicating more negative symptoms; N, number; Ref, reference.

Note: Model 1: adjusting for sex, and age. Model 2: additionally adjusting for education, occupation, marital status, household income, smoking, alcohol drinking, physical activity, body mass index, and stressful life events in adulthood. Model 3: additionally adjusting for adverse childhood experiences (ACE score) or childhood socio-economic disadvantages (CSD score).

* P < 0.05.

** P < 0.01.

*** P < 0.001.

3.5. Mediation analyses

Table 5 shows that the association of CSD score with GDS score was partly mediated by education, household income and smoking status after adjusting for sex and age, and the proportion of mediation was 20.11% (95% CI, 15.88%–25.93%), 12.19% (95% CI, 9.32%–16.32%), and 2.17% (95% CI, 1.75%–2.72%), respectively (all P < 0.05). However, occupation, marital status, alcohol drinking status, physical activity, BMI, and SLE showed no mediation. For ACE, the proportions via mediation to GDS by education, physical activity and SLE in adulthood were significant but small, being 2.28% (95% CI, 1.98%–2.63%), 1.29% (95% CI, 1.12%–1.49%), and 1.72% (95% CI, 1.48%–1.97%), respectively. Alcohol drinking status (ever vs. never) showed a suppressive effect on the association of ACE score with adulthood GDS score (−1.14%, 95% CI, −1.31% to −0.99%). Occupation, marital status, household income, smoking status, and BMI showed no significant mediation.

Table 5. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood with mediation by potential mediators

Abbreviations: ACME, average causal mediated effect; ADE, average direct effect; CI, confidence interval; GDS, Geriatric Depression Scale; SLE, stressful life events.

a Adjusting for sex and age.

b Sample size = 7,328.

c Sample size = 7,316.

* P < 0.05.

4. Discussion

We have first reported that both material deprivation-related CSD and care-related ACE showed dose-response associations with depressive symptoms in middle to older age. The associations were stronger for ACE than CSD, in women and those with low adulthood SES, and education was the main and important mediator of the associations of CSD with GDS score (20% mediation) but was the main but small mediator of the associations of ACE with GDS score (2% mediation).

Our findings in a setting with social development patterning very different from Western populations are consistent with previous studies mostly from Western countries showing that childhood adversities were associated with late-life depressive symptoms with dose-response patterns [Reference Hughes, Ford, Bellis, Glendinning, Harrison and Passmore5, Reference Bellis, Hughes, Ford, Ramos Rodriguez, Sethi and Passmore30Reference Tan and Mao32]. The associations of childhood adversities, mainly maltreatment or care-related ACE, with depressive symptoms assessed by the Short Form of the Center for Epidemiologic Studies Depression Scale were also reported by two recent Chinese studies [Reference Zhang, Kan, Jin and Shi33, Reference Chen, Fan, Nicholas and Maitland34]. Note that consistent findings across different settings with different socio-economic and political contexts will provide more robust evidence to support causation. However, no previous studies distinguished and compared different types of childhood adversities in China and other countries. Previous Chinese studies just reported the associations of famine or deprivation [Reference Ruiz, Hu, Martikainen and Bobak35, Reference Li, Miles, Shen, Shen, Liu and Zhang36] or maltreatment or care-related ACE [Reference Zhang, Kan, Jin and Shi33, Reference Zheng, Cui, Xue, Shi, Guo and Dong37, Reference Lin, Cao, Chen, Li, Zhang and Guo38], or integrated childhood starvation or food deprivation and ACE into one variable [Reference Chen, Fan, Nicholas and Maitland34, Reference Li, Lin and Pei39] with late-life depressive symptoms. Our study has shown new results that both material deprivation-related CSD and care-related ACE were associated with late-life depressive symptoms even after mutual adjustment. However, the associations for ACE were stronger than CSD, indicating that the deleterious effect of psychological adverse events might be greater than childhood poverty. Moreover, we have shown that the dose-response relationships persisted after adjusting for potential mediators, indicating that childhood adversities may have direct long-lasting effects on late-life depression. Hence, our results could help identifying children or adults at risk of depression at older age.

