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Depression among TB patients and associated factors in Kathmandu Valley, Nepal

Published online by Cambridge University Press:  22 January 2020

P. Shrestha*
Affiliation:
Health Research and Social Development Forum (HERD), Thapathali, Kathmandu, Nepal Clinical Psychology, Department of Psychology and Philosophy, Tri Chandra Multiple Campus, Kathmandu, Nepal
U. K. Subba
Affiliation:
Department of Psychology and Philosophy, Tri Chandra Multiple Campus, Kathmandu, Nepal
M. Brouwer
Affiliation:
PHTB Consult, Public Health and Tuberculosis Control, Tilburg, Netherlands
A. C. Sweetland
Affiliation:
Department of Psychiatry, Columbia Vagelos College of Physicians and Surgeons/New York State Psychiatric Institute, New York, USA
*
Author for correspondence: P. Shrestha, E-mail: [email protected]
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Abstract

Introduction

When tuberculosis (TB) and depression co-occur, there is greater risk for comorbidities, disability, suffering, and health-related costs. Depression is also associated with poor treatment adherence in patients with TB. The major aim of this study was to assess the symptoms of depression and associated factors among TB patients currently receiving directly observed treatment short-course (DOTS) treatment.

Methods

A cross-sectional study was conducted among TB patients currently undergoing treatment in 27 DOTS centers in three districts of Kathmandu Valley. The study included 250 TB patients within 2 months of treatment initiation, aged 18 years and above. The previously validated Nepali Patient Health Questionnaire (PHQ-9) was used to screen for depression and semi-structured interviews were conducted to collect socio-demographic information and other factors related to TB and/or depression. Data analysis was conducted using IBM SPSS Statistics version 20.

Results

The study found the mean PHQ Score to be 2.84 (s.d. 4.92, range 0–25). Among the respondents, 10% (n = 25) had PHQ-9 scores ⩾10, suggestive of probable depression. Multivariate linear regression indicated that depressive symptoms were significantly associated with being separated/widowed/divorced (p = 0.000) and having lower education (0.003). In addition, smoking (p = 0.02), alcohol use (p = 0.001), and experience of side effects from TB medications (p = 0.001) were risk factors for higher PHQ-9 scores.

Conclusions

Our findings suggest that patients on TB treatment have higher risk of depression and efforts should be made by the National Tuberculosis Program to address this issue.

Type
Original Research Paper
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 in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s) 2020

Background

Depression may affect as many as half of all individuals with tuberculosis (TB) (Sweetland et al., Reference Sweetland, Oquendo, Wickramaratne, Weissman and Wainberg2014), which presents significant challenges to the management of these comorbid illnesses. Anxiety and depression are frequently co-occurring among patients with TB and are associated with poor adherence to anti-TB medications (Ige and Lasebikan, Reference Ige and Lasebikan2011; Duko et al. Reference Duko, Gebeyehu and Ayano2015) and higher mortality (Koyanagi et al., Reference Koyanagi, Vancampfort, Carvalho, Devylder, Haro, Pizzol, Veronese and Stubbs2017). When TB and depression co-occur, there is a greater risk for other comorbidities, patients may suffer more, and associated cost increases (Basu et al., Reference Basu, Chhatterjee, Singh and Biswas2012). Depression may also pose an increased susceptibility to TB reactivation by compromising immunity or through neglected self-care (Sweetland et al., Reference Sweetland, Kritski, Oquendo, Sublette, Norcini Pala, Silva, Karpati, Silva, Moraes and Wainberg2017). Thus, depression may be an unrecognized driver of the global TB and multidrug-resistant TB (MDR-TB) epidemics (Sweetland et al., Reference Sweetland, Oquendo, Wickramaratne, Weissman and Wainberg2014; Koyanagi et al., Reference Koyanagi, Vancampfort, Carvalho, Devylder, Haro, Pizzol, Veronese and Stubbs2017).

