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. 2018 Oct 18;18:338. doi: 10.1186/s12888-018-1911-8

Prevalence of depression and associated factors among older adults at ambo town, Oromia region, Ethiopia

Yohannes Mirkena 1, Mebratu Mitiku Reta 2,, Kibrom Haile 3, Zebiba Nassir 3, Malede Mequanent Sisay 4
PMCID: PMC6194620  PMID: 30336773

Abstract

Background

Depression is an important public health concern due to its devastating morbidity and mortality among older adults. The aim of this study was to assess the prevalence of depression and associated factors among older adults (age ≥ 60 years) in Ambo Town, Ethiopia, 2016.

Methods

A community-based cross-sectional study was conducted among older adults in Ambo town from May to June 2016. Geriatric depression scale item 15 (GDS 15) was used to conduct face-to-face interviews with 800 study participants. Data were entered into Epi Info version 7 and analyzed using SPSS version 20. Descriptive statistics and multivariable logistic regression analysis were employed. Adjusted odds ratio (AOR) with a 95% confidence interval was used to calculate significance.

Results

The prevalence of depression was found to be 41.8% [CI = 38.5%, 45.5%]. The multivariable logistic regression model revealed that female sex (AOR = 1.72; 95% CI = 1.12, 2.66), trading (AOR = 2.44; 95% CI =1.32, 4.57), living with children (AOR = 3.19, 95% CI =1.14, 8.93) and retirement (AOR = 3.94, 95% CI = 2.11, 7.35) were associated with depression among older adults.

Conclusion

The prevalence of depression among older adult was found to be high. Due emphasis needs to be given to screening and treating depression, especially among older females, retired individuals, adults living with children and merchants.

Keywords: Prevalence, Depression, Older adults, Ethiopia

Background

Depression is a common mental health disorder in late-life and an important public health problem because of its devastating consequences at any given time in a community. Its recent global prevalence was 4.4% [1, 2]. Among all mentally ill individuals, 40% were diagnosed to have a depressive disorder [3]. Depression was the second global disease burden in 2010 and it is projected to be the first cause of years lived with disability (YLD) in 2020 [4]. It has been increasing in terms of both disability and mortality rates around the world. People with the depressive disorder have a 40% greater chance of premature death than their counterparts. The World Health Organization (WHO) estimated that the global depressive disorder among older adults ranged between 10 and 20%, depending on cultural situations; it affected nearly 300 million people in 2015 [58].

A community-based study done on an elderly population reported that depression was the most common mental health disorder in later life [9]. Although old age is not necessarily a time of sadness and depression, some elderly people face challenges that can be difficult to cope with effectively and experience distress, anxiety, demoralization, and loneliness. Most of the time, the clinical picture of depression in old age is masked by memory difficulties with distress and anxiety symptoms; however, these problems are actually secondary to depression [1012]. Moreover, more older adults commit suicide, often through such indirect means as self-induced starvation or dehydration or failure to take medications prescribed for different reasons in the community [13, 14]. A population-based study showed that depression amplifies the functional disabilities caused by physical illness, interferes with treatment and rehabilitation and further contributes to a decline in physical and cognitive functioning of a person [15, 16]. It also has an economic impact on older adults due to its significant contribution to the rise of direct annual livelihood cost [17].

Several community-based studies showed that older adults experienced depression related complications, especially in low-income countries like Ethiopia [1, 1821]. In addition, compared with other health services, evidence of depressive disorders tends to be relatively poor. Thus, the level of its burden among older adults is not well addressed in Ethiopia. Lack of adequate evidence about depression in older adults may be a factor that contributes to poor or inconsistent mental health care at community level [8, 22]. Therefore, the aim of this study was to investigate the prevalence of depression and associated factors among older adults in Ambo town, Oromia Region, Ethiopia.