We have also first reported on the different results of individual CSD and ACE items. Among the CSD items, not receiving new clothes at Chinese New Year and experiencing hunger were particularly strong predictors of GDS scores. This might be attributed to the deep cultural importance of New Year traditions in Chinese society, where new clothes symbolize renewal and familial care, making the absence of such a tradition especially memorable. Additionally, hunger, being a direct threat to physical well-being, likely has a profound and lasting psychological impact, distinguishing these experiences from other forms of material deprivation such as the lack of shoes or less frequent meat consumption. Under ACE, the associations of frightening experience thought about years afterwards, having been sent away from home because of wrongdoing and parents quarrelling frequently with GDS score were the strongest, and stronger than the two CSD items above. However, while some studies, including a systematic review and meta-analysis by Simbi et al. [Reference Simbi, Zhang and Wang40], have highlighted early parental death as a risk factor for later-life depression, our study did not find a significant association between early parental death and GDS scores in our older adult population. As shown in Supplementary Table S1, the GDS score for middle-aged and older individuals with early parental death increased by 0.14 (95% CI, 0.02–0.26) after adjusting for sex and age in Model 1. However, this association was attenuated to null (β (95% CI): 0.12 (−0.0004 to 0.24)) after further adjustments for socio-economic factors, health behaviours, and SLEs in adulthood (Model 2). This non-significant result could be attributed to several factors, including the unique sociocultural and historical context of our study population, where the traditional structure of Chinese families might have provided additional support and resilience. Moreover, the meta-analysis by Simbi et al. [Reference Simbi, Zhang and Wang40] primarily focused on individuals aged 18–65, which might not fully represent the middle-aged and older populations in our study. The potential for the deleterious effects of early parental death on mental health to weaken over time due to the quality of other relationships and socio-economic positions in adulthood further complicates the direct comparison. This highlights the necessity of a nuanced approach in understanding the potential impact of early life adversities, taking into account the specific characteristics of the population under study and the multifaceted nature of depression.

Our findings could be explained by human brain development. Childhood is a key period when there are major advances in the brain to develop skills in learning, reasoning, and understanding, which are essential in subsequent social success [Reference Ho and King10]. Childhood adversity may lead to structural variation in brain grey and white matter, functional variation in brain activity and functional connectivity, and altered neurotransmitter metabolism or production, which could subsequently increase vulnerability to depression in adulthood [Reference Berens, Jensen and Nelson41]. Moreover, as young children have little awareness of social structures, psychosocial stress such as the feelings of inferiority, subordination, or lack of control might emerge mainly due to the adverse feelings and behaviours of their caregivers, which in turn could influence mental health via neuroendocrine pathways [Reference Pearce, Dundas, Whitehead and Taylor-Robinson42]. And needs theory suggests that once basic needs that can be bought with money are met, increasing levels of wealth do not add any more to the overall levels of happiness [Reference Fischer and Boer43]. Thus, care-related ACE might be more harmful for mental health than material deprivation-related CSD.

