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Alcohol use as a predictor of the course of major depressive disorder: a prospective population-based study

Published online by Cambridge University Press:  27 February 2023

Maria J. E. Schouten Open the ORCID record for Maria J. E. Schouten [Opens in a new window] ,
Margreet ten Have ,
Marlous Tuithof ,
Ron de Graaf ,
Jack J. M. Dekker ,
Anna E. Goudriaan  and
Matthijs Blankers
Maria J. E. Schouten*
Affiliation:
Department of Research, Arkin Institute for Mental Health Care, Amsterdam, the Netherlands Department of Clinical, Neuro- and Developmental Psychology, Vrije Universiteit Amsterdam, Amsterdam, the Netherlands, Amsterdam Public Health research institute, Amsterdam, the Netherlands
Margreet ten Have
Affiliation:
Trimbos Institute – Netherlands Institute of Mental Health and Addiction, Utrecht, the Netherlands
Marlous Tuithof
Affiliation:
Trimbos Institute – Netherlands Institute of Mental Health and Addiction, Utrecht, the Netherlands
Ron de Graaf
Affiliation:
Trimbos Institute – Netherlands Institute of Mental Health and Addiction, Utrecht, the Netherlands
Jack J. M. Dekker
Affiliation:
Department of Research, Arkin Institute for Mental Health Care, Amsterdam, the Netherlands Department of Clinical, Neuro- and Developmental Psychology, Vrije Universiteit Amsterdam, Amsterdam, the Netherlands, Amsterdam Public Health research institute, Amsterdam, the Netherlands
Anna E. Goudriaan
Affiliation:
Department of Research, Arkin Institute for Mental Health Care, Amsterdam, the Netherlands Amsterdam UMC, Department of Psychiatry, University of Amsterdam, and Amsterdam Institute for Addiction Research, Amsterdam Public Health research institute, Amsterdam, the Netherlands
Matthijs Blankers
Affiliation:
Department of Research, Arkin Institute for Mental Health Care, Amsterdam, the Netherlands Trimbos Institute – Netherlands Institute of Mental Health and Addiction, Utrecht, the Netherlands Amsterdam UMC, Department of Psychiatry, University of Amsterdam, and Amsterdam Institute for Addiction Research, Amsterdam Public Health research institute, Amsterdam, the Netherlands
*
Author for correspondence: Maria J. E. Schouten, E-mail: m.j.e.schouten@vu.nl
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Abstract

Aims

There are indications that problematic alcohol use may negatively impact the course of major depressive disorder (MDD). However, most studies on alcohol use and adverse MDD outcomes are conducted amongst MDD populations with (severe) alcohol use disorder in psychiatric treatment settings. Therefore, it remains unclear whether these results can be generalised to the general population. In light of this, we examined the longitudinal relationship between alcohol use and MDD persistence after a 3-year follow-up amongst people with MDD from the general population.

Methods

Data were derived from the Netherlands Mental Health Survey and Incidence Study-2 (NEMESIS-2), a psychiatric epidemiological prospective study comprising four waves amongst the adult Dutch general population (n = 6.646). The study sample (n = 642) consisted of those with 12-month MDD who participated at the follow-up wave. The outcome was 12-month MDD persistence after the 3-year follow-up, which was assessed via the Composite International Diagnostic Interview version 3.0. Weekly alcohol consumption was operationalised as non-drinking (0 drinks), low-risk drinking (⩽7 drinks; reference), at-risk drinking (women 8–13 drinks, men 8–20 drinks) and high-risk drinking (women ⩾14, men ⩾21 drinks). We performed univariate and multiple logistic regression analyses, which were adjusted for various socio-demographic and health-related factors.

Results

The majority (67.4%) of the MDD sample were female, while the mean age was 47.1 years. Amongst these, 23.8% were non-drinkers, 52.0% were low-risk drinkers and 14.3% and 9.4% were at-risk and high-risk drinkers, respectively. Around one-quarter of the sample (23.6%) met the criteria for a persistent MDD after 3-year follow-up. No statistically significant association was found between alcohol use and MDD persistence, either for the crude model or the adjusted models. In comparison to low-risk drinking, the full adjusted model showed no statistically significant associations between MDD persistence and non-drinking (odds ratio (OR) = 1.15, p = 0.620), at-risk drinking (OR = 1.25, p = 0.423), or high-risk drinking (OR = 0.74, p = 0.501).

Conclusions

Contrary to our expectations, our findings showed that alcohol use was not a predictor of MDD persistence after 3-year follow-up amongst people with MDD from the general population.

Keywords

alcohol abusedepressionepidemiologymental healthprospective study
Type
Original Article
Information
Epidemiology and Psychiatric Sciences , Volume 32 , 2023 , e14
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
Copyright © The Author(s), 2023. Published by Cambridge University Press

Introduction

Depression and alcohol use are two major contributors to morbidity and mortality worldwide (GBD 2016 Mental Disorders Collaborators, 2018; GBD 2019 Alcohol Collaborators, 2022). Many epidemiological studies have found consistent associations between problematic alcohol use and depression (Rehm et al., Reference Rehm, Gmel, Gmel, Hasan, Imtiaz, Popova, Probst, Roerecke, Room, Samokhvalov, Shield and Shuper2017). Problematic alcohol use, including alcohol use disorder (AUD) and other non-clinical levels of hazardous drinking, frequently co-occur with major depressive disorder (MDD) (Hunt et al., Reference Hunt, Malhi, Lai and Cleary2020; Shmulewitz et al., Reference Shmulewitz, Aharonovich, Witkiewitz, Anton, Kranzler, Scodes, Mann, Wall and Hasin2021). A recent literature review reports the lifetime prevalence of AUD amongst populations with lifetime MDD as ranging from approximately 27% to 40%, whereas the prevalence of MDD in people with AUD in the prior 12-month period ranges from 4% to 22% (Castillo-Carniglia et al., Reference Castillo-Carniglia, Keyes, Hasin and Cerdá2019). Co-occurring problematic alcohol use and depression has been associated with various negative health outcomes, including, amongst other things, an increased risk of greater AUD severity, suicide attempts, higher disease burden and lower life satisfaction and worse general and social functioning (Sullivan et al., Reference Sullivan, Fiellin and O'Connor2005; Gadermann et al., Reference Gadermann, Alonso, Vilagut, Zaslavsky and Kessler2012; Briere et al., Reference Briere, Rohde, Seeley, Klein and Lewinsohn2014). Therefore, it is of great clinical and scientific importance to gain greater insight into the associations between risky drinking patterns and MDD.