Methods

Study design and setting

A community-based cross-sectional study was conducted in Ambo town, Oromia region, Ethiopia. The estimated number of households and the total number of the population in the town were 16,471 and 79,059 respectively, of which 39,553 (50.03%) were males. The town had one government hospital with a psychiatry clinic, which serves as an outpatient department. In addition, the town has 2 health centers, 3 health posts, 13 mediums, and 6 junior private clinics. However, none of these provides mental health care to the community. Older adults aged 60 years and above who were present at a time of data collection participated in the study. The United Nations uses 60 years to define old age and recommends the age range of 50 to 65 years to be used as cut off point by countries; additionally, the settings and contexts of countries play roles in determining old age [23]. In Ethiopia, old age starts at 60 the retirement age [24]. Householders from the selected zones who lived in the town for at least 6 months were eligible to participate. Those who were unable to communicate due to severe illness (individuals with hearing loss and aphasia, or difficulty to respond due to illness) were excluded from the study.

Sample size and sampling procedure

The sample size was determined by using the single population proportion formula with the assumption prevalence (P) of depression, 47.5% of a study in Sudan [25], a 95% confidence interval and a 5% margin of error. The minimum sample size (n) required for the study was calculated by using a design effect of 2 and a 10% non-response rate. With this, the total sample size was found to be 844. The multi-stage sampling technique was used to select participants with the assumption of a homogenous population. The town had three sub-cities, each composed of different zones. Two sub-cities were selected by the lottery method and clustered into 18 zones. Forty percent of the zones and their households were also selected by the lottery method and every household in the selected zones was visited to interview participants.

Data collection tools and procedures

Socio-demographic characteristics, substance use, clinical and psychosocial characteristics of older adults were collected through interviews. Substance use was assessed if the participant used substances like alcohol, khat, cigarettes and/or hashish in the preceding last 3 months. We also assessed clinical conditions that might contribute to depressions such as hypertension, diabetes and heart diseases. Geriatric Depression Scale item 15 (GDS-15) was used to assess the presence of depression among older adults. GDS item 15 has been extensively tested and validated in low and middle-income countries such as India, Nepal and other Asian countries [2628]. This geriatric depression scale has been suggested by the Royal College of Physicians, the British Geriatric Society and the Royal College of general practitioners; the scale was recommended for screening depression in older people [29]. Depression was considered using a cutoff point greater than or equal to five. The Oslo-3 Social Support Scale (OSS-3) was used to collect social support characteristics. By adding the three items, those with 3–8 values were considered to have poor social support, while those with 9–11 and 12–14 values were considered to have intermediate and strong social support respectively. For this study, two different language experts translated the questionnaire from English into Afan Oromo and back to English to ensure consistency. A one day training was given to data collectors and the supervisor on basic data collection and interviewing techniques.

Data processing and analysis

The completed questionnaire was manually checked for completeness. Then, it was coded and entered into Epi-Info version 7 and exported to SPSS version 20 for further analysis. Descriptive and summary statistics were used to explain the population with respect to the relevant variables. Variables with less than 0.2 p-value in the bivariate analysis were fitted to the multivariable logistic regression. Odds ratio with 95% CI were calculated and statistical significance was considered at P-values < 0.05 in the multivariable logistic regression.

Results

Socio-demographic characteristics of participants

A total of 800 participants were involved with a response rate of 94.8%. More than half (55%) were male. The mean age of the participants was 66.69 (SD ± 6. 18) years. Nearly half, 359 (44.9%) were married and living with their spouses, while 174 (21.8%) were living only with their children. More than half, 437 (54.6%) of the participants had a secondary or higher level of education. Among the respondents, 569 (71.1%) were Orthodox Christians. One-third of the respondents were daily laborers. Of the respondents, 103 (12.9%) and 102 (12.8%) were merchants and retired people, respectively (Table 1).

Table 1.

Socio-demographic characteristics of older adults at Ambo Town, Oromia region, Ethiopia, 2016 (n = 800)