Depression is more common among women than men [Reference Salk, Hyde and Abramson21], but whether the associations between childhood adversities and late-life depressive symptoms vary by sex has been inconclusive. Previous studies showed mixed results, with some reporting stronger associations in women [Reference Gallo, Munhoz, Loret de Mola and Murray44Reference Angelini, Howdon and Mierau46], some reporting similar associations in men and women [Reference Zhang, Kan, Jin and Shi33, Reference Alvarado, Zunzunegui, Beland, Sicotte and Tellechea47, Reference Torres, Rizzo and Wong48], and some reporting stronger associations in men [Reference Choi, DiNitto, Marti and Choi49, Reference Xiang and Wang50]. We have reported the first result that although men might have more CSD and ACE, the associations of childhood adversities, especially material deprivation-related CSD, with late-life depressive symptoms were much stronger in women. Deeply ingrained patriarchal traditions in China might explain the sex differences. Historically, daughters were treated as “lost investment” in China [Reference Anson and Haanappel51], which might result in unequal treatment and opportunities for women compared to men, leading to women with childhood poverty more vulnerable to depression due to the cumulative effects of societal discrimination, limited opportunities, and unequal access to resources. However, although we observed significant sex interactions in the association between CSD and GDS scores, such interactions were not evident between ACE and GDS scores. This finding suggests that the impact of ACE on depressive symptoms in later life may not differ markedly between men and women. We hypothesize that this could be due to the pervasive nature of ACEs, which often involve emotional and interpersonal dynamics that might equally affect individuals regardless of sex. Additionally, cultural and social norms surrounding gender roles and emotional expression could influence the reporting and processing of ACEs, potentially contributing to the observed results. Further studies exploring these cultural and social dimensions could provide deeper insights into the mechanisms underlying these associations.

Moreover, our results that the associations of childhood adversities, mainly care-related ACE, with late-life depressive symptoms also varied by adulthood SES, corroborate results of previous studies from Japan [Reference Yazawa, Shiba, Inoue, Okuzono, Inoue and Kondo52] and China Health and Retirement Longitudinal Study [Reference Lin, Cao, Chen, Li, Zhang and Guo38]. The Japanese study defined adult SES based on educational attainment and annual household income [Reference Yazawa, Shiba, Inoue, Okuzono, Inoue and Kondo52], and the Chinese study used annual per capita household consumption expenditure to indicate participants’ current economic status [Reference Lin, Cao, Chen, Li, Zhang and Guo38]. Both studies found that achieving high adulthood SES could ameliorate the adverse effects of childhood adversities, mainly psychological adverse events, on late-life depression. This might be explained by the social mobility model, suggesting that the adverse effects of childhood adversity may be mitigated or reversed by upward mobility, that is, improved SES in adulthood [Reference Hallqvist, Lynch, Bartley, Lang and Blane53], due to less economic pressure and more access to health resources related to individuals with high adulthood SES [Reference Chen and Miller54]. Our study used a composite indicator, that is, SDI, to assess SES in adulthood, and suggested that high adult SES might also potentially mitigate the adverse effects of childhood poverty on late-life depression. However, the absence of a significant interaction between CSD and SDI warrants a cautious interpretation of the potential buffering effect of high adult SES. It is possible that factors not captured by our SDI, such as psychological resilience, social support, or access to mental health resources, may play critical roles in mitigating the impact of childhood poverty. Additionally, the uniform measure of SES represented by SDI may not fully capture the diverse aspects of SES and their nuanced effects on mental health outcomes.

Consistent with previous studies [Reference Chen, Fan, Nicholas and Maitland34, Reference Csajbok, Kagstrom, Kareholt, Pawlowski, Mareckova and Cermakova45, Reference Kwon, Park, Lee and Lee55Reference Domenech-Abella, Mundo, Miret, Ayuso-Mateos, Sanchez-Niubo and Abduljabbar57], our study found that education might act as a mediator against the adverse effects of childhood adversities on late-life depressive symptoms, indicating that expanding coverage of universal secondary education, including females equally, might be the most important intervention to reduce socio-economic disparities and late-life depression symptoms in people with childhood adversities. However, previous studies did not compare the mediating effects of education on different types of childhood adversities. We first found that the mediating effect of education was much greater for CSD (20%) than ACE (2%), and we also found that the association of CSD with depressive symptoms could be partly mediated by higher household income (10%). Because ACE showed strong and almost 100% direct effect with a very small proportion of effect via mediators, if such associations are causal, eliminating or reducing ACE and related psychological traumas in childhood should be a top priority to promote childhood mental health and prevent mental ill health in adult life.