There are indications that problematic alcohol use may negatively impact upon the course of MDD. Sullivan et al. (Reference Sullivan, Fiellin and O'Connor2005) conducted a systematic review of the prevalence and impact of alcohol problems amongst depressed populations. The influence of alcohol problems on MDD course was examined in only six studies. Two studies found problematic alcohol use to be associated with an increased risk of relapse and a decreased likelihood of recovery from depression. However, three other studies found no association between problematic alcohol use and either relapse or recurrent episodes of depression. The evidence concerning the impact of problematic alcohol use upon depression course is thus inconclusive (Sullivan et al., Reference Sullivan, Fiellin and O'Connor2005). Closer examination of these studies on alcohol use and MDD course also shows that all six of these aforementioned studies were conducted in psychiatric treatment settings and included people with comorbid MDD and either alcohol abuse or dependence (Sullivan et al., Reference Sullivan, Fiellin and O'Connor2005). This is problematic insofar as it restricts the range of alcohol use problems, which means that at-risk drinkers may not be included. Moreover, the naturalistic course of MDD is best studied amongst subjects from the general population, as MDD treatment samples might be more prone to selection bias due to overrepresentation of severe MDD cases (Eaton et al., Reference Eaton, Shao, Nestadt, Lee, Bienvenu and Zandi2008). This underscores the need for more prospective population-based studies that examine the relationship between the full range of alcohol use, including non-risk, low-risk, at-risk and high-risk drinking, in addition to unfavourable MDD course.

There is a relative dearth of prospective general population-based studies conducted amongst MDD samples with different levels of alcohol use, such as at-risk and high-risk drinkers. According to Dutch alcohol drinking guidelines, at-risk drinkers are defined as people who drink between 8–13 (women) and 8–20 (men) standard drinks per week, whereas high-risk drinkers consume ⩾14 (women) and ⩾21 (men) drinks on a weekly basis (State of Health and Care, 2022). Most general population-based studies are focused on populations with MDD and AUD, which means there is limited generalisability to other non-AUD MDD populations (de Graaf et al., Reference de Graaf, Bijl, Smit, Vollebergh and Spijker2002; Alonso et al., Reference Alonso, Angermeyer, Bernert, Bruffaerts, Brugha, Bryson, de Girolamo, Graaf, Demyttenaere, Gasquet, Haro, Katz, Kessler, Kovess, Lépine, Ormel, Polidori, Russo, Vilagut, Almansa, Arbabzadeh-Bouchez, Autonell, Bernal, Buist-Bouwman, Codony, Domingo-Salvany, Ferrer, Joo, Martínez-Alonso, Matschinger, Mazzi, Morgan, Morosini, Palacín, Romera, Taub and Vollebergh2004; Lai et al., Reference Lai, Cleary, Sitharthan and Hunt2015; Hasin et al., Reference Hasin, Sarvet, Meyers, Saha, Ruan, Stohl and Grant2018; Hunt et al., Reference Hunt, Malhi, Lai and Cleary2020). While several population-based studies have been conducted amongst non-drinking, light, moderate and heavy drinkers, these are invariably restricted to student or young adult drinking populations and focus either on cross-sectional relationships between alcohol use and depressive symptoms or the longitudinal relationships between alcohol use and risk of subsequent depression (Caldwell et al., Reference Caldwell, Rodgers, Jorm, Christensen, Jacomb, Korten and Lynskey2002; O'Donnell et al., Reference O'Donnell, Wardle, Dantzer and Steptoe2006; Gémes et al., Reference Gémes, Forsell, Janszky, László, Lundin, Ponce De Leon, Mukamal and Moller2019a). In this respect, it therefore remains unclear whether any of the associations that have been found between AUD and MDD course are generalisable to non-clinical drinking patterns in general population-based MDD samples.

The current literature is inconsistent with regard to whether the relationship between alcohol consumption and depression is linear or non-linear in non-clinical alcohol drinking populations. In non-linear relationships, such as U-shaped or J-shaped relations, both non-drinkers (e.g. former drinkers and lifetime abstainers) and high-risk drinkers have an increased risk of depression or depressive symptoms (Rodgers et al., Reference Rodgers, Korten, Jorm, Jacomb, Christensen and Henderson2000; Graham et al., Reference Graham, Massak, Demers and Rehm2007; Li et al., Reference Li, Wang, Li, Shen, Li, Zhang, Peng, Rong and Peng2020). These inconsistent findings may be explained as deriving from differences in methodological study design and statistical analysis. Indeed, there are indications that both the way depression and alcohol use outcomes are measured and whether or not the findings are adjusted for confounding factors play a role in whether associations between alcohol intake and depression are found or not (Graham et al., Reference Graham, Massak, Demers and Rehm2007; Li et al., Reference Li, Wang, Li, Shen, Li, Zhang, Peng, Rong and Peng2020). This testifies to the importance of both including the full range of drinkers (as well as non-drinkers) in studies and controlling for various potential confounding factors in statistical analyses.

Gaining a better understanding of the longitudinal relationship between different levels of alcohol use and the course of MDD would contribute to the current knowledge base on alcohol use amongst MDD populations. Consequently, we sought to examine the relationship between non-drinking, at-risk drinking and high-risk drinking in comparison to low-risk drinking and MDD persistence after a 3-year follow-up amongst adults with MDD from the general population.

Methods

Sample

The data were derived from the Netherlands Mental Health Survey and Incidence Study-2 (NEMESIS-2), a psychiatric epidemiological cohort study amongst individuals aged 18–64 years from the Dutch general population. The first measurement wave (T 0) took place between November 2007 and July 2009. Three follow-up waves (i.e. T 1, T 2 and T 3) took place 3 years after each previous wave (de Graaf et al., Reference de Graaf, Ten Have and van Dorsselaer2010). The response rate of the first wave was 65.1% (n = 6.646). All the respondents from T 0 were approached to take part in the follow-up measurement; the response rate for the subsequent waves, excluding those who were deceased, was 80.4% (T 1, n = 5.303), 87.8% (T 2, n = 4.618) and 87.7% (T 3, n = 4.007), respectively (ten Have et al., Reference ten Have, Tuithof, van Dorsselaer, Kleinjan, Penninx, Batelaan and de Graaf2021).

Amongst other instruments, the Composite International Diagnostic Interview 3.0 (CIDI 3.0) was included in the NEMESIS-2 measurement package (Haro et al., Reference Haro, Arbabzadeh-Bouchez, Brugha, de Girolamo, Guyer, Jin, Lepine, Mazzi, Reneses, Vilagut, Sampson and Kessler2006). The CIDI is a widely used structured lay-administered diagnostic interview, which has demonstrated good validity for common mental disorders like MDD and was developed by the World Health Organization (Kessler and Ustün, Reference Kessler and Ustün2004; Haro et al., Reference Haro, Arbabzadeh-Bouchez, Brugha, de Girolamo, Guyer, Jin, Lepine, Mazzi, Reneses, Vilagut, Sampson and Kessler2006). We selected subjects who met the diagnostic criteria for an MDD in the prior 12-month period either at T 0, T 1 or T 2 based on the CIDI 3.0, and participated in the first follow-up wave. Following ten Have et al. (Reference ten Have, de Graaf, van Dorsselaer, Tuithof, Kleinjan and Penninx2018), subjects with schizophrenia (n = 15) were excluded so that the findings could not be attributable to this condition. This resulted in an MDD study sample comprising 642 subjects, from either one of the following time pairs during which the course of MDD was examined: T 0 − T 1, T 1 − T 2 or T 2 − T 3. The response rate within our MDD sample for the time pairs was 79.9% (n = 279, T 0 − T 1), 82.7% (n = 187, T 1 − T 2) and 80.9% (n = 165, T 2 − T 3), respectively. Attrition (also by death) was not significantly associated with any of the drinking groups in the first time pair (non-drinking OR 1.51, p = 0.213; at-risk OR 1.12, p = 0.771; high-risk OR 0.61, p = 0.382). This was also the case in the second time pair (non-drinking OR 0.87, p = 0.732; at-risk OR 0.78, p = 0.681; high-risk OR 1.06, p = 0.925). In the third time pair, a small trend was found among non-drinkers, but these were not statistically significant (non-drinking OR 2.05, p = 0.070; at-risk OR 0.80, p = 0.708; high-risk OR 0.80, p = 0.780).