Variables Categories Prevalence Depression Frequency Percent
Yes No
Sex Female 0.46 167 193 360 45.0
Male 0.38 167 273 440 55.0
Age 60–64 0.28 103 271 374 46.8
65–69 0.44 95 119 214 26.8
70–74 0.59 68 47 115 14.4
75+ 0.70 68 29 97 12.0
Ethnicity Oromo 0.39 266 413 679 84.9
Amhara 0.55 57 46 103 12.9
Othersa 0.61 11 7 18 2.2
Educational Status Secondary & above 0.37 162 275 437 54.6
Primary 0.55 128 105 233 29.1
Not Educated 0.42 44 86 130 16.3
Marital Status Married 0.36 128 231 359 44.9
Widowed 0.39 129 201 330 41.2
Single 0.64 7 4 11 1.4
Separated/ divorced 0.70 70 30 100 12.5
Religion Orthodox 0.34 196 373 569 71.1
Protestant 0.59 99 68 167 20.9
Othersb 0.61 39 25 64 8.0
Occupation Employed (Government & private organizations) 0.32 38 79 117 14.5
Retired 0.71 72 30 102 12.8
merchant (self-employed) 0.59 61 42 103 12.9
Housewife 0.43 91 123 214 26.8
Jobless and Daily laborer 0.27 72 192 264 33.0
Income (EBR) <735 0.41 70 101 171 21.4
735–1176 0.43 209 281 490 61.2
>1176 0.40 55 84 139 17.4
Living arrangement Spouse 0.35 125 230 355 44.4
Children 0.75 130 44 174 21.8
Alone 0.37 56 94 150 18.8
Othersc 0.19 23 98 121 15.1
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aTigre, Gurage bMuslim, Catholic, Wakefata, crelatives

The majority, 743 (92.9%) of the respondents had no known self or family history of mental illness. Four hundred forty-nine (56.1%) had a history of other medical illnesses, of which 171 (38%) were diabetic. Less than half of the participants, 356 (44.5%) had strong social support, while 223 (27.9%) had poor help (Table 2). The prevalence of depression among older adults was found to be 41.8% [95% CI (38.5, 45.5)].

Table 2.

Clinical, social support and substance use of the study participants at Ambo Town, Oromia region, Ethiopia, 2016 (n = 800)

Variables Frequency (n) Percentages (%)
Mental illness Yes 57 7.1
No 743 92.9
Family history of mental illness Yes 61 7.6
No 739 92.4
Medical illness Yes 449 56.1
No 351 43.9
Social support poor 223 27.9
Intermediate 221 27.6
Strong 356 44.5
Substance use (current) Yes 134 16.8
No 666 83.2
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Factors associated with depression

This study showed that retirement, living with children, trading and female sex were significantly and independently associated with depression. However, depression had no significant association with income, substance use, clinical and psychosocial characteristics. Elderly female were 1.7 times more likely to have depression compared to males [AOR = 1.72, 95% CI (1.12, 2.66)]. Retired older individuals were almost four times more likely to have depression than their counterparts [AOR = 3.94, 95% CI (2.11, 7.35)]. Older merchants were 2.4 times more likely to be depressed than employees [AOR = 2.44, 95% CI (1.32, 4.57)]. Older individuals living with children were 3.2 times more likely to have depression than those living with their spouses [AOR = 3.19, 95% CI (1.14, 8.93)] (Table 3).

Table 3.

Multiple Logistic regression analysis of depressive disorder among older adults at Ambo Town, Ethiopia, 2016 (n = 800)

Variables Categories Depression (n = 800) COR (95% CI) AOR (95% CI) P value
Yes No
Sex Female 167 193 1.41 (1.07,1.88) 1.72 (1.12,2.66) 0.013
Male 167 273 1 1
Marital status Married 128 231 1 1
Widowed 129 201 1.16 (0.85,1.58) 1.28 (0.45,3.63) 0.52
Single 77 34 3.16 (0.91,10.00) 4.78 (0.95,23.99) 0.049
Separated/divorced 70 30 4.21 (2.61,6.80) 2.75 (0.92,8.24) 0.29
Education Secondary and above 162 275 1 1
Primary 128 105 2.07 (1.50,2.86) 1.24 (0.80,1.92) 0.15
Not educated 44 86 0.87 (0.58,1.31) 0.69 (0.39,1.21) 0.209
Occupation Employed (Government & Private Organization) 38 79 1 1
Retired 72 30 4.99 (2.81,8.87) 3.94 (2.11,7.35) <0.001
Merchant (Self-employed) 61 42 3.02 (1.74,5.24) 2.44 (1.32,4.57) 0.009
Housewife 91 123 1.54 (0.96,2.47) 0.86 (0.44,1.67) 0.712
Othersa 72 192 0.78 (0.49,1.25) 0.92 (0.50,1.69) 0.701
Living arrangement Spouse 125 230 1 1
Children 130 44 5.44 (3.63,8.15) 3.19 (1.14,8.93) 0.028
Othersb 79 192 0.76 (0.54,1.06) 0.57 (0.20,1.64) 0.281
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ajobless, daily laborer, balone, relatives