Our study had some limitations. First, as information of CSD and ACE was collected by self-report like a case-cohort study, recall errors might have led to random and systemic errors. Random errors would result in underestimation of the strength of associations. Participants with depressive symptoms might have reported more childhood adversities than those without depressive symptoms. However, we used relatively objective and specific indicators to assess childhood adversities, such as parental possession and parental death, which might be hard to forget and have been supported in our previous papers [Reference Ni, Jiang, Cheng, Zhang, Gilman and Lam13Reference Schooling, Jiang, Lam, Zhang, Cheng and Leung15]. Second, as our study used specific measures for CSD and ACE rather than a widely used and validated standard tool, direct comparability of our results with those of previous studies may be limited. However, it is worth noting that the items of CSD were tailored to mid-20th century China, based on sociological accounts of life in southern China during that era [Reference Schooling, Jiang, Lam, Zhang, Cheng and Leung14]. Similarly, the ACE items have been considered in other studies, including the National Population Health Survey of the Canadian population and the China Health and Retirement Longitudinal Study [Reference Bhattarai, Dimitropoulos, Bulloch, Tough and Patten58Reference Sun, Fang, Xu, Xu, Su and Zhang60]. Third, we were unable to ascertain the timing of onset for depressive symptoms and other health conditions. But the timing of the data on childhood adversities should most likely precede depressive symptoms. Fourth, our CSD and ACE scores were self-reported subjective measures of cumulative childhood adversities [Reference Anda, Porter and Brown61]. Future studies using objective and documented childhood exposure data are warranted. Finally, underlying mechanisms through genetics, pathology, or biomarker-related factors were not examined, but such factors are unclear or unknown.

In conclusion, both material deprivation-related CSD and care-related ACE were associated with late-life depressive symptoms with dose-response patterns. The associations were stronger in women and those with low adulthood SES. Education was a major mediator for CSD but not ACE, highlighting the role of improving and equitable access to education in mitigating the adverse effects of CSDs. With rapid development in economy and popularization of basic compulsory education in China and many low- and middle-income countries, some CSD items could have been reduced but ACE might not. But eliminating care-related ACEs should be a top priority to prevent mental ill health in adulthood. Further studies are needed to clarify the mechanisms and examine the consequences of current CSD and ACE on future depression.

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1192/j.eurpsy.2024.1760.

Data availability statement

Data that support findings are restricted to researchers who have permission from the Guangzhou Biobank Cohort Study, and so are not publicly available.

Author contribution

Y.Y.H., W.S.Z., C.Q.J., F.Z., Y.L.J., S.L.A.Y., J.W., K.K.C., T.H.L., and L.X. have substantial contributions to conception and design, acquisition of funding, data, and interpretation of data; Y.Y.H. and L.X. analysed the data; Y.Y.H. drafted the article; and W.S.Z., C.Q.J., F.Z., Y.L.J., S.L.A.Y., J.W., K.K.C., T.H.L., and L.X. revised it critically for important intellectual content. All authors read and approved the final manuscript.

Financial support

This work was funded by the National Natural Science Foundation of China (82373661) and the Special Foundation for Science and Technology Basic Research Program (2019FY101103). The Guangzhou Biobank Cohort Study was funded by the University of Hong Kong Foundation for Educational Development and Research (SN/1f/HKUF-DC; C20400.28505200), the Health Medical Research Fund (HMRF/13143241) in Hong Kong, the Guangzhou Public Health Bureau (201102A211004011), the Natural Science Foundation of Guangdong (2018A030313140), Guangzhou Twelfth People’s Hospital, the University of Birmingham, UK, School of Public Health, the University of Hong Kong and Greater Bay Area Public Health Research Collaboration. The funders of the study had no role in the study design; data collection, analysis, and interpretation; or writing of the report.

Competing interest

The authors declare none.