Procedures

The respondents were selected through a multistage, stratified random sampling procedure of households. Within each household, the person with the most recent birthday, who was aged between 18 and 64 years old and spoke sufficient Dutch was selected to be interviewed. The majority of the face-to-face interviews were laptop computer-assisted and conducted at the respondents’ homes (de Graaf et al., Reference de Graaf, Ten Have and van Dorsselaer2010). Those who were insufficiently fluent in Dutch or long-term institutionalised were excluded. The mean duration of the interviews was 95, 84, 83 and 101 min for the interviews at T 0, T 1, T 2 and T 3, respectively (ten Have et al., Reference ten Have, Tuithof, van Dorsselaer, Kleinjan, Penninx, Batelaan and de Graaf2021). The NEMESIS-2 study was approved by a medical ethics committee [the Medical Ethics Review Committee for Institutions on Mental Health Care (METIGG)], approval number NL18210.097.07. All the respondents were both verbally informed and provided with written information about the study prior to giving their written informed consent to participate at each wave (de Graaf et al., Reference de Graaf, Ten Have and van Dorsselaer2010).

Measures

MDD course

MDD was measured across all four waves using the CIDI 3.0 interview (Haro et al., Reference Haro, Arbabzadeh-Bouchez, Brugha, de Girolamo, Guyer, Jin, Lepine, Mazzi, Reneses, Vilagut, Sampson and Kessler2006). MDD course was operationalised as the occurrence of any changes in the presence of an MDD diagnosis between measurement waves. We considered MDD persistence to be an unfavourable MDD course. MDD persistence was operationalised as subjects who still met the 12-month MDD criteria after the 3-year follow-up, at the next measurement wave.

Alcohol use

Alcohol consumption in the prior 12-month period was measured at all four waves using two CIDI questions: (I) ‘In the past 12 months, how often did you usually have at least one drink (answer categories: every day, nearly every day, 3–4 days a week, 1–2 days a week, 1–3 days a month, or less than once a month)?’ and (II) ‘On the days you drank in the past 12 months, around how many drinks did you usually have per day?’. In light of the aforementioned possibility of a J-shaped association between alcohol intake and depression, alcohol use was considered a categorical variable in our study (Rodgers et al., Reference Rodgers, Korten, Jorm, Jacomb, Christensen and Henderson2000). The participants were categorised into drinking groups based on their alcohol consumption in the 12-month period prior to the interview in which they met criteria for an MDD. We calculated the total number of drinks per week by multiplication and subsequently categorised subjects into the following groups: non-drinking (0 drinks weekly), low-risk drinking (⩽7 drinks weekly), at-risk drinking (8–13 drinks weekly for women and 8–20 drinks weekly for men) and high-risk drinking (⩾14 drinks weekly for women and ⩾21 drinks weekly for men). Both non-drinking and low-risk drinking groups adhere to the Dutch drinking guidelines, which advises not to drink any alcoholic beverages and if one does, to drink no more than one drink each drinking day (Meyboom-de Jong, Reference Meyboom-de Jong2018). The at-risk drinking group are often defined as people who drink above the national drinking guidelines (Case et al., Reference Case, Ng Fat and Shelton2019), but not excessively. The high-risk drinking group consumes alcohol in an excessive manner from the perspective of the Dutch excessive alcohol use norms (State of Health and Care, 2022).

Sample characteristics

We examined various socio-demographic and health-related measures in order to describe the differences between the non-risk, low-risk, at-risk and high-risk drinking groups in the MDD study sample.

Socio-demographic characteristics included sex (male/female), age (years), education (primary, lower secondary, higher secondary, higher professional/university), urbanicity of the place of residence (rural/city), living situation (with partner/single) and employment situation (paid job/not in paid employment). These characteristics were measured with self-constructed questions in all four waves, with the exception of education, which was only measured at T 0 and T 3, and was imputed for T 1 and T 2 using baseline values.

Health-related characteristics were measured in all four waves and included presence of any comorbid somatic disorders (yes/no), mental health care use (defined as ⩾1 contact made with mental health care services for emotional-, alcohol- or drug-related problems in the last 12 months (yes/no) and any psychotropic medication use in the last 12 months (yes/no)). Furthermore, presence of any anxiety disorder (yes/no), any drug abuse/dependence (yes/no), number of depressive episodes, age of onset of first MDD and the severity of any mental disorder (mild/moderate/severe) were measured using the CIDI 3.0.

Lifestyle-related characteristics included tobacco use in the last 4 weeks (yes/no) and body mass index score (BMI), which were both measured in all four assessment waves.

Vulnerability-related characteristics were the number of negative life events and the presence of child abuse. The presence of ten negative life events (e.g. divorce, death of a relative) in the prior 12-month period was assessed at all four waves using the Brugha life events section, which has been shown to have good sensitivity and specificity (Brugha and Cragg, Reference Brugha and Cragg1990). Childhood abuse was operationalised in terms of having experienced prior to the age of 16 any emotional neglect, psychological abuse, physical abuse on ⩾2 occasions or sexual abuse on ⩾1 occasion. The questions used to measure childhood abuse were also used in other studies, such as NEMESIS-1 and the Netherlands Study of Depression and Anxiety (NESDA) (Vogel et al., Reference Vogel, ten Have, Bijlenga, de Graaf, Beekman and Kooij2018). Childhood abuse was measured at T 0 and imputed for each subsequent follow-up measurement.

General functioning-related characteristics were measured at all four waves using the 36-item Short-Form Health Survey (SF-36) (Ware and Sherbourne, Reference Ware and Sherbourne1992; Larson, Reference Larson1997). The SF-36 is a widely used instrument and includes a multi-item scale that assesses eight health concepts. We used the mental functioning and physical functioning subscales, with a higher total subscale score (0–100) indicating better mental or physical functioning (Stewart et al., Reference Stewart, Hays and Ware1988).

