1Department of Family Medicine & Public Health, Sultan Qaboos University Hospital, Muscat, Oman; 2Department of Family Medicine, Ministry of 
Health and 3Department of Family Medicine & Public Health, Sultan Qaboos University, Muscat, Oman
*Corresponding Author’s e-mail: drshs@squ.edu.om 

Depression in Urban Omani Adults with Type 2 
Diabetes

A cross-sectional study

*Sanaa H. Alsumry,1 Tharaya Al Ghelani,2 Sanjay Jaju3

Sultan Qaboos University Med J, February 2022, Vol. 22, Iss. 1, pp. 45–50, Epub. 28 Feb 22
Submitted 7 Sep 20
Revision Req. 15 Oct 20; Revision Recd. 12 Nov 20
Accepted 3 Dec 20

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

https://doi.org/10.18295/squmj.4.2021.065

CLINICAL & BASIC RESEARCH

Depression is a mental health disorder which commonly manifests as symptoms of low mood or sadness, loss of interest and 
pleasure in normal activities or surroundings, decreased 
energy, feelings of guilt or low self-esteem, sleep or 
appetite disturbances and difficulties concentrating.1 
This public health problem is a significant contributor 
to the global burden of diseases; according to the 
World Health Organization (WHO), an estimated 264 
million people worldwide are affected by depression.1,2 
In 2011, results from the World Mental Health Survey 
indicated that approximately one in 20 people had 
experienced a depressive episode in the previous year.1 
Indeed, depression has been identified as the third 
leading cause of disease burden and years lost due to 
disability worldwide.2 

Diabetes mellitus is a chronic metabolic disorder 
which represents the fourth leading cause of disability 
globally.2 Estimates from the WHO indicate that 422 
million adults were affected by diabetes in 2014, with 

the global age-standardised prevalence of this disease 
rising from 4.7% in 1980 to 8.5% in 2014.3 Moreover, 
both diabetes and diabetes-related complications have 
a tremendous financial impact, particularly in low- and 
middle-income countries, both in terms of direct and 
indirect medical costs and premature mortality as well 
as productivity loss and labour market effects.3,4 While 
patients with type 2 diabetes mellitus (T2DM) have a 
24% increased risk of depression compared to non-
diabetic individuals, the mechanisms underlying this 
relationship are still unclear.5,6 In particular, depressive 
symptoms in diabetic individuals have been associated 
with worsened glycaemic control, an increased 
prevalence of diabetes-related complications, 
increased functional disability, lower adherence to 
antidiabetic medications, higher health-related costs 
and increased mortality.7–12 The overall prevalence 
of depression among people with T2DM has been 
reported to be 27%; moreover, in a meta-analysis of 
42 studies comprising 21,351 adults, the prevalence of 

abstract: Objectives: This study aimed to identify the prevalence of clinically significant depression among adult 
Omani patients with type 2 diabetes mellitus (T2DM) and explore potential associations with sociodemographic 
and clinical variables in this population. Methods: This descriptive cross-sectional study was conducted between 
August 2018 and September 2019 and included 427 Omani T2DM patients from 12 randomly selected government 
health centres in Muscat, Oman. An Arabic version of the validated Patient Health Questionnaire-9 was administered 
to the participants via face-to-face interviews to determine the prevalence of depression. Results: A total of 111 
T2DM patients (response rate: 100%) had depression (26%). The presence of a personal history of depression was 
the only variable significantly associated with depression (P <0.001). Other sociodemographic and clinical factors 
including age, gender, duration of diabetes, glycated haemoglobin level, mode of diabetes treatment or the presence of 
diabetes-related complications such as cardiac complications, renal impairment, retinopathy, neuropathy and erectile 
dysfunction, were not associated with depression, (P >0.050 each). Conclusion: This study revealed a high prevalence 
of depression among urban Omani adults with T2DM and a personal history of depression, which was found to be 
significantly associated with depression. Therefore, early screening for depressive symptoms is necessary to improve 
the quality of life of diabetic patients in this region. 

Keywords: Depression; Type 2 Diabetes Mellitus; Prevalence; Public Health; Primary Healthcare; Oman.

Advances in Knowledge
- Depression was found to be common among urban Omani adults with type 2 diabetes mellitus.
- Moreover, a personal history of depression was the only factor found to be significantly associated with depression in the studied cohort.