References

G. B. D. Mental disorders collaborators. Global, regional, and national burden of 12 mental disorders in 204 countries and territories, 1990-2019: A systematic analysis for the global burden of disease study 2019. Lancet Psychiatry. 2022;9(2):137–50.Google Scholar
Tang, T, Jiang, J, Tang, X. Prevalence of depressive symptoms among older adults in mainland China: A systematic review and meta-analysis. J Affect Disord. 2021;293:379–90.Google Scholar
Worrall, C, Jongenelis, M, Pettigrew, S. Modifiable protective and risk factors for depressive symptoms among older community-dwelling adults: A systematic review. J Affect Disord. 2020;272:305–17.Google Scholar
Nelson, J, Klumparendt, A, Doebler, P, Ehring, T. Childhood maltreatment and characteristics of adult depression: Meta-analysis. Br J Psychiatry. 2017;210(2):96104.Google Scholar
Hughes, K, Ford, K, Bellis, MA, Glendinning, F, Harrison, E, Passmore, J. Health and financial costs of adverse childhood experiences in 28 European countries: A systematic review and meta-analysis. Lancet Public Health. 2021;6(11):e848–e57.Google Scholar
Beckfield, J, Olafsdottir, S. Health inequalities in global context. Am Behav Sci. 2013;57(8):1014–39.Google Scholar
Hartas, D. Assessing the foundational studies on adverse childhood experiences. Soc Policy Soc. 2019;18(3):435–43.Google Scholar
Liu, RT. Childhood adversities and depression in adulthood: Current findings and future directions. Clin Psychol (New York). 2017;24(2):140–53.Google Scholar
Ward, M, Turner, N, Briggs, R, O’Halloran, AM, Kenny, RA. Resilience does not mediate the association between adverse childhood experiences and later life depression. Findings from the Irish Longitudinal Study on Ageing (TILDA). J Affect Disord. 2020;277:901–7.Google Scholar
Ho, TC, King, LS. Mechanisms of neuroplasticity linking early adversity to depression: Developmental considerations. Transl Psychiatry. 2021;11(1):517.Google Scholar
Jiang, C, Thomas, GN, Lam, TH, Schooling, CM, Zhang, W, Lao, X, et al. Cohort profile: The Guangzhou biobank cohort study, a Guangzhou-Hong Kong-Birmingham collaboration. Int J Epidemiol. 2006;35(4):844–52.Google Scholar
Lim, PP, Ng, LL, Chiam, PC, Ong, PS, Ngui, FT, Sahadevan, S. Validation and comparison of three brief depression scales in an elderly Chinese population. Int J Geriatr Psychiatry. 2000;15(9):824–30.Google Scholar
Ni, MY, Jiang, C, Cheng, KK, Zhang, W, Gilman, SE, Lam, TH, et al. Stress across the life course and depression in a rapidly developing population: The Guangzhou biobank cohort study. Int J Geriatr Psychiatry. 2016;31(6):629–37.Google Scholar
Schooling, CM, Jiang, CQ, Lam, TH, Zhang, WS, Cheng, KK, Leung, GM. Life-course origins of social inequalities in metabolic risk in the population of a developing country. Am J Epidemiol. 2008;167(4):419–28.Google Scholar
Schooling, CM, Jiang, C, Lam, TH, Zhang, W, Cheng, KK, Leung, GM. Parental death during childhood and adult cardiovascular risk in a developing country: The Guangzhou biobank cohort study. PLoS One. 2011;6(5):e19675.Google Scholar
Cheng, ST, Chan, AC. A brief version of the geriatric depression scale for the chinese. Psychol Assess. 2004;16(2):182–6.Google Scholar
Sun, WJ, Xu, L, Chan, WM, Lam, TH, Schooling, CM. Depressive symptoms and suicide in 56,000 older Chinese: A Hong Kong cohort study. Soc Psychiatry Psychiatr Epidemiol. 2012;47(4):505–14.Google Scholar