Data analysis

All analyses were performed with STATA 16, using two-tailed testing procedures with alpha levels set at 0.05. The MDD study sample included 642 subjects, from either one of the following time pairs on which the course of MDD (i.e. MDD persistence) was examined: T 0 − T 1, T 1 − T 2 or T 2 − T 3. These time pairs were collapsed into one dataset, due to the small number of subjects in the high-risk drinking group in each individual time pair. Data were analysed in a long format using the cluster option (i.e. vce(cluster [subject ID])) to correct for multiple observations within subjects since some participants participated in multiple waves, as was done in Guloksuz et al. (Reference Guloksuz, Rutten, Pries, Ten Have, de Graaf, van Dorsselaer, Klingenberg, van Os and Ioannidis2018). Considering that our research question was conducted on MDD sub-samples and aimed to identify associations rather than incidence or prevalence, sampling weights were not applied (Honings et al., Reference Honings, Drukker, van Nierop, van Winkel, Wittchen, Lieb, ten Have, de Graaf, van Dorsselaer and van Os2016). All analyses were conducted on the observed data.

For descriptive purposes, we examined the differences in socio-demographic and health-related characteristics between the non-risk, low-risk, at-risk and high-risk drinking groups. First, for every characteristic, we performed a chi-square test (χ 2) for categorical variables or omnibus (F) tests for continuous variables. We then selected, based on the statistical significance of these tests (p < 0.05), the characteristics to be examined further in the post-hoc analyses using pairwise comparisons and a Bonferroni correction, in order to assess in which specific groups the difference occurred. Furthermore, the selected significant characteristics (based on χ 2 and omnibus testing) were also included as covariates in the main analysis, in order to control for any potential confounding effects.

For the main analysis in which we examined the relationship between alcohol use and MDD persistence after a 3-year follow-up, we carried out both univariate and multiple logistic regression analyses. The univariate regression included the crude model (model 1), whereas the multiple regression models included both the model adjusted for age and gender (model 2) and the full model that was adjusted for all the previously selected characteristics (model 3). We chose the low-risk drinking group as our reference group to align with other alcohol-related studies and because non-drinkers often experience more adverse health outcomes and, as such, are less suitable as a reference group (Rodgers et al., Reference Rodgers, Parslow and Degenhardt2007; Gémes et al., Reference Gémes, Moeller, Engström and Sidorchuk2019b). An additional analysis was performed, using a broader definition for MDD persistence defined as meeting the criteria for MDD in the prior 3-year period (instead of 12-month MDD) at the next wave. The results of this additional analysis were adjusted for all the previously selected characteristics from the post-hoc analyses.

Results

Sample characteristics

The study sample comprised 642 subjects with a 12-month MDD. The majority (67.4%) of the MDD sample was female, while the mean age was 47.1 years. Amongst these, 23.8% were non-drinkers, while 52.0%, 14.3% and 9.4% were low-risk, at-risk and high-risk drinkers, respectively. Almost one-quarter of the sample (23.6%) met the criteria for a persistent MDD after the 3-year follow-up interval. Post-hoc analyses showed that statistically significant differences between the drinking groups were found for gender, age, education, unemployment, age of first MDD onset, presence of somatic comorbidities, medication use, mental health care use, BMI, smoking and physical and mental functioning. At-risk and high-risk drinkers were more likely to be male compared to their low-risk and non-drinking counterparts, while low-risk drinkers were typically younger than all the other drinking groups. High-risk drinkers were more frequently engaged with mental health care services than low-risk and at-risk drinkers. Non-drinkers were found to use more medication than low-risk drinkers and, moreover, often had a higher BMI and somatic comorbidities in comparison to all the other drinking groups. This indicates that the non-drinker group experienced worse somatic health than the other drinking groups. See Table 1 for a detailed overview of the descriptive characteristics and post-hoc analyses for each drinking group.

Table 1. Descriptive characteristics of non-drinking, low-risk, at-risk and high-risk drinking groups amongst subjects with MDD

Total sample includes 642 subjects, three subjects did not report alcohol use; s.d., standard deviation

a Post-hoc analyses with Bonferroni correction, n.s. = no significant differences between groups. Continuous measures: age: in years, depressive episodes: number of depressive episodes, age of fist MDD onset: in years, negative life events: number of negative life events (e.g. divorce, death of a relative) in the previous 12 months, general functioning: mental functioning and physical functioning are subscales of the SF-36 (Short Form (36) Health Survey), a higher total subscale score (0–100) indicates better mental or physical functioning.

Alcohol use and MDD persistence

We found no statistically significant associations between MDD persistence and non-drinking, at-risk and high-risk drinking in comparison to low-risk drinking, neither in the crude model nor both of the adjusted models (Table 2). Hence, the low-risk drinking group did not differ from the other drinking groups in terms of MDD persistence after the 3-year follow-up. Moreover, in the additional analyses that used a broader definition of MDD persistence (i.e. meeting the criteria for an MDD in the prior 3-year period at the first subsequent measurement wave), no statistically significant associations were found for non-drinking (OR = 0.98, p = 0.949), at-risk drinking (OR = 1.19, p = 0.492) or high-risk drinking (OR = 1.49, p = 0.248) in comparison to low-risk drinking. All in all, alcohol consumption did not appear to be a predictor of MDD persistence amongst people with MDD from the general population.

Table 2. Alcohol use and 12-month MDD persistence after a 3-year follow-up

Reference group, low-risk drinking group; OR, odds ratio; s.e., standard error; 95% CI, 95% confidence interval

a Based on χ 2 or omnibus F-test: gender, age, education, unemployment, age of onset of first MDD, presence of somatic comorbidities, medication use, mental health care use, BMI, smoking, negative life events, physical and mental functioning.

Discussion

Key findings

The present study is one of the few prospective population-based studies that examines whether the level of alcohol use is a predictor of MDD persistence after a 3-year follow-up amongst people with 12-month MDD. Our results showed that there were no statistically significant associations between non-drinking, at-risk and high-risk drinking and MDD persistence after the 3-year follow-up in comparison with low-risk drinking. Hence, contrary to our expectations, our study showed that alcohol use was not associated with MDD persistence amongst people with MDD.

Relevance and implications of the findings

Only a few studies have hitherto examined the relationship between alcohol use and the course of MDD. Our findings are in line with another prospective cohort study, the Netherlands Study of Depression in Older persons (NESDO), amongst elderly people with late-life depression. The NESDO findings showed that, in comparison to non-drinking, there were no statistically significant associations between moderate and at-risk drinking and intermittent depression, as well as for chronic depression after a 2-year follow-up (Bruin et al., Reference Bruin, Comijs, Kok, Van der Mast and Van den Berg2018). Both these findings thus indicate that alcohol use was not a predictor of adverse MDD course amongst MDD populations. Despite this finding, there remains a strong evidence base that underscores the importance of alcohol reduction among problem drinkers, insofar as reduction is associated with various major mental and physical health-related benefits (see Charlet and Heinz (Reference Charlet and Heinz2017) for a detailed overview). Therefore, reducing alcohol use remains critically important from both a public health and clinical perspective, especially for vulnerable groups such as at-risk and high-risk drinkers with a co-occurring MDD.

