INTRODUCTION

Nearly half of the 322 million people living with major depressive disorder (MDD) in the world are in the South-East Asia Region and Western Pacific Region1. With the increasing number of people suffering from depression, it will be a major contributor to the global disease burden by 2030 without further interventions2. In Bhutan, 11.69% of all psychiatric patients were diagnosed with MDD in 20173.

According to the World Health Organization (WHO) global report on Alcohol and Health 2018, the harmful use of alcohol resulted in an estimated 3 million deaths (5.3% of all deaths) globally in 20164. Alcohol-related liver disease remains the top cause of mortality in Bhutan2. In 2017, 21.5% of all psychiatric patients had alcohol use disorder (AUD) in Bhutan2. Patients with common mental disorders such as depression, anxiety, and difficulty in expressing emotions have been shown to have a higher risk of alcohol use disorder5.

MDD is the most common psychiatric comorbidity among AUD patients6. They are reciprocal risk factors, and the presence of either disorder doubles the risk for the second7-9. The prevalence of MDD in alcohol use disorder is reported to be as high as 35%7, and the lifetime prevalence of alcohol use disorder in people with major depressive disorder is as high as 40%7,10-13. The co-occurring nature of the two disorders has been explored using developmental and causal approaches, neurobiological theories and emotional dysregulation theories.

Studies have explained the developmental pathways in which AUD increases the risk for depressive disorder and, in turn, how depressive disorders increase the risk for AUD. Both disorders may share a common pathophysiology or set of risk factors7,14.

Patients with comorbid MDD and AUD have a significant craving for alcohol after detoxification and rehabilitation15. The risk of relapse is higher and onset earlier with the comorbidity16. The co-existence of these two disorders poses a higher risk of delayed diagnosis and more severe psychopathological symptoms. Treatment adherence is lessened, and the treatment outcome is poorer. There is a greater impairment of social functioning. Admissions to emergency departments are more frequent and the incidence of suicidal ideation is higher. Medical comorbidity is greater10,17,18. Significant economic burden is incurred socially with high levels of healthcare resource consumption, inadequate treatment outcomes, high work absenteeism and lost productivity18.

Screening of depression in AUD patients is essential for the appropriate management of dually diagnosed individuals. The prevalence of MDD among patients suffering from AUD in Bhutan is not known. There have been no studies conducted to the author’s knowledge to date. Establishing the prevalence of this comorbidity will serve to increase awareness among the clinicians and health professionals, and facilitate more appropriate and successful treatment outcomes.

This study was conducted to establish the prevalence of MDD and associated risk factors in adult Bhutanese patients admitted with a primary AUD diagnosis to the inpatient psychiatric ward, Jigme Dorji Wangchuck National Referral Hospital, from March 2020 to February 2021.

METHODS

This cross-sectional study was carried out in the psychiatric ward of the Jigme Dorji Wangchuck National Referral Hospital, Thimphu, Bhutan. It is the only center providing specialized psychiatric services in Bhutan. The alcohol detoxification protocol was a standardized, tapering dose, fixed regimen of benzodiazepines over the course of 10 days. This study was carried out for a period of one year, from 1 March 2020 to 28 February 2021.

Study population

The sample in this study were Bhutanese adult patients with AUD admitted for alcohol detoxification in the psychiatric ward, fulfilling the following inclusion and exclusion criteria.

Inclusion criteria

Patient diagnosed as AUD and admitted for detoxification were included. Patients with AUD were included only once during the study period to avoid redundancy associated with multiple hospitalizations of an individual patient.

Exclusion criteria

Excluded were those patients with existing co-morbid psychiatric illnesses apart from MDD. This is because patients with comorbid schizophrenia and other psychotic illnesses, bipolar affective disorder, other substance use disorders apart from alcohol, personality disorders, and intellectual disability disorders could present with symptoms overlapping major depressive disorder, or their presentations could mask the symptoms of major depressive disorder.