Li, ZB, Ho, SY, Chan, WM, Ho, KS, Li, MP, Leung, GM, et al. Obesity and depressive symptoms in Chinese elderly. Int J Geriatr Psychiatry. 2004;19(1):6874.Google Scholar
Chen, YX, Jiang, CQ, Zhang, WS, Zhu, F, Jin, YL, Cheng, KK, et al. Habitual tea consumption was associated with lower levels of depressive symptoms among older Chinese: Guangzhou biobank cohort study. Nutr Res. 2022;103:5967.Google Scholar
Liang, X, Zhang, WS, Jin, YL, Jiang, CQ, Zhu, F, Cheng, KK, et al. Association of multi-dimensional factors with accelerating age and constructing a healthy lifestyle index: Guangzhou biobank cohort study. Gerontology. 2023; 69(6):737747.Google Scholar
Salk, RH, Hyde, JS, Abramson, LY. Gender differences in depression in representative national samples: Meta-analyses of diagnoses and symptoms. Psychol Bull. 2017;143(8):783822.Google Scholar
Ribeiro, WS, Bauer, A, Andrade, MCR, York-Smith, M, Pan, PM, Pingani, L, et al. Income inequality and mental illness-related morbidity and resilience: A systematic review and meta-analysis. Lancet Psychiatry. 2017;4(7):554–62.Google Scholar
Ruiz, MA, Beenackers, MA, Doiron, D, Gurer, A, Sarr, A, Sohel, N, et al. Gender, marital and educational inequalities in mid- to late-life depressive symptoms: Cross-cohort variation and moderation by urbanicity degree. J Epidemiol Community Health. 2021;75(5):442–9.Google Scholar
Stubbs, B, Vancampfort, D, Veronese, N, Kahl, KG, Mitchell, AJ, Lin, PY, et al. Depression and physical health multimorbidity: Primary data and country-wide meta-analysis of population data from 190 593 people across 43 low- and middle-income countries. Psychol Med. 2017;47(12):2107–17.Google Scholar
Hofbauer, LM, Rodriguez, FS. Validation of a social deprivation index and association with cognitive function and decline in older adults. Int Psychogeriatr. 2021;33(12):1309–20.Google Scholar
Wong, CM, Ou, CQ, Chan, KP, Chau, YK, Thach, TQ, Yang, L, et al. The effects of air pollution on mortality in socially deprived urban areas in Hong Kong, China. Environ Health Perspect. 2008;116(9):1189–94.Google Scholar
Barnett, K, Mercer, SW, Norbury, M, Watt, G, Wyke, S, Guthrie, B. Epidemiology of multimorbidity and implications for health care, research, and medical education: A cross-sectional study. Lancet. 2012;380(9836):3743.Google Scholar
Baron, RM, Kenny, DA. The moderator-mediator variable distinction in social psychological research: Conceptual, strategic, and statistical considerations. J Pers Soc Psychol. 1986;51(6):1173–82.Google Scholar
Imai, K, Keele, L, Tingley, D, Yamamoto, T. Unpacking the black box of causality: Learning about causal mechanisms from experimental and observational studies. Am Polit Sci Rev. 2011;105(4):765–89.Google Scholar
Bellis, MA, Hughes, K, Ford, K, Ramos Rodriguez, G, Sethi, D, Passmore, J. Life course health consequences and associated annual costs of adverse childhood experiences across Europe and North America: A systematic review and meta-analysis. Lancet Public Health. 2019;4(10):e517–e28.Google Scholar
Merrick, MT, Ports, KA, Ford, DC, Afifi, TO, Gershoff, ET, Grogan-Kaylor, A. Unpacking the impact of adverse childhood experiences on adult mental health. Child Abuse Negl. 2017;69:10–9.Google Scholar
Tan, M, Mao, P. Type and dose-response effect of adverse childhood experiences in predicting depression: A systematic review and meta-analysis. Child Abuse Negl. 2023;139:106091.Google Scholar
Zhang, TT, Kan, LA, Jin, CB, Shi, WM. Adverse childhood experiences and their impacts on subsequent depression and cognitive impairment in Chinese adults: A nationwide multi-center study. J Affect Disord. 2023;323:884–92.Google Scholar