The majority of population-based studies that have examined alcohol use and the course of MDD have included only AUD populations in their analyses, whilst our study also included non-clinical drinkers. Our study's findings can be said in broad alignment with some of these studies amongst AUD/MDD populations. Two studies focused on AUD amongst people with either a major depressive episode or a mixed sample including people with MDD and/or an anxiety disorder (Boschloo et al., Reference Boschloo, Vogelzangs, van den Brink, Smit, Veltman, Beekman and Penninx2012; Hoertel et al., Reference Hoertel, Blanco, Oquendo, Wall, Olfson, Falissard, Franco, Peyre, Lemogne and Limosin2017). The findings of these studies are mixed, insofar as one prospective study found that only severe AUD (i.e. DSM-IV alcohol dependence) and not milder AUD (DSM-IV alcohol abuse) was associated with MDD persistence and/or anxiety disorder persistence after a 2-year follow-up (Boschloo et al., Reference Boschloo, Vogelzangs, van den Brink, Smit, Veltman, Beekman and Penninx2012). Another large cohort study amongst adult American population did not find AUD to be a predictor of either persistence or the recurrence of a major depressive episode after a 3-year follow-up (Hoertel et al., Reference Hoertel, Blanco, Oquendo, Wall, Olfson, Falissard, Franco, Peyre, Lemogne and Limosin2017). Finally, two NEMESIS studies also did not find conclusive evidence concerning whether the presence of any comorbid substance use disorder influenced the course of depression. The presence of a remitted substance use disorder at baseline was found to predict the recurrence of MDD, whereas the presence of a current substance use disorder was found to predict the chronicity of MDD after a 6-year follow-up amongst people with MDD (ten Have et al., Reference ten Have, de Graaf, van Dorsselaer, Tuithof, Kleinjan and Penninx2018). However, the presence of a substance use disorder was not found to be related to depressive episode duration in either a minor depressive disorder or MDD study samples (ten Have et al., Reference ten Have, Penninx, Tuithof, van Dorsselaer, Kleinjan, Spijker and de Graaf2017). These studies’ findings shed light on both the complexity and high degree of variability of the course of co-occurring AUD and depression (McHugh and Weiss, Reference McHugh and Weiss2019).

When viewed in conjunction with one another, these inconclusive findings from the extant literature, the relative dearth of general population-based studies examining the impact of different drinking patterns on the course of MDD, and the fact that the aforementioned studies included different sub-populations, underscore the need for further research into this particular topic. Specifically, future studies could explore whether changes in alcohol use (as opposed to the prior year's alcohol use) amongst people with MDD are associated with worse or better depression outcomes. Gaining insight into this matter might strengthen preventive alcohol reduction initiatives. Ideally, future studies could also include excessively drinking MDD populations, as the current evidence points mostly towards a relation between more severe alcohol problems and potential adverse outcomes on MDD course, and because high-risk drinking generally increases the risk of AUD (Grant et al., Reference Grant, Chou, Saha, Pickering, Kerridge, Ruan, Huang, Jung, Zhang, Fan and Hasin2017; Patrick et al., Reference Patrick, Evans-Polce, Parks and Terry-McElrath2021).

Strengths and limitations

To the best of our knowledge, no prior work has hitherto examined the relationship between the full range of alcohol consumption and MDD persistence amongst adults with MDD from the general population. Additional strengths of the present study pertain to its use of a prospective design, clinically validated diagnostic interviews and a relatively large study sample.

However, our findings should also be interpreted in light of some limitations. First, we used data from all the NEMESIS-2 waves in order to come to a sufficiently large study sample. Including cases from only the first wave would have led to underpowered analyses, as the number of high-risk drinkers with MDD at baseline was too low. Despite the relatively large study sample, the number of cases in the high-risk drinking group remains modest, insofar as the majority of people with MDD are either non-drinkers or low-risk drinkers. This illustrates both the complexity and challenges associated with examining associations between different drinking groups in general population-based study samples. Moreover, our group of high-risk drinkers may in fact have been a heterogeneous group, including, amongst others, people who irrespective of their frequent alcohol use experienced few problems while others might have had more severe alcohol use problems. While we were unable to conduct subgroup analysed due to the small number of high-risk drinkers in our sample, we cannot rule out the possibility that there might be a subgroup of high-risk drinkers that may experience worse depression outcomes. Second, alcohol consumption was measured using retrospective self-reports, which is the most common method of measuring alcohol consumption in research. However, recall bias may have led to both biased estimates and underreporting of the actual level of alcohol consumption in the prior 12-month period (Stockwell et al., Reference Stockwell, Donath, Cooper-Stanbury, Chikritzhs, Catalano and Mateo2004; Ekholm et al., Reference Ekholm, Strandberg-Larsen, Christensen and Grønbaek2008). Third, assessments were conducted through face-to-face interviews, which may have led subjects to give socially desirable answers regarding their alcohol intake (Bowling, Reference Bowling2005; McKenna et al., Reference McKenna, Treanor, O'Reilly and Donnelly2018). Our estimates of alcohol consumption might therefore be on the conservative side. Consequently, the examined relationship between alcohol use and MDD persistence might thus have become attenuated. Fourth, given that people with either insufficient mastery of the Dutch language, without a permanent home address or those who were institutionalised were excluded from the sample procedure (de Graaf et al., Reference de Graaf, Ten Have and van Dorsselaer2010), findings can not be generalised to these aforementioned groups. Finally, MDD classification was based on the CIDI 3.0, a fully structured diagnostic interview administered by a trained lay interviewer (de Graaf et al., Reference de Graaf, Ten Have and van Dorsselaer2010). The CIDI has shown good psychometric properties and is considered appropriate for classifying MDD, hence its common use in scientific research (Andrews and Peters, Reference Andrews and Peters1998; Kessler and Ustün, Reference Kessler and Ustün2004; Levis et al., Reference Levis, Benedetti, Riehm, Saadat, Levis, Azar, Rice, Chiovitti, Sanchez, Cuijpers, Gilbody, Ioannidis, Kloda, McMillan, Patten, Shrier, Steele, Ziegelstein, Akena, Arroll, Ayalon, Baradaran, Baron, Beraldi, Bombardier, Butterworth, Carter, Chagas, Chan, Cholera, Chowdhary, Clover, Conwell, de Man-van Ginkel, Delgadillo, Fann, Fischer, Fischler, Fung, Gelaye, Goodyear-Smith, Greeno, Hall, Hambridge, Harrison, Hegerl, Hides, Hobfoll, Hudson, Hyphantis, Inagaki, Ismail, Jetté, Khamseh, Kiely, Lamers, Liu, Lotrakul, Loureiro, Löwe, Marsh, McGuire, Mohd Sidik, Munhoz, Muramatsu, Osório, Patel, Pence, Persoons, Picardi, Rooney, Santos, Shaaban, Sidebottom, Simning, Stafford, Sung, Tan, Turner, van der Feltz-Cornelis, van Weert, Vöhringer, White, Whooley, Winkley, Yamada, Zhang and Thombs2018). However, a recent individual participant data meta-analysis showed that compared to semi-structured interviews, fully structured interviews (such as the CIDI) tend to classify fewer people with high-level symptoms as having an MDD (Levis et al., Reference Levis, Benedetti, Riehm, Saadat, Levis, Azar, Rice, Chiovitti, Sanchez, Cuijpers, Gilbody, Ioannidis, Kloda, McMillan, Patten, Shrier, Steele, Ziegelstein, Akena, Arroll, Ayalon, Baradaran, Baron, Beraldi, Bombardier, Butterworth, Carter, Chagas, Chan, Cholera, Chowdhary, Clover, Conwell, de Man-van Ginkel, Delgadillo, Fann, Fischer, Fischler, Fung, Gelaye, Goodyear-Smith, Greeno, Hall, Hambridge, Harrison, Hegerl, Hides, Hobfoll, Hudson, Hyphantis, Inagaki, Ismail, Jetté, Khamseh, Kiely, Lamers, Liu, Lotrakul, Loureiro, Löwe, Marsh, McGuire, Mohd Sidik, Munhoz, Muramatsu, Osório, Patel, Pence, Persoons, Picardi, Rooney, Santos, Shaaban, Sidebottom, Simning, Stafford, Sung, Tan, Turner, van der Feltz-Cornelis, van Weert, Vöhringer, White, Whooley, Winkley, Yamada, Zhang and Thombs2018). The use of the CIDI may thus have influenced our findings, insofar as severe MDD cases may have remained undetected in our sample.