Application to Patient Care
- In light of these findings, early detection and intervention tools should be implemented in diabetic clinics in Oman in order to help 

counteract the high prevalence of depression among diabetic individuals and improve their quality of life.

https://creativecommons.org/licenses/by-nd/4.0/


Depression in Urban Omani Adults with Type 2 Diabetes 
A cross-sectional study

46 | SQU Medical Journal, February 2022, Volume 22, Issue 1

major depression in people with diabetes was 11.4%, 
while the prevalence of clinically significant depressive 
symptoms was 31%.13

Over the last few decades, the burden of diabetes 
has risen dramatically in Oman (i.e., from 8.3% in 
1991 to 11.6% in 2000).14 Alarmingly, the number of 
individuals living with diabetes in Oman is predicted 
to further increase by 174% from 128,769 in 2015 
to 352,156 in 2050.15 Depression among those with 
diabetes would most likely lead to poor adherence 
to medical treatment, thus further increasing the 
economic burden of this disease. A previous study 
showed the overall prevalence of depression to be 
8.1% among urban Omani adults attending primary 
healthcare clinics in Muscat for various reasons; 
however, while the study highlighted the co-existence 
of depression with chronic physical illnesses, it failed 
to show a clear association due to the limited number 
of subjects with chronic diseases (P = 0.19).16  A 
meta-analysis revealed depression to be a significant 
comorbidity among a cohort of Arab women with 
T2DM, including Omanis.17

To the best of the authors’ knowledge, no studies 
have yet been conducted in Oman to identify the 
prevalence of depression among Omani diabetic 
patients. Hence, this study aimed to determine the 
prevalence of depression among a population of 
Omani adults with T2DM attending randomly selected 
governmental diabetic clinics in an urban region. 
Additionally, this study aimed to identify associations 
between depression and sociodemographic and clinical 
variables in order to inform the development and 
implementation of early detection and intervention 
tools so as to improve the quality of life of this group. 
As the Ministry of Health in Oman provides free 
treatment to all citizens, the care of diabetes-related 
complications represents an increasing financial 
burden. It is, therefore, imperative to conduct local 
studies for the benefit of policy-planners to further 
strengthen measures to tackle the rising impact of 
non-communicable diseases.

Methods 

This descriptive cross-sectional study was conducted 
from August 2018 to September 2019 at a random 
selection of 12 out of 30 governmental primary 
healthcare centres in the Muscat Governorate, Oman. 
All patients with T2DM attending the diabetes clinics 
of these health centres during the aforementioned 
period were included. However, patients with major 
mental illnesses and those who were deaf and mute, 
currently taking antidepressants, pregnant or less than 
six months postpartum were excluded from the study. 

The necessary sample size was calculated to be 384 for 
a single proportion using nMaster software, Version 
2.0 (Department of Biostatistics, Christian Medical 
College, Vellore, India), based on a documented 
depression prevalence rate of approximately 50% and 
at a confidence level of 95% and relative precision of 
5%.18 However, in order to account for a presumed 
non-response rate of 10%, the desired sample size was 
set at 422.

Data were collected from the patients at the 
selected health centres during face-to-face interviews 
performed by several trained research assistants. A 
previously translated Arabic version of the Patient 
Health Questionnaire (PHQ)-9 was used to assess 
the prevalence of depression.19 The original PHQ-9 
is a valid and reliable tool for depression screening 
which focuses on nine specific symptoms and signs 
of depression based on criteria proposed by the fifth 
edition of the Diagnostic and Statistical Manual 
of Mental Disorders, including loss of interest/
pleasure, low mood/hopelessness, sleeping difficulty, 
loss of energy, changes in appetite, feelings of guilt/
worthlessness, difficulty concentrating, feelings of 
being slow/restless and suicidal ideation.20 In-line 
with previous research, a cut-off score of ≥10 was 
considered to indicate the presence of a depressive 
disorder.21 The information provided by the patients 
during the face-face interviews was subsequently 
verified with their medical records and medication 
lists using the standard electronic healthcare software 
used in Oman.

Data were analysed using the Statistical Package 
for the Social Sciences (SPSS), Version 23.0 (IBM 
Corp., Armonk, New York, USA). As appropriate, Chi-
squared or Fisher’s exact tests were used to compare 
differences in proportion between groups. A univariate 
analysis was performed to determine associations 
between depression and various sociodemographic 
and clinical variables. All statistical tests were two-
sided. A P value of <0.05 was considered statistically 
significant.