Chen, H, Fan, QY, Nicholas, S, Maitland, E. The long arm of childhood: The prolonged influence of adverse childhood experiences on depression during middle and old age in China. J Health Psychol. 2022;27(10):2373–89.Google Scholar
Ruiz, M, Hu, Y, Martikainen, P, Bobak, M. Life course socioeconomic position and incidence of mid-late life depression in China and England: A comparative analysis of CHARLS and ELSA. J Epidemiol Community Health. 2019;73(9):817–24.Google Scholar
Li, C, Miles, T, Shen, L, Shen, Y, Liu, T, Zhang, M, et al. Early-life exposure to severe famine and subsequent risk of depressive symptoms in late adulthood: The China health and retirement longitudinal study. Br J Psychiatry. 2018;213(4):579–86.Google Scholar
Zheng, X, Cui, Y, Xue, Y, Shi, L, Guo, Y, Dong, F, et al. Adverse childhood experiences in depression and the mediating role of multimorbidity in mid-late life: A nationwide longitudinal study. J Affect Disord. 2022;301:217–24.Google Scholar
Lin, L, Cao, B, Chen, W, Li, J, Zhang, Y, Guo, VY. Association of childhood threat and deprivation with depressive symptoms and the moderating role of current economic status among middle-aged and older adults in China. Soc Psychiatry Psychiatr Epidemiol. 2023;58(8):12271236.Google Scholar
Li, J, Lin, S, Pei, L. Adverse childhood experiences and depressive symptoms trajectories among middle-aged and elderly - China, 2011-2018. China CDC Wkly. 2022;4(27):588–92.Google Scholar
Simbi, CMC, Zhang, Y, Wang, Z. Early parental loss in childhood and depression in adults: A systematic review and meta-analysis of case-controlled studies. J Affect Disord. 2020;260:272–80.Google Scholar
Berens, AE, Jensen, SKG, Nelson, CA. Biological embedding of childhood adversity: From physiological mechanisms to clinical implications. BMC Med 2017;15(1):135.Google Scholar
Pearce, A, Dundas, R, Whitehead, M, Taylor-Robinson, D. Pathways to inequalities in child health. Arch Dis Child. 2019;104(10):9981003.Google Scholar
Fischer, R, Boer, D. What is more important for national well-being: Money or autonomy? A meta-analysis of well-being, burnout, and anxiety across 63 societies. J Pers Soc Psychol. 2011;101(1):164–84.Google Scholar
Gallo, EAG, Munhoz, TN, Loret de Mola, C, Murray, J. Gender differences in the effects of childhood maltreatment on adult depression and anxiety: A systematic review and meta-analysis. Child Abuse Negl. 2018;79:107–14.Google Scholar
Csajbok, Z, Kagstrom, A, Kareholt, I, Pawlowski, B, Mareckova, K, Cermakova, P. Sex differences in the association of childhood socioeconomic position and later-life depressive symptoms in Europe: The mediating effect of education. Soc Psych Psych Epid. 2021;56(6):1091–101.Google Scholar
Angelini, V, Howdon, DDH, Mierau, JO. Childhood socioeconomic status and late-adulthood mental health: Results from the survey on health, ageing and retirement in Europe. J Gerontol B-Psychol. 2019;74(1):95104.Google Scholar
Alvarado, BE, Zunzunegui, MV, Beland, F, Sicotte, M, Tellechea, L. Social and gender inequalities in depressive symptoms among urban older adults of Latin America and the Caribbean. J Gerontol B-Psychol. 2007;62(4):S226–S37.Google Scholar
Torres, JM, Rizzo, S, Wong, R. Lifetime socioeconomic status and late-life health trajectories: Longitudinal results from the Mexican health and aging study. J Gerontol B-Psychol. 2018;73(2):349–60.Google Scholar