Conclusion

Compared to low-risk drinking, we found no significant associations between non-drinking, at-risk and high-risk drinking and MDD persistence after a 3-year follow-up amongst people from the general population with MDD. Alcohol use was therefore not found to be a predictor of MDD persistence in our study.

Data

The data on which this manuscript is based are not publicly available. However, data from NEMESIS-2 are available upon request. The Dutch Ministry of Health financed the data, on the proviso that these data can be used freely under certain restrictions and always under the supervision of the principal investigator (PI) of the study. Thus, some access restrictions do apply to the data. The PI of the study is the second author of this study (MtH) and can at all times be contacted to request the data. At any time, prospective researchers can contact the PI of NEMESIS-2 and submit a research plan, describing the background to the study, research questions, variables to be used in the analyses and an outline of the analyses to be conducted.

Financial support

NEMESIS-2 was conducted by the Netherlands Institute of Mental Health and Addiction (Trimbos Institute) in Utrecht. Financial support was received from the Ministry of Health, Welfare and Sport, with supplementary support from both the Netherlands Organization for Health Research and Development (ZonMw) and the Genetic Risk and Outcome of Psychosis (GROUP) investigators. This study was carried out in the context of a ZonMw funded project (grant number: 636310009) on depression with comorbid alcohol misuse (awarded to MB., AG., JD). The funding sources played no further role in terms of the study design, the collection, analysis and interpretation of data, nor in the writing of the report or the decision to submit the article for publication.

Conflict of interest

None.

Ethical standards

The authors assert that all procedures contributing to this work are in compliance with the ethical standards of the relevant national and institutional committees on human experimentation, and with the Helsinki Declaration of 1975, as revised in 2008.