Sample size

The sample size in this study was calculated using the Krejcie and Morgan formula19 to determine the sample size for a finite population. After substituting the values into the formula, the required sample size for this study was 153 participants. A total of 155 participants were recruited over the study period.

Sampling method and study procedure

All the patients fulfilling the criteria from the Diagnostic and Statistical Manual of Mental Disorders, fifth edition (DSM-5) AUD, who were admitted for alcohol detoxification during the specified time frame, were recruited for the study after obtaining informed written consent.

The principal investigator assessed patients admitted for alcohol detoxification through a detailed psychiatric history and selected only those patients fulfilling the inclusion criteria. Eligible participants were interviewed by the principal investigator after 5th detoxification day and administered the PHQ-9 and sociodemographic questionnaire. This process avoided confounding assessment factors of acute intoxication, delirium, sedation and transient cognitive impairment from withdrawal or medication burden.

Research instruments

The research instruments used in this study were a sociodemographic questionnaire and Patient Health Questionnaire (PHQ)-9.

Sociodemographic questionnaire

A self-designed questionnaire including basic demographic variables such as age, gender, marital status, education level, employment status, annual income, family history of psychiatric illness and family history of alcohol and substance use disorder, was employed in gathering the demographic profile of the participants.

The Patient Health Questionnaire (PHQ)-9

The PHQ-9 is a self-administered questionnaire designed to screen for major depressive disorder and its severity. Its 9-item questions coincide with the 9 symptoms of major depressive disorder described in the DSM-5 (Supplementary file).

A summary score ranging from 0–27 was calculated. Each of the 9 items is scored on a scale of 0 to 3: Not at all=0, Several days=1, More than half the days=2, and Nearly every day=3.

The severity of major depressive disorder is measured as follows: total score of 0–4=normal, 5–9=mild major depressive disorder, 10–14=moderate major depressive disorder, 15–19= moderately severe major depressive disorder, and 20–27=severe major depressive disorder.

Participants with PHQ-9 scores of ≥10 were considered to meet the criteria for MDD, as the sensitivity and specificity for PHQ-9 scores ≥10 is 88% for the diagnosis of MDD20. Participants with mild depression (PHQ-9 score of 5–9 were not included in the assessment of the overall prevalence.

Data management and analysis

Data were entered, double entered and validated using EpiData Entry version 3.1. The data were analyzed using statistical software (SPSS version 21). Descriptive statistics (frequency, percentage, mean and standard deviation (SD) were used to present the sociodemographic characteristics. Multivariate binary logistic regression was carried out to determine factors associated with depression using Model 1 and Model 2. All independent variables were computed for multivariate logistic regression in Model 1. For Model 2, variables with p<0.2 from Model 1 (gender, family history of psychiatric illness and family history of alcohol and drug abuse) were included. Variables with p>0.2 from Model 1 (age, marital status, education level, employment status, and income per year) were excluded. Akaike information criterion (AIC) score was used to construct our final multivariable model.

RESULTS

Sociodemographic characteristics

Table 1 describes the sociodemographic characteristics of the participants. The majority of the participants were male (76.1%) aged 30–39 years (mean=38.07; SD=9.71). More than half (57.4%) of the participants were married, and 75.5% of them had attended formal education. Most of the participants were employed (76.8%), and their annual income was >100000 BTN (1000 Bhutan Ngultrum about 12 US$); 7.7% of the participants had a family history of psychiatric illness, and 53.5% reported having a family history of alcohol and drug abuse.