Choi, NG, DiNitto, DM, Marti, CN, Choi, BY. Association of adverse childhood experiences with lifetime mental and substance use disorders among men and women aged 50+years. Int Psychogeriatr. 2017;29(3):359–72.Google Scholar
Xiang, XL, Wang, XF. Childhood adversity and major depression in later life: A competing-risks regression analysis. Int J Geriatr Psych. 2021;36(1):215–23.Google Scholar
Anson, O, Haanappel, FW. “Remnants of feudalism”? Women’s health and their utilization of health services in rural China. Women Health 1999;30(1):105–23.Google Scholar
Yazawa, A, Shiba, K, Inoue, Y, Okuzono, SS, Inoue, K, Kondo, N, et al. Early childhood adversity and late-life depressive symptoms: Unpacking mediation and interaction by adult socioeconomic status. Soc Psychiatry Psychiatr Epidemiol. 2022;57(6):1147–56.Google Scholar
Hallqvist, J, Lynch, J, Bartley, M, Lang, T, Blane, D. Can we disentangle life course processes of accumulation, critical period and social mobility? An analysis of disadvantaged socio-economic positions and myocardial infarction in the Stockholm heart epidemiology program. Soc Sci Med. 2004;58(8):1555–62.Google Scholar
Chen, E, Miller, GE. Socioeconomic status and health: Mediating and moderating factors. Annu Rev Clin Psychol. 2013;9:723–49.Google Scholar
Kwon, E, Park, S, Lee, H, Lee, NY. Multiple pathways linking early socioeconomic circumstances and depressive symptoms in late middle age in the US. Aging Ment Health. 2022;26(11):2136–48.Google Scholar
Pino, EC, Damus, K, Jack, B, Henderson, D, Milanovic, S, Kalesan, B. Adolescent socioeconomic status and depressive symptoms in later life: Evidence from structural equation models. J Affect Disord. 2018;225:702–8.Google Scholar
Domenech-Abella, J, Mundo, J, Miret, M, Ayuso-Mateos, JL, Sanchez-Niubo, A, Abduljabbar, AS, et al. From childhood financial hardship to late-life depression: Socioeconomic pathways. Aging Ment Health. 2021;25(1):8693.Google Scholar
Bhattarai, A, Dimitropoulos, G, Bulloch, AGM, Tough, SC, Patten, SB. Association between childhood adversities and premature and potentially avoidable mortality in adulthood: A population-based study. BMC Public Health. 2023;23(1):2036.Google Scholar
Lin, L, Sun, W, Lu, C, Chen, W, Guo, VY. Adverse childhood experiences and handgrip strength among middle-aged and older adults: A cross-sectional study in China. BMC Geriatr. 2022;22(1):118.Google Scholar
Sun, Y, Fang, J, Xu, Y, Xu, L, Su, P, Zhang, Z, et al. Association between prolonged separation from parents and allostatic load among children in China. Psychoneuroendocrinology. 2020;118:104715.Google Scholar
Anda, RF, Porter, LE, Brown, DW. Inside the adverse childhood experience score: Strengths, limitations, and misapplications. Am J Prev Med. 2020;59(2):293–5.Google Scholar
Figure 0

Figure 1. Overview of the present study models.

Figure 1

Table 1. Characteristics of the study sample by childhood socio-economic disadvantages or adverse childhood experiences

Figure 2

Table 2. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood

Figure 3

Table 3. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood by sex

Figure 4

Table 4. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood by social deprivation index

Figure 5

Table 5. Associations of childhood socio-economic disadvantages and adverse childhood experiences with GDS score in adulthood with mediation by potential mediators

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