A number of studies have assessed co-morbidity of depression and anxiety with TB (Amreen and Rizvi, Reference Amreen and Rizvi2016). A research study in Nigeria showed that 41.9% TB patients had depressive symptoms. Likewise, research conducted in India showed that the prevalence of depression among TB outpatients was 49%, and 54% in hospitalized TB patients (Adem et al., Reference Adem, Tesfaye and Adem2014). Similarly, evidence from cross-sectional studies in several African countries found the prevalence of comorbid depression among TB patients in a range from 10% to 52% (Ambaw et al., Reference Ambaw, Mayston, Hanlon and Alem2015). Two studies in Nepal have assessed the prevalence of depression among patients with drug-susceptible TB and MDR-TB, respectively. At an urban directly observed treatment short-course (DOTS) center in Kathmandu, of the 150 TB patients included in the sample, 18% had depression (Devkota et al., Reference Devkota, Devkota and Lohani2016). The frequency of mild depression was 16 (11%), for moderate depression was 6 (4%), for severe depression was 3 (2%) and that for very severe depression was 2 (1%). All cases of depression required medical attention. In a recent sample of 135 patients with MDR-TB in Nepal, the prevalence of depression and anxiety were 22.2% and 15.6%, respectively (Walker et al., Reference Walker, Kanal, Baral, Farragher, Joshi, Elsey and Newell2019).

The co-occurrence of depression and TB can negatively impact quality of life, health care costs and self-care, as well as decreased immunity; all of these can affect patients' adherence to TB treatment and TB outcomes (Duko et al., Reference Duko, Gebeyehu and Ayano2015; Kunal et al., Reference Kunal, Kumar, Chandra and Kansal2016; Sweetland et al., Reference Sweetland, Kritski, Oquendo, Sublette, Norcini Pala, Silva, Karpati, Silva, Moraes and Wainberg2017; Ambaw et al., Reference Ambaw, Mayston, Hanlon, Medhin and Alem2018). Poor treatment adherence not only increases the risk of negative TB outcomes, but also poses a public health risk given the potential for community transmission and/or development of drug resistance (Ambaw et al., Reference Ambaw, Mayston, Hanlon and Alem2017; Sweetland et al., Reference Sweetland, Kritski, Oquendo, Sublette, Norcini Pala, Silva, Karpati, Silva, Moraes and Wainberg2017). Psychosocial concerns such as stigma, isolation, limited social support, helplessness, and other psychological reactions to the disclosing TB diagnosis, as well as medication side effects, all adversely impact treatment adherence (Mounika et al., Reference Mounika, Mohammed, Chaitanya, Reddy and Babu2016).

Given the limited availability of data on the prevalence of depression among TB patients in Nepal, this study was conducted with the aim of identifying the prevalence of depression among TB patients and the social factors associated with it.

Methods

Study design and population

A descriptive cross-sectional study was conducted among TB patients currently under treatment in DOTS centers in different treatment centers of Kathmandu Valley to study the prevalence of depression and associated factors. A total of 27 DOTS centers were selected from the three districts of Kathmandu Valley, including 10 from Kathmandu, 11 from Lalitpur, and 6 from Bhaktapur. Urban centers with higher caseloads were preferentially selected to achieve the desired sample size. Patients meeting the inclusion criteria (new adult patients within 2 months of initiating TB treatment) were recruited from these DOTS centers until the desired sample size was achieved. Medications and treatment protocols were identical across all DOTS sites.

Sampling and inclusion criteria

Given that depression may be highest at baseline (Yen et al., Reference Yen, Chung, Hu, Lai, Huang and Lin2015; Ambaw et al., Reference Ambaw, Mayston, Hanlon and Alem2017; Dasa et al., Reference Dasa, Abrham, Weldegebreal, Mesfin, Asfaw, Mitiku, Teklemariam, Geddugol, Naganuri, Befikadu and Tesfaye2019) and may be higher in patients with MDR-TB (Vega et al., Reference Vega, Sweetland, Acha, Castillo, Guerra, Smith Fawzi and Shin2004), only new TB patients (never treated before) aged 18 years and above in the first 2 months of DOTS treatment (intensive phase) through the National TB Program were considered for the study. In order to maximize comparability across the sample, individuals being re-treated for TB (possible MDR-TB) or who had received more than 60 days of treatment (continuation phase) were excluded.