References

Alonso, J, Angermeyer, MC, Bernert, S, Bruffaerts, R, Brugha, TS, Bryson, H, de Girolamo, G, Graaf, R, Demyttenaere, K, Gasquet, I, Haro, JM, Katz, SJ, Kessler, RC, Kovess, V, Lépine, JP, Ormel, J, Polidori, G, Russo, LJ, Vilagut, G, Almansa, J, Arbabzadeh-Bouchez, S, Autonell, J, Bernal, M, Buist-Bouwman, MA, Codony, M, Domingo-Salvany, A, Ferrer, M, Joo, SS, Martínez-Alonso, M, Matschinger, H, Mazzi, F, Morgan, Z, Morosini, P, Palacín, C, Romera, B, Taub, N and Vollebergh, WA (2004) 12-Month comorbidity patterns and associated factors in Europe: results from the European Study of the Epidemiology of Mental Disorders (ESEMeD) project. Acta Psychiatrica Scandinavica 420, 2837.Google Scholar
Andrews, G and Peters, L (1998) The psychometric properties of the Composite International Diagnostic Interview. Social Psychiatry and Psychiatric Epidemiology 33, 8088.CrossRefGoogle ScholarPubMed
Boschloo, L, Vogelzangs, N, van den Brink, W, Smit, JH, Veltman, DJ, Beekman, ATF and Penninx, BWJH (2012) Alcohol use disorders and the course of depressive and anxiety disorders. British Journal of Psychiatry 200, 476484.CrossRefGoogle ScholarPubMed
Bowling, A (2005) Mode of questionnaire administration can have serious effects on data quality. Journal of Public Health 27, 281291.CrossRefGoogle ScholarPubMed
Briere, FN, Rohde, P, Seeley, JR, Klein, D and Lewinsohn, PM (2014) Comorbidity between major depression and alcohol use disorder from adolescence to adulthood. Comprehensive Psychiatry 55, 526533.CrossRefGoogle ScholarPubMed
Brugha, TS and Cragg, D (1990) The list of threatening experiences: the reliability and validity of a brief life events questionnaire. Acta Psychiatrica Scandinavica 82, 7781.CrossRefGoogle ScholarPubMed
Bruin, MC, Comijs, HC, Kok, RM, Van der Mast, RC and Van den Berg, JF (2018) Lifestyle factors and the course of depression in older adults: a NESDO study. International Journal of Geriatric Psychiatry 33, 10001008.CrossRefGoogle Scholar
Caldwell, TM, Rodgers, B, Jorm, AF, Christensen, H, Jacomb, PA, Korten, AE and Lynskey, MT (2002) Patterns of association between alcohol consumption and symptoms of depression and anxiety in young adults. Addiction 97, 583594.CrossRefGoogle ScholarPubMed
Case, P, Ng Fat, L and Shelton, N (2019) Exploring the characteristics of newly defined at-risk drinkers following the change to the UK low risk drinking guidelines: a retrospective analysis using Health Survey for England data. BMC Public Health 19, 902915.CrossRefGoogle Scholar
Castillo-Carniglia, A, Keyes, KM, Hasin, DS and Cerdá, M (2019) Psychiatric comorbidities in alcohol use disorder. The Lancet Psychiatry 6, 10681080.CrossRefGoogle ScholarPubMed
Charlet, K and Heinz, A (2017) Harm reduction-a systematic review on effects of alcohol reduction on physical and mental symptoms. Addiction Biology 22, 11191159.CrossRefGoogle ScholarPubMed
de Graaf, R, Bijl, RV, Smit, F, Vollebergh, WA and Spijker, J (2002) Risk factors for 12-month comorbidity of mood, anxiety, and substance use disorders: findings from the Netherlands Mental Health Survey and Incidence Study. American Journal of Psychiatry 159, 620629.CrossRefGoogle ScholarPubMed
de Graaf, R, Ten Have, M and van Dorsselaer, S (2010) The Netherlands Mental Health Survey and Incidence Study-2 (NEMESIS-2): design and methods. International Journal of Methods in Psychiatric Research 19, 125141.CrossRefGoogle ScholarPubMed
Eaton, WW, Shao, H, Nestadt, G, Lee, BH, Bienvenu, OJ and Zandi, P (2008) Population-based study of first onset and chronicity in major depressive disorder. Archives of General Psychiatry 65, 513520.CrossRefGoogle ScholarPubMed
Ekholm, O, Strandberg-Larsen, K, Christensen, K and Grønbaek, M (2008) Comparison of assessment methods for self-reported alcohol consumption in health interview surveys. European Journal of Clinical Nutrition 62, 286291.CrossRefGoogle ScholarPubMed
Gadermann, AM, Alonso, J, Vilagut, G, Zaslavsky, AM and Kessler, RC (2012) Comorbidity and disease burden in the National Comorbidity Survey Replication (NCS-R). Depression and Anxiety 29, 797806.CrossRefGoogle ScholarPubMed
GBD 2016 Alcohol Collaborators (2018) Alcohol use and burden for 195 countries and territories, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet 392, 10151035.CrossRefGoogle Scholar
GBD 2019 Mental Disorders Collaborators (2022) 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. The Lancet Psychiatry 9, 137150.CrossRefGoogle Scholar
Gémes, K, Forsell, Y, Janszky, I, László, KD, Lundin, A, Ponce De Leon, A, Mukamal, KJ and Moller, J (2019 a) Moderate alcohol consumption and depression – a longitudinal population-based study in Sweden. Acta Psychiatrica Scandinavica 139, 526535.CrossRefGoogle ScholarPubMed
Gémes, K, Moeller, J, Engström, K and Sidorchuk, A (2019 b) Alcohol consumption trajectories and self-rated health: findings from the Stockholm Public Health Cohort. BMJ Open 9, e028878.CrossRefGoogle ScholarPubMed
Graham, K, Massak, A, Demers, A and Rehm, J (2007) Does the association between alcohol consumption and depression depend on how they are measured? Alcoholism: Clinical and Experimental Research 31, 7888.CrossRefGoogle ScholarPubMed
Grant, BF, Chou, SP, Saha, TD, Pickering, RP, Kerridge, BT, Ruan, WJ, Huang, B, Jung, J, Zhang, H, Fan, A and Hasin, DS (2017) Prevalence of 12-month alcohol use, high-risk drinking, and DSM-IV alcohol use disorder in the United States, 2001–2002 to 2012–2013: results from the national epidemiologic survey on alcohol and related conditions. JAMA Psychiatry 74, 911923.CrossRefGoogle ScholarPubMed
Guloksuz, S, Rutten, BPF, Pries, L-K, Ten Have, M, de Graaf, R, van Dorsselaer, S, Klingenberg, B, van Os, J, Ioannidis, JPA and European Network of National Schizophrenia Networks Studying Gene-Environment Interactions Work Package G (2018) The complexities of evaluating the exposome in psychiatry: a data-driven illustration of challenges and some propositions for amendments. Schizophrenia Bulletin 44, 11751179.CrossRefGoogle ScholarPubMed
Haro, JM, Arbabzadeh-Bouchez, S, Brugha, TS, de Girolamo, G, Guyer, ME, Jin, R, Lepine, JP, Mazzi, F, Reneses, B, Vilagut, G, Sampson, NA and Kessler, RC (2006) Concordance of the Composite International Diagnostic Interview Version 3.0 (CIDI 3.0) with standardized clinical assessments in the WHO World Mental Health surveys. International Journal of Methods in Psychiatric Research 15, 167180.CrossRefGoogle ScholarPubMed
Hasin, DS, Sarvet, AL, Meyers, JL, Saha, TD, Ruan, WJ, Stohl, M and Grant, BF (2018) Epidemiology of adult DSM-5 major depressive disorder and its specifiers in the United States. JAMA Psychiatry 75, 336346.CrossRefGoogle ScholarPubMed
Hoertel, N, Blanco, C, Oquendo, MA, Wall, MM, Olfson, M, Falissard, B, Franco, S, Peyre, H, Lemogne, C and Limosin, F (2017) A comprehensive model of predictors of persistence and recurrence in adults with major depression: results from a national 3-year prospective study. Journal of Psychiatric Research 95, 1927.CrossRefGoogle ScholarPubMed
Honings, S, Drukker, M, van Nierop, M, van Winkel, R, Wittchen, H-U, Lieb, R, ten Have, M, de Graaf, R, van Dorsselaer, S and van Os, J (2016) Psychotic experiences and incident suicidal ideation and behaviour: disentangling the longitudinal associations from connected psychopathology. Psychiatry Research 245, 267275.CrossRefGoogle ScholarPubMed