Table 1

Sociodemographic characteristics of participants admitted with AUD in the psychiatric ward, Jigme Dorji Wangchuck National Referral Hospital, and differences in distribution of depression among participants, March 2020 – February 2021 (N=155)

CharacteristicsAdmitted with AUD (N=155) n (col %)AUD with depression (N=59) n (%)pa
Total155 (100)59 (38.1)
Gender
Male118 (76.1)39 (33.1)0.02*
Female37 (26.9)20 (54.1)
Age (years)
18–2929 (18.7)11 (37.9)0.35
30–3966 (42.6)22 (33.3)
40–4938 (24.5)19 (50.0)
≥5022 (14.2)7 (31.8)
Marital status
Never married28 (18.1)7 (25.0)0.25
Married/living together89 (57.4)35 (39.3)
Divorced/separated/widowed38 (24.5)17 (44.7)
Education level
No education28 (18.1)10 (35.7)0.43
Formal education117 (75.5)47 (40.2)
Non-formal education/monastic school10 (6.5)2 (20.0)
Employment status
Employed119 (76.8)43 (36.1)0.37
Not employed36 (23.2)16 (44.4)
Income per year (BTN)
No income25 (16.1)10 (40.0)0.26
1–9999915 (9.7)7 (46.7)
100000–19999957 (36.8)16 (28.1)
≥20000058 (37.4)26 (44.8)
Family history of psychiatric illness
Yes12 (7.7)9 (75.0)0.01*
No143 (92.3)50 (35.0)
Family history of alcohol and drug abuse
Yes83 (53.5)38 (45.8)0.03*
No72 (46.5)21 (29.2)

a Two-tailed χ2 analysis conducted for significance testing.

* p<0.05.

BTN: 1000 Bhutan Ngultrum about 12 US$.

Prevalence and severity of MDD in those with AUD

The overall prevalence of MDD (PHQ-9 score ≥10) among the participants was 38% (59/155). According to the PHQ-9 score, 29.7% of the participants had mild depression (PHQ-9 score = 5–9), 23.3% of the participants had moderate depression (PHQ-9 score = 10–14), 10.3% of the participants had moderately severe depression (PHQ-9 score = 15–19) and 4.5% of the participants had severe depression (PHQ-9 score = 20–27). The cut-off score for major depressive disorder is ≥10, although scores from 5–9 are considered as mild depression. Mild depression does not require active interventions, but they can be followed up and monitored for an increase in their subsequent PHQ-9 scores, so participants with mild depression are not included in the overall prevalence.

As shown in Table 1, female (54.05%) participants had a higher prevalence of depression than male (33.05%) (p=0.02). The prevalence of depression was significantly higher among participants with a family history of psychiatric illness (p=0.01) and participants with a family history of alcohol and substance use (p=0.03) compared to their counterparts.

Risk factors associated with depression

In unadjusted analysis (univariate binary logistic regression), female participants (OR=2.38; 95% CI: 1.12–5.05), participants with a family history of psychiatric illness (OR=5.58; 95% CI: 1.44–21.54) and those with a family history of alcohol and drug abuse (OR=2.05; 95% CI: 1.05–3.99) were significantly associated with depression compared to their counterparts as shown in Table 2.

Table 2

Univariate binary logistic regression analysis of risk factors associated with depression among patients with AUD admitted in the psychiatric ward, Jigme Dorji Wangchuck National Referral Hospital, March 2020 – February 2021 (N=155)

VariablesDepression
OR (95% CI)p
Gender
Male (Ref.)1
Female2.38 (1.12–5.05)0.02*
Age (years)
18–29 (Ref.)1
30–391.31 (0.41–4.22)0.65
40–491.07 (0.38–3.01)0.90
≥502.14 (0.71–6.44)0.17
Marital status
Never married (Ref.)1
Married/living together0.41 (0.14–1.20)0.10
Divorced/widowed/separated0.80 (0.37–1.73)0.57
Education level
No education (Ref.)1
Formal education0.83 (0.35–1.95)0.67
Non-formal education/monastic school0.37 (0.08–1.83)0.22
Employment status
Employed (Ref.)1
Not-employed1.41 (0.66–3.01)0.37
Income per year (BTN)
<150000 (Ref.)1
≥1500001.15 (0.60–2.21)0.67
Family history of psychiatric illness
No (Ref.)1
Yes5.58 (1.44–21.54)0.01*
Family history of alcohol and drug abuse
No (Ref.)1
Yes2.05 (1.05–3.99)0.04*

* p<0.05 (statistically significant).