The sample size was calculated using the following formula (Naing et al., Reference Naing, Winn and Rusli2006):

$$N = \displaystyle{{z^2P\lpar {1-P} \rpar } \over {d^2}}$$

where N = sample size, Z 2 = Z statistic for a level of confidence (95%), P = prevalence (18%) (Devkota et al., Reference Devkota, Devkota and Lohani2016), and d = precision (5%).

Based on the above mentioned values, the sample size (N) was calculated as follows:

$$\eqalign{N = \,& \displaystyle{{z^2P\lpar {1-P} \rpar } \over {d^2}} \cr N = \,& \displaystyle{{{\lpar {1.96} \rpar }^2 \times 0.18 \times 0.82} \over {0.0025}} \cr N = \,& 227}$$

Adding 10% non-response rate,

$$N = 250.$$

Measurement

The previously validated Nepali Patient Health Questionnaire (PHQ-9) (Kohrt et al., Reference Kohrt, Luitel, Acharya and Jordans2016) was used to screen for depression (dependent variable). The PHQ-9 was originally developed to be a self-administered screening tool for patients in medical settings based on the PRIME-MD (Kroenke et al., Reference Kroenke, Spitzer and Williams2001), but is often administered via interview in low literacy settings (Kohrt et al., Reference Kohrt, Luitel, Acharya and Jordans2016). Using a cutoff score of ⩾10, the Nepali PHQ-9 has demonstrated a sensitivity of 0.94 and a specificity of 0.80 (Kohrt et al., Reference Kohrt, Luitel, Acharya and Jordans2016). Independent variables included sociodemographic characteristics, social stigma, perceived social support, medication adherence, and TB-related side effects. To assess social stigma, patients were asked several questions based on prior studies including if they had disclosed their TB status to family and friends, had direct experiences of stigma or discrimination, felt guilty or shy about their TB status, and/or felt helplessness or loneliness due to their diagnosis. Patients were also asked to rate their perceived social support, whether they had ever forgotten to take their medications (adherence), and if they experienced any TB-related side effects.

Data collection

The health workers of the respective DOTS centers were oriented about the study as well as informed about the use of PHQ-9. Trained research assistants administered the PHQ-9 to assess the frequency and severity of depressive symptoms, followed by a semi-structured interview to obtain socio-demographic characteristics, TB-related information, and other factors.

Ethical approval was obtained from the Department of Psychology and Philosophy, Tri Chandra Multiple Campus, Kathmandu to conduct the study. Verbal informed consent was obtained from the participants prior to the study. The consent form was designed and approved before inclusion of participants in the study. The participants were informed about the purpose of the study, about their voluntary participation in the study and their right to leave the study at any time. Confidentiality was maintained at all levels of the study. The data collected were also kept confidential and used by the researcher for the study purpose only.

Data analysis

The collected data was entered into IBM SPSS Statistics version 20. Given the strong overlap in TB and depressive symptoms, and the fact that the screening scale was previously validated among a non-TB sample, we decided to analyze the PHQ-9 data in two ways including logistic (depression as binary using a cut off score of 10) and linear (depression symptoms as continuous) regressions. The age group and educational level were treated as ordinal variables, whereas other sociodemographic variables were treated categorically, including sex (male = 0, female = 1), marital status, and occupation. For marital status we used ‘married’ as the default comparison group and created two dummy variables for ‘never married’ or ‘separated/widowed/divorced.’ For occupation, we compared ‘wage labor’ and ‘student’ to everything else.

Results

Sociodemographic characteristics of respondents

The sociodemographic characteristics of the sample are described in Table 1. The mean age the respondents was 32.69 (range 18–84, s.d. 14.86). The largest age group was between 18–24 years with 40% of the total respondents. The sex distribution was 55% male and 45% female. Approximately half (53%) were married and 44% had never married. Nearly one third (31.6%) of the respondents were current students. One quarter (26.0%) had completed their higher secondary education, and 20.8% had achieved a bachelor's degree or higher.