Discussion

In this study, the prevalence of depression among older adults was 41.8% [95% CI: 38.5%, 45.5%]. The finding was in line with that of a community based cross-sectional study done in Sudan (41.1%) [25], Saudi Arabia (39%) [30] and India (42.7%) [31]. However, this finding was higher than the finding of a systematic review in a Caucasian population, where 1 to 16% of the older adults had depression according to both community and institution based study [32]. This variation may be due to the difference in study areas and socioeconomic status of participants. Conversely, our finding is in line with the finding of a systematic review done on a hospitalized Caucasian population, where 14–42% had depression. The finding of this study is also higher than the finding of a community-based survey in Thailand, where a 12-item questionnaire of Thai validated Euro-Depressions scale was used and a 28.5% depression prevalence was noted in old age [33]. The difference could be due to variations in the tools used to screen depression. This result is also higher than that of a meta-analysis conducted in nine European countries, where a pooled prevalence of depression was 12.3% in older adults [34]. This disparity may be due to social-cultural and economic difference. Again, the finding is also higher than that of a community-based survey conducted in Singapore (13.4%) [35]. The variation may be due to differences in tools, since the study in Singapore used the Geriatric Mental State (GMS) to screen depression. Moreover, compared to an institution based study in Saudi (17%), our finding is higher [36]. This discrepancy may be due to the difference in the tool they used, the study setup and socio-cultural variations among the study participants. This finding is also higher than that of a community-based study in India (12.7%) and Mexico (23.7%) [37, 38]. Again, this variation may be due to differences in tools used to measure depression. Geriatric depression (ICD-10) and the seven-item version of the Center for Epidemiologic Studies Depression Scale (CES-D) were used in India and Mexico, respectively, beside the socio-cultural and economic differences. The finding of our study was also higher than the finding in the Netherlands (14.9%) [39]. The possible reason may be the difference in the tool they used and socioeconomic variations. In addition, ages 55–85 were included in the Netherland study, whereas age 60 and above were used as a cutoff point in our study. Our finding was higher than the finding of a community-based study conducted among South African older adults 4% [40]. This variation may be due to differences in age of participants in addition to the socio-cultural variations. In the South African study, ages 50 and older were included. The finding of our study was lower than those of other institutions based cross-sectional studies done in Brazil, India, Portugal, and elderly Japanese which reported 49.76%, 53.75%, 61.40% and 57.2%) respectively [4143]. This variation may be due to the differences in the study setups. The elderly people living in institutions could be more depressing due to changes in the environment after living in private dwelling for a long time. Like our study, research in low and middle income countries (Sudan, Saudi Arabia, India) showed a higher prevalence of depression among the elderly than among the upper-middle and high income countries such as South Africa, Thailand, Singapore, Mexico, and the Netherlands [25, 30, 33, 35, 3840]. This variation may be due to the impact of socioeconomic status; additionally, people in developed countries may have more access to mental health care and support before they develop problems. Previous studies also revealed that the associations between socio-demographic characteristics and depression among older adults were based on gender, marital status, and occupation [25, 44, 45]. The finding of this study also indicates supports that the same socio-demographic characteristics are significantly and independently associated with depression. Elderly female adults were 1.7 times more likely to have depression than males (AOR = 1.72, 95% CI: 1.12, 2.66). This was in line with the finding in Sudan, Saudi Arabia and India, where females were more affected by depression than males [25, 30, 36, 42, 46]. In addition, this finding was also supported by a systematic review and meta-analysis conducted in 2003 [47]. This finding was also supported by that of another cross-sectional study conducted in Italy [48]. This may be because women bear the burden of household responsibilities in addition to their economic dependency on men, especially in low-income countries.