BTN: 1000 Bhutan Ngultrum about 12 US$.

Table 3 shows factors associated with depression among the study participants through multivariate logistic regression analysis. All independent variables were computed for multivariate logistic regression in Model 1. For Model 2, only those variables with p<0.2 from Model 1 were included. After adjusting for confounding factors, the findings show that females had a more than two times (AOR=2.19; 95% CI: 1.01–4.75) likelihood of developing depression than male patients with AUD. In addition, participants with a family history of psychiatric illness had nearly five times (AOR=4.63; 95% CI: 1.17–18.44) the likelihood of developing of depression compared to those without a family history of psychiatric illness.

Table 3

Multivariate binary logistic regression analysis of risk factors associated with depression among patients with AUD admitted in the psychiatric ward, Jigme Dorji Wangchuck National Referral Hospital, March 2020 – February 2021 (N=155)

VariablesModel 1Model 2
AOR (95% CI)pAOR (95% CI)p
Gender
Male (Ref.)11
Female2.03 (0.83–4.96)0.1202.19 (1.01–4.75)0.04*
Age (years)
18–29 (Ref.)1
30–391.16 (0.28–4.75)0.84NANA
40–491.05 (0.33–3.32)0.94NANA
≥502.21 (0.67–7.27)0.19NANA
Marital status
Never married (Ref.)1
Married0.40 (0.11–1.40)0.15NANA
Divorced/widowed/separated0.78 (0.31–1.94)0.59NANA
Education level
No education (Ref.)1
Formal education0.75 (0.25–2.26)0.61NANA
Non-formal education/monastic school0.48 (0.09–2.70)0.41NANA
Employment status
Employed (Ref.)1
Not employed1.58 (0.64–3.87)0.32NANA
Income per year (BTN)
<150000 (Ref.)1
≥1500001.32 (0.59–2.93)0.50NANA
Family history of psychiatric illness
No (Ref.)11
Yes5.23 (1.13–24.17)0.03*4.63 (1.17–18.44)0.03*
Family history of alcohol and drug abuse
No (Ref.)11
Yes1.82 (0.88–3.76)0.111.69 (0.84–3.38)0.14
AIC score198.96197.77

AOR: adjusted odds ratio. AIC: Akaike information criterion.

* p<0.05 (statistically significant);

NA: not applicable. Model 1: all independent variables were computed for multivariate logistic regression. Model 2: only those variables with p<0.2 from Model 1 were included. BTN: 1000 Bhutan Ngultrum about 12 US$.

DISCUSSION

Prevalence of MDD in those with AUD

The association between depression and AUD is well established, and each disorder is a risk factor for the other. This study shows the occurrence of depression in AUD in the studied population to have an overall prevalence of 38%. This prevalence rate is consistent with other studies6,7,21-23. Studies conducted by Becker et al.17,24,25, Cho et al.17,24,25 in Korea, and Bott et al.17,24,25 in Germany, however, reported lower prevalence rates. These differences could be due to different study designs and sample size, psychometric tools used in the study and different timing of the administration of the study tools. Studies conducted by Luitel et al.22,26 in Nepal and Charnsil and Aroonrattanapong26 in Thailand using the same study tool (PHQ-9) demonstrated that the prevalence of MDD in AUD was around 40% and 32.2% respectively. Mchugh and Weiss6 reported that AUD patients are 3.7 times more likely to have MDD whereas Becker et al.17 reported that the presence of alcohol dependence increases the risk for depression by 5 times (OR=4.7).

Alcohol is a central nervous system depressant, and prolonged alcohol use could precipitate symptoms of depression. Patients with depression may be self-medicating with alcohol to alleviate their symptoms of depression. Maladaptive coping skills in depressed patients could result in using alcohol as a coping strategy. Furthermore, social and environmental stressors could trigger both AUD and MDD simultaneously. MDD could also result from the consequences of alcohol through its effect on an individual’s social, occupational and financial life. Finally, both disorders could be independent of each other and yet may present as comorbidity10.