Ethical approval for this study was obtained from 
the regional research committee of the Directorate 
General of Planning and Studies at the Ministry of 
Health in Muscat (MH-DGSP-14/2018). The purpose 
of the study was explained beforehand to the patients, 
all of whom provided written informed consent prior 
to participation.

Results

A total of 427 patients (response rate: 100%) with 
type 2 diabetes mellitus (T2DM) were included in 
the study. According to their total PHQ-9 scores, 111 



Sanaa H. Alsumry, Tharaya Al Ghelani and Sanjay Jaju

Clinical and Basic Research | 47

patients (26%) were found to have depression, while 
316 (74%) were not depressed. Among those who were 
depressed, 55 (49.5%) were male and 56 (50.4%) were 
female, whereas 152 (48.1%) were male and 164 (51.9%) 
were female in the non-depressed group [Figure 1].

Depression was most prevalent among those 
aged 30–40 years and least prevalent among those 
aged 51–60 years (36.2% versus 21.3%). However, the 
presence of a personal history of depression was the 
only variable significantly associated with depression 
(P <0.001). No significant associations were observed 
between other sociodemographic characteristics and 
depression, including gender (P = 0.79) or age (P = 0.056) 
[Table 1]. 

In terms of clinical characteristics, the rate of 
depression was highest among patients who had had 
diabetes for more than 10 years (27.5%). However, 
the difference between the two groups was not 
statistically significant (P = 0.54). Depression was also 
not significantly associated with diabetes control as 
measured by the glycated haemoglobin (HbA1C) level 
(P = 0.06). Similarly, no significant associations were 
noted between depression and other clinical factors, 
such as the presence of various diabetes-related 
complications, body mass index or mode of anti-
hyperglycaemic treatment [Table 2]. 

Discussion

Depression can be reliably diagnosed and treated 
in primary care settings, with standard treatment 
consisting of basic psychological support combined 
with antidepressant medications or psychotherapy, 
such as cognitive behavioural therapy, interpersonal 
psychotherapy or problem-solving treatment.22 
However, many primary care patients presenting 
with multiple disorders including depression often 
go undiagnosed; moreover, even if depression is 
recognised, treatment is usually prioritised for other 
diseases.23 Results from the World Health Survey 

Table 1: Prevalence of depression according to demographic 
characteristics among urban Omani adults with type 2 
diabetes from Muscat Governorate, Oman (N = 427)
Characteristic Total n (%) P 

value
Depressed 
(n = 111)

Not 
depressed 
(n = 316)

Age in years 0.056

30–40 47 17 (36.2) 30 (63.8)

41–50 89 29 (32.6) 60 (67.4)

51–60 127 27 (21.3) 100 (78.7)

>60 164 38 (23.2) 126 (76.8)

Gender 0.79

Male 207 55 (26.6) 152 (73.4)

Female 220 56 (25.5) 164 (74.5)

Education level 0.92

Illiterate 181 44 (24.3) 137 (75.7)

Primary 98 26 (26.5) 72 (73.5)

Secondary 93 26 (28.0) 67 (72.0)

University and 
above

55 15 (27.3) 40 (72.7)

Marital status 0.64

Single 19 9 (47.4) 10 (52.6)

Married 311 75 (24.1) 236 (75.9)

Divorced 23 9 (39.1) 14 (60.9)

Widowed 74 18 (24.3) 56 (75.7)

Presence of parental consanguinity 0.14

None 261 76 (29.1) 185 (70.9)

First-degree 119 27 (22.7) 92 (77.3)

Second-degree 47 8 (17.0) 39 (83.0)

Employment status 0.72

Employed full-
time

94 25 (26.6) 69 (73.4)

Employed 
part-time 

27 10 (37.0) 17 (63.0)

Unemployed 9 3 (33.3) 6 (66.7)

Business 
owner

17 4 (23.5) 13 (76.5)

Housewife 173 40 (23.1) 133 (76.9)

Retired 107 29 (27.1) 78 (72.9)

Personal history of depression 0.00

Yes 51 33 (64.7) 18 (35.3)

No 376 78 (20.7) 298 (79.3)