Retirement was significantly associated with depression in older adults. Retired older adults were 4 times more likely to have depression compared to elderly working individuals [AOR = 3.94, 95% CI (2.11, 7.35)]. This is in line with the finding of a household survey in Sudan, Khartoum [49]. The result was also supported by the finding of a Korean Longitudinal Study of Aging [50]. This may be because retired individuals may not have adequate opportunity to interact with other people to share ideas and feelings. Elderly people may feel like they are isolated and have no support. Furthermore, such feelings might contribute to the development of depression.

Merchant older adults were 2.4 times more likely to develop depression than government employees [AOR = 2.44, 95% CI (1.32, 4.57)]. This was in line with a finding in Malaysia [51]. This may be due to the nature of the work, which involves economic uncertainty. Additionally, depression may visit the elderly when they try to manage their businesses based on their own and work to sustain their business even after they no more able to do so. This study also found that older adults who were living with their children were 3.2 times more likely to develop depression compared to those living with spouse [AOR = 3.19, 95% CI (1.14, 8.93)]. This is supported by another study conducted in India [42] showing that feelings of dependency may lead to the development depression. In previous studies, self and family history of mental illness, the absence of formal education and low income were significantly associated with older adult depression [44, 52, 53]. In this study, however, these variables had no significant association with such depression. Other studies also showed that being single, separation and divorce were significantly associated with older adult depression, but in our study, these variables had no statistically significant association [25, 54]. The disparity could be due to differences in sampling techniques, sample size, measurement tools and other socio-cultural variations among participants.

Conclusion

The finding of this study showed that the prevalence of depression among older adults was high. Retirements, merchant in occupation, living with children and female sex were significantly associated with depression. Greater emphasis has to be given in identifying and treating depression, especially the retired adults, merchants, adults living with children and females. Further studies with solid study design and other important variables need to be considered.

Acknowledgments

We acknowledge all staff of Amanuel Mental Specialized Hospital and College of Medicine and Health Sciences, University of Gondar. In addition, Ambo town Administrative Office, data collectors, and all the study participants are highly acknowledged.

Funding

This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. Nevertheless, Amanuel Mental Specialized Hospital and the University of Gondar as a grant for staff provided financial backing. The funder has no role in the publication process.

Availability of data and materials

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Abbreviations

ADLs

Activities of Daily Living

AOR

Adjusted Odds Ratio

COR

Crude Odds Ratio

CTIDHM

Clinical Tropical Infectious Disease and HIV Medicine

DALYs

Disability Adjusted Life Years

GDS

Geriatric Depression Scale

ICCMH

Integrated Clinical and Community Mental Health

LAMIC

Low and Middle-Income Countries

MDD

Major Depressive Disorder

SPSS

Statistical Package for Social Science

UAE

United Arab Emirates

UK

United Kingdome

UN

United Nation

WHO

World Health Organization

YLD

Years Lived with Disability

Authors’ contributions

YM and MMR wrote the proposal, participated in data collection, did the analysis and wrote the manuscript. KH, ZN, and MMS approved the proposal with some revisions, participated in data analysis, revised subsequent drafts of the paper and participated in manuscript preparation. All authors read and approved the final manuscript.

Ethics approval and consent to participate

Ethical clearance was obtained from the Amanuel Mental Specialized Hospital and the University of Gondar Institutional Review Board following the Ethiopian National Research Ethics Review Guideline of the Federal Ministry of Science and Technology. A permission letter was obtained from the Oromia Regional Health Bureau and Ambo Administrative Offices. Participants were fully informed about the purpose of the study ahead of the interview and informed verbal consent was obtained from them.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Contributor Information

Yohannes Mirkena, Email: yohannesmirkena@gmail.com.

Mebratu Mitiku Reta, Email: mebratumitiku@yahoo.com, Email: mebretann16@gmail.com.

Kibrom Haile, Email: kibromhaile10@yahoo.com.

Zebiba Nassir, Email: zebibanassir@yahoo.com.

Malede Mequanent Sisay, Email: maledecsa@gmail.com.

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Data Availability Statement

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

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