Hunt, GE, Malhi, GS, Lai, HMX and Cleary, M (2020) Prevalence of comorbid substance use in major depressive disorder in community and clinical settings, 1990–2019: systematic review and meta-analysis. Journal of Affective Disorders 266, 288304.CrossRefGoogle ScholarPubMed
Kessler, RC and Ustün, TB (2004) The World Mental Health (WMH) Survey initiative version of the World Health Organization (WHO) Composite International Diagnostic Interview (CIDI). International Journal of Methods Psychiatric Research 13, 93121.CrossRefGoogle ScholarPubMed
Lai, HM, Cleary, M, Sitharthan, T and Hunt, GE (2015) Prevalence of comorbid substance use, anxiety and mood disorders in epidemiological surveys, 1990–2014: a systematic review and meta-analysis. Drug and Alcohol Dependence 154, 113.CrossRefGoogle ScholarPubMed
Larson, JS (1997) The MOS 36-item short form health survey. A conceptual analysis. Evaluation & the Health Professions 20, 1427.CrossRefGoogle ScholarPubMed
Levis, B, Benedetti, A, Riehm, KE, Saadat, N, Levis, AW, Azar, M, Rice, DB, Chiovitti, MJ, Sanchez, TA, Cuijpers, P, Gilbody, S, Ioannidis, JPA, Kloda, LA, McMillan, D, Patten, SB, Shrier, I, Steele, RJ, Ziegelstein, RC, Akena, DH, Arroll, B, Ayalon, L, Baradaran, HR, Baron, M, Beraldi, A, Bombardier, CH, Butterworth, P, Carter, G, Chagas, MH, Chan, JCN, Cholera, R, Chowdhary, N, Clover, K, Conwell, Y, de Man-van Ginkel, JM, Delgadillo, J, Fann, JR, Fischer, FH, Fischler, B, Fung, D, Gelaye, B, Goodyear-Smith, F, Greeno, CG, Hall, BJ, Hambridge, J, Harrison, PA, Hegerl, U, Hides, L, Hobfoll, SE, Hudson, M, Hyphantis, T, Inagaki, M, Ismail, K, Jetté, N, Khamseh, ME, Kiely, KM, Lamers, F, Liu, SI, Lotrakul, M, Loureiro, SR, Löwe, B, Marsh, L, McGuire, A, Mohd Sidik, S, Munhoz, TN, Muramatsu, K, Osório, FL, Patel, V, Pence, BW, Persoons, P, Picardi, A, Rooney, AG, Santos, IS, Shaaban, J, Sidebottom, A, Simning, A, Stafford, L, Sung, S, Tan, PLL, Turner, A, van der Feltz-Cornelis, CM, van Weert, HC, Vöhringer, PA, White, J, Whooley, MA, Winkley, K, Yamada, M, Zhang, Y and Thombs, BD (2018) Probability of major depression diagnostic classification using semi-structured versus fully structured diagnostic interviews. British Journal of Psychiatry 212, 377385.CrossRefGoogle ScholarPubMed
Li, J, Wang, H, Li, M, Shen, Q, Li, X, Zhang, Y, Peng, J, Rong, X and Peng, Y (2020) Effect of alcohol use disorders and alcohol intake on the risk of subsequent depressive symptoms: a systematic review and meta-analysis of cohort studies. Addiction 115, 12241243.CrossRefGoogle ScholarPubMed
McHugh, RK and Weiss, RD (2019) Alcohol use disorder and depressive disorders. Alcohol Research: Current Reviews 40, arcr.v40.41.01.Google ScholarPubMed
McKenna, H, Treanor, C, O'Reilly, D and Donnelly, M (2018) Evaluation of the psychometric properties of self-reported measures of alcohol consumption: a COSMIN systematic review. Substance Abuse Treatment, Prevention and Policy 13, 625.CrossRefGoogle ScholarPubMed
Meyboom-de Jong, B (2018) Richtlijnen goede voeding 2015 van de Gezondheidsraad. Bijblijven 34, 358360.CrossRefGoogle Scholar
O'Donnell, K, Wardle, J, Dantzer, C and Steptoe, A (2006) Alcohol consumption and symptoms of depression in young adults from 20 countries. Journal of Studies on Alcohol and Drugs 67, 837840.CrossRefGoogle ScholarPubMed
Patrick, ME, Evans-Polce, RJ, Parks, MJ and Terry-McElrath, YM (2021) Drinking intensity at age 29/30 as a predictor of alcohol use disorder symptoms at age 35 in a national sample. Journal of Studies on Alcohol and Drugs 82, 362367.CrossRefGoogle Scholar
Rehm, J, Gmel, GE Sr., Gmel, G, Hasan, OSM, Imtiaz, S, Popova, S, Probst, C, Roerecke, M, Room, R, Samokhvalov, AV, Shield, KD and Shuper, PA (2017) The relationship between different dimensions of alcohol use and the burden of disease-an update. Addiction 112, 9681001.CrossRefGoogle ScholarPubMed
Rodgers, B, Korten, AE, Jorm, AF, Jacomb, PA, Christensen, H and Henderson, AS (2000) Non-linear relationships in associations of depression and anxiety with alcohol use. Psychological Medicine 30, 421432.CrossRefGoogle ScholarPubMed
Rodgers, B, Parslow, R and Degenhardt, L (2007) Affective disorders, anxiety disorders and psychological distress in non-drinkers. Journal of Affective Disorders 99, 165172.CrossRefGoogle ScholarPubMed
Shmulewitz, D, Aharonovich, E, Witkiewitz, K, Anton, RF, Kranzler, HR, Scodes, J, Mann, KF, Wall, MM and Hasin, D (2021) The World Health Organization risk drinking levels measure of alcohol consumption: prevalence and health correlates in nationally representative surveys of U.S. adults, 2001–2002 and 2012–2013. American Journal of Psychiatry 178, 548559.CrossRefGoogle ScholarPubMed
State of Health and Care (2022) Alcohol: overmatig drinken. Trimbos Institute. Available at https://www.staatvenz.nl/kerncijfers/alcohol-overmatig-drinken (Accessed 26 July 2022).Google Scholar
Stewart, AL, Hays, RD and Ware, JE Jr. (1988) The MOS short-form general health survey. Reliability and validity in a patient population. Medical Care 26, 724735.CrossRefGoogle Scholar
Stockwell, T, Donath, S, Cooper-Stanbury, M, Chikritzhs, T, Catalano, P and Mateo, C (2004) Under-reporting of alcohol consumption in household surveys: a comparison of quantity-frequency, graduated-frequency and recent recall. Addiction 99, 10241033.CrossRefGoogle ScholarPubMed
Sullivan, LE, Fiellin, DA and O'Connor, PG (2005) The prevalence and impact of alcohol problems in major depression: a systematic review. The American Journal of Medicine 118, 330341.CrossRefGoogle ScholarPubMed
ten Have, M, Penninx, B, Tuithof, M, van Dorsselaer, S, Kleinjan, M, Spijker, J and de Graaf, R (2017) Duration of major and minor depressive episodes and associated risk indicators in a psychiatric epidemiological cohort study of the general population. Acta Psychiatrica Scandinavica 136, 300312.CrossRefGoogle Scholar
ten Have, M, de Graaf, R, van Dorsselaer, S, Tuithof, M, Kleinjan, M and Penninx, B (2018) Recurrence and chronicity of major depressive disorder and their risk indicators in a population cohort. Acta Psychiatrica Scandinavica 137, 503515.CrossRefGoogle Scholar
ten Have, M, Tuithof, M, van Dorsselaer, S, Kleinjan, M, Penninx, B, Batelaan, NM and de Graaf, R (2021) Duration of anxiety disorder and its associated risk indicators: results of a longitudinal study of the general population. Depression and Anxiety 38, 328336.CrossRefGoogle ScholarPubMed
Vogel, SWN, ten Have, M, Bijlenga, D, de Graaf, R, Beekman, ATF and Kooij, JJS (2018) Distribution of ADHD symptoms, and associated comorbidity, exposure to risk factors and disability: results from a general population study. Psychiatry Research 267, 256265.CrossRefGoogle ScholarPubMed
Ware, JE Jr. and Sherbourne, CD (1992) The MOS 36-item short-form health survey (SF-36). I. Conceptual framework and item selection. Medical Care 30, 473483.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Descriptive characteristics of non-drinking, low-risk, at-risk and high-risk drinking groups amongst subjects with MDD

Figure 1

Table 2. Alcohol use and 12-month MDD persistence after a 3-year follow-up