Family history of depression 0.57

Yes 39 17 (43.6) 22 (56.4)

No 388 94 (24.2) 294 (75.8)

Family history of major disability or illness 0.05

Yes 64 29 (45.3) 35 (54.7)

No 363 82 (22.6) 281 (77.4)

Regular physical activity 0.098

Yes 162 42 (25.9) 120 (74.1)

No 265 69 (26.0) 196 (73.9)

Smoking status 0.11

Smoker 35 13 (37.1) 22 (62.9)

Non-smoker 392 98 (25.0) 294 (75.0)

Figure 1: Chart showing the prevalence and severity of 
depression according to gender among urban Omani 
adults with type 2 diabetes from Muscat Governorate, 
Oman (N = 427).



Depression in Urban Omani Adults with Type 2 Diabetes 
A cross-sectional study

48 | SQU Medical Journal, February 2022, Volume 22, Issue 1

confirmed that depression had a stronger negative 
influence on health status compared to other chronic 
diseases; as such, the timely diagnosis and treatment of 
depressive disorders is imperative.24

The current study found the rate of depression 
to be 26% among adult Omani patients with T2DM 
attending urban primary health centres. Other studies 
conducted in the Gulf Cooperation Council (GCC) 
region have reported similar findings. For instance, 
Nasser et al. reported a comparable rate (33%) 
among primary care diabetic patients in Bahrain.25 

Alzahrani et al. observed the rate of depression to 
be 33.8% among 450 patients with T2DM attending 
primary health centres in western Saudi Arabia, with 
similar findings reported in central Saudi Arabia 
(34.8%).26,27 Alarmingly, the prevalence of depression 
in the present study was more than twice that noted 
among other urban Omani adults attending primary 
health clinics (26% versus 8.1%).16 A meta-analysis also 
revealed an increased prevalence of depression among 
diabetic patients compared to the general population 
(31% versus 11%).13

However, much higher prevalence rates of 
depression have been reported among other diabetic 
populations in GCC countries. For instance, in eastern 
Saudi Arabia, the prevalence of depression among 
individuals with T2DM was 49.6%, with depression 
significantly associated with gender, marital status and 
diabetes-related complications.18 In addition, a study 
conducted in southern Saudi Arabia reported 37.6% 
of those with T2DM to be depressed, a finding which 
was also significantly associated with complications.28 
In contrast, in the United Arab Emirates (UAE), 
Sulaiman et al. found the prevalence of depression 
or anxiety to be only 12.5% among T2DM patients 
attending diabetes clinics at primary care centres 
or hospitals in Sharjah; however, this study utilised 
the Kessler Psychological Distress scale rather than 
the PHQ-9 tool to assess mental health status.29 The 
differing prevalence rates of depression could be 
explained by variations in study methods and sample 
characteristics. 

In the current study, various sociodemographic 
factors—including age, gender, educational level, 
marital status, monthly income and a family history 
of major illness—were not found to have a significant 
influence on the rate of depression. Albasheer et 
al. reported similar findings in Saudi Arabia.28 No 
significant associations between depression and 
clinical variables such as diabetes duration were 
observed in the present study. This is consistent with 
results reported by studies from eastern and southern 
Saudi Arabia.19,28 This could be attributed to cultural, 
religious and ethnic differences. The current study 
also showed no significant associations with diabetes 
control (as represented by HbA1C values) or with 
diabetic micro- and macro-vascular complications. 
Similar findings were noted by Albasheer et al. in 
southern Saudi Arabia.28 In contrast, Sulaiman et al. 
found the presence of ocular, vascular and neurological 
diabetes-related complications such as diabetic 
retinopathy, glaucoma and diabetic foot disease to be 
significantly associated with psychological symptoms 
of depression and anxiety among T2DM patients in 
the UAE.29 Comparable findings were also reported 

Table 2: Prevalence of depression according to clinical 
characteristics among urban Omani adults with type 2 
diabetes (N = 427)

Characteristic Total n (%) P 
value

Depressed 
(n = 111)

Not 
depressed 
(n = 316)

Duration of DM in years 0.54

<1 31 6 (19.4) 25 (80.6)

1–5 134 35 (26.1) 99 (73.9)

6–10 102 26 (25.5) 76 (74.5)

>10 160 44 (27.5) 116 (72.5)