According to the literature, AUD and MDD share bidirectional causality7,14. In Bhutan, the prevalence of AUD was reported to be high3. Hence, a possible reason for the high prevalence of MDD among our participants could be linked to a high prevalence of AUD among the Bhutanese population. Further, high prevalence of AUD in Bhutan is attributed to easy access of alcohol, its cultural acceptance in routine religious rituals and social gatherings, and its relative inexpensiveness27.

The validity of PHQ-9 was not checked in the Bhutanese context; however, similar studies using PHQ-9 have been done in India and Nepal. The translated and validated version of PHQ-9 used in Nepal had a sensitivity of 94% and specificity of 88% in diagnosing depression with a PHQ-9 score >1028,22. It has also been used in India for similar studies29,30. Bhutan shares its geographical boundaries with the two countries, and there are also some sociocultural, ethnic and religious similarities between these countries.

The co-occurrence infers that there are two deadly co-occurring psychiatric problems with multiple detrimental consequences. Some of the consequences, as explained in many studies, are a higher risk of delayed diagnosis, more severe psychopathological symptoms, less compliance with treatment, poorer effects of treatment, more impairment of social functioning, increased admissions to emergency department, and higher prevalence of physical comorbidity10,17,18. In addition, it can also cause a significant economic burden to society due to high levels of healthcare consumption, inadequate treatment outcomes, high work absenteeism, and lost productivity18.

Gender differences in MDD in those with AUD

The majority of the participants in this study were males (76.1%). AUD is more common in males than females31. Males are more readily exposed to alcohol than females. They tend to drink more frequently and in greater amounts and this behavior is partly enforced by cultural factors, stigma against women who are drinking alcohol or abusing substances, and underrepresentation of females with AUD in research31,32. However, evidence suggests that the prevalence of AUD is increasing in females and is associated with greater severity of consequences of alcoholism31,32.

In the current study female participants were more than two times likely to develop MDD (AOR=2.19; 95% CI: 1.01–4.75). A similar finding was demonstrated in Thailand by Suttajit et al.33 where females with AUD had increased risk for MDD (OR=4.09; 95% CI: 2.31–7.26) compared to their male counterparts (OR=2.49; 95% CI: 1.76–3.53). There are epidemiological studies supported by genetic studies which suggest that the comorbidity of depression and AUD is more prevalent among females34. Twin studies have also shown a strong association between depression and AUD in females34.

Family history as a risk factor for MDD in those with AUD

According to the present study, participants with a positive family history of psychiatric illness were nearly 5 times more likely to develop MDD (AOR=4.63; 95%CI: 1.17–18.44). This occurrence could be possibly due to genetics. According to Edwards et al.35, genetic hereditability and the occurrence of comorbidity of depression and AUD have been established by family, twin and adoption studies, and the genetic influences account for at least 50% of their phenotypic association. It is associated with earlier onset and recurrent depression, which is greater in severity9. People with alcohol use problems who attempt suicide also tend to have a family history of alcoholism32.

Considering the high prevalence of MDD among AUD patients in our study, healthcare workers (HCWs) across the country are recommended to routinely screen for MDD when they are providing alcohol detoxification to AUD patients. Identified patients with MDD should be administered proper treatment or referrals to higher health centers when indicated. Further, HCWs should focus more on females and people with a family history of psychiatric illness as per our findings.

Strengths and limitations

This study is the first study known to date to examine the prevalence of MDD in AUD patients in Bhutan. The findings of the study could be used as a baseline prevalence for future studies. Owing to the study design, we could not determine the temporal nature and could not establish the causality of the two disorders. Moreover, we recommend conducting further studies to determine the temporal nature and to find out the association between the risk factors identified in this study.

CONCLUSIONS

This study demonstrated a high prevalence of depression in AUD patients, with an overall prevalence of 38%. Female participants and respondents having a positive family history of psychiatric illness were associated with an increased likelihood of developing depression among the AUD patients.