HbA1C in % 0.06

≤7 182 43 (23.6) 139 (76.4)

7.1–8.9 149 34 (22.8) 115 (77.2)

≥9 96 34 (35.4) 62 (64.6)

Body mass index in kg/m2 0.35

≤25 99 25 (25.3) 74 (74.7)

26–29 136 30 (22.1) 106 (77.9)

≥30 192 56 (29.2) 136 (70.8)

Mode of DM treatment 0.24

Oral 314 76 (24.2) 238 (75.8)

Injection 39 10 (25.6) 29 (74.4)

Oral plus 
injection 

74 25 (33.8) 49 (66.2)

Complications*

Diabetic foot 14 4 (28.6) 10 (71.4) 0.81

Cardiac or 
vascular 

61 17 (27.9) 44 (72.1) 0.72

Renal 
impairment 

73 21 (28.8) 52 (71.2) 0.61

Neuropathy 22 7 (31.8) 15 (68.2) 0.52

Retinopathy 105 28 (26.7) 77 (73.3) 0.86

DM = diabetes mellitus; HbA1c = glycated haemoglobin.
*Some participants had no complications while others had more than 
one complication. 



Sanaa H. Alsumry, Tharaya Al Ghelani and Sanjay Jaju

Clinical and Basic Research | 49

by other researchers.28 This could be explained by 
the difference in study settings, as primary care 
centres usually ensure continuity of care and provide 
specialised diabetes-related services. This level of 
medical support could help patients adapt more easily 
to disease complications, thereby potentially lessening 
the likelihood of depression.

Overall, the presence of a personal history of 
depression was the only variable significantly associated 
with depression in the current study. This could point 
to an effect of inherited genes on the development of 
depression. However, no significant associations were 
noted for other potential genetic factors, such as the 
presence or absence of consanguinity or a family history 
of depression. As such, further research is required to 
confirm these findings. In the meantime, early point-
of-care screening is recommended to evaluate the 
occurrence of depressive symptoms among diabetic 
individuals in Oman in order to improve the quality of 
life of this patient group. 

In terms of limitations, the present study was 
conducted in a single governorate of Oman, thereby 
hindering generalisation of the results. Further studies 
involving additional patients attending primary health 
clinics in other parts of the country are necessary. 
Moreover, the PHQ-9 questionnaire used in the study 
was not the latest version of this tool; nevertheless, 
this version was used in order to compare findings 
with previous studies available in the existing 
literature. Additionally, as a multivariate regression 
analysis was not conducted, the study could only 
identify associations between variables and potential 
confounders could not be ruled out. In addition, while 
the information provided by the patients during the 
face-to-face interviews was corroborated with their 
medical records, it is possible that the findings were 
subject to self-reporting bias. Finally, all of the subjects 
consisted of diagnosed T2DM cases with health issues 
of sufficient severity to involve seeking treatment 
at a clinic. Additional studies may be necessary to 
determine whether depression is similarly high among 
undiagnosed diabetics in the general population or 
among those with less severe or overt symptoms. 
Despite these limitations, this study is the first in the 
country to identify the prevalence of depression among 
Omani diabetic patients. This information would be of 
use in the development and implementation of early 
detection and intervention tools to help counteract the 
high prevalence of depression in this group.

Conclusion

In primary care settings, depression among patients 
with type 2 diabetes mellitus (T2DM) often goes 

unnoticed and, therefore, untreated. This study 
revealed a fairly high prevalence of depression among 
a cohort of urban Omani adults with T2DM, with a 
personal history of depression found to be the only 
variable significantly associated with depression in 
this group. Accordingly, early screening for depressive 
symptoms is highly recommended in order to improve 
the quality of life of these patients. 

c o n f l i c t o f i n t e r e s t
The authors declare no conflicts of interest. 

f u n d i n g

This study was funded by the Deanship of Research 
at Sultan Qaboos University (Budget ID: IH25051905). 

a c k n o w l e d g e m e n t s

The authors extend their sincere gratitude to the 
patients who participated in this study as well as the 
research assistants for their help in conducting the 
interviews and collecting data.

a u t h o r s’ c o n t r i b u t i o n
SHS performed the literature review. SHS and TG 
collected the data. SJ analysed the results. SHS drafted 
the manuscript. All authors approved the final version 
of the manuscript.

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