Table 1. Sociodemographic characteristics of respondents (n=250)

Factors associated with TB

The sample included new cases of TB in the first phase of treatment (see Table 2). Of the total respondents, almost 50% (n = 124) were bacteriologically confirmed new pulmonary TB cases, 44.8% had extrapulmonary TB, and 5.6% were diagnosed by clinical pulmonary assessment. A total of 206 respondents (82.4%) were aware of their human immunodeficiency virus (HIV) status; of these, 94.6% (n = 195) were HIV negative and 4.4% (n = 11) were HIV positive. Approximately 69% respondents had disclosed their TB status to their family members, friends, and relatives and among those, 87% perceived good social support. Although only 5.6% (n = 14) of respondents reported experiences of stigma or discrimination because of TB, 13.2% (n = 33) respondents felt guilty or shy, 10.4% (n = 26) felt loneliness, and 7.2% (n = 18) respondents felt helplessness due to TB. A total of 6.8% of respondents (n = 17) self-reported having forgotten to take their TB medications at least one time during treatment so far and about 30% respondents (n = 74) had experienced some TB-related side effects at least once.

Table 2. TB associated factors (n=250)

PHQ-9 score and depression

Among the respondents, 10.0% (n = 25) had scores above the cut off of 10, suggestive of probable depression. Forty-four patients (17.6%) reported that depressive symptoms negatively impacted their daily lives in their work, self-care, care for and/or relationship with others. When asked whether they perceived that people with TB had greater risk for depression, 18.0% (n = 45) agreed. Most patients (97.2%) believed that their TB would be cured (see Table 3).

Table 3. PHQ score and depression (n=250)

Association between PHQ-9 score and socio-demographic and TB-related factors

Bivariate linear (continuous regression) analysis found that the higher PHQ score was associated with older age (p = 0.009), marital status [never married (p = 0.008) and separated/widowed/divorced (p = 0.000)], and occupation [student (p = 0.027)]. When controlling for other sociodemographic factors through multivariate linear (continuous regression) analysis, age and occupation were no longer significant, and only being separated/widowed/divorced and having lower education were significant risk factors for higher PHQ-9 scores (p = 0.000 and p = 0.003, respectively). When treating PHQ-9 score as binary variable indicating the presence or absence of probable depression (above and below 10), multivariate logistic (binary regression) analysis found the same pattern of results (Table 4). Additional risk factors for high depressive symptoms were current smoking (p = 0.02), current drinking (p = 0.001), and having experienced TB-related side effects (p = 0.001) (Table 5).

Table 4. Relationship of PHQ score and symptoms of depression with socio demographic variables

* Statistically significant.

Table 5. Relationship of PHQ score with TB related factors

* Statistically significant.

Discussion

The prevalence of depression in our study was lower than findings from two other studies conducted in Nepal. In the first study among an urban sample patient with TB or MDR-TB, 18% suffered from some levels of depression requiring medical attention (Devkota et al., Reference Devkota, Devkota and Lohani2016). In a more recent study among only MDR-TB patients, the prevalence of depression was estimated as 22.2%. It is unclear why the prevalence of depression was significantly lower in our sample (10%); one reason could be that we excluded MDR-TB patients, who have a greater risk for depression (Vega et al., Reference Vega, Sweetland, Acha, Castillo, Guerra, Smith Fawzi and Shin2004), or because we used a different depression screening tool.

In fact, estimating depression prevalence in TB patients using screening tools, in general, is inherently problematic. Given the strong overlap of symptoms between TB and depression, particularly physical symptoms (e.g. changes in appetite, sleep, or energy level), it is not clear if it is even valid to use the same cut-off score used in validation studies among non-TB patients (Castro Silva et al., Reference Castro-Silva, Carvalho, Cavalcanti, Martins, Franca, Oquendo, Kritski and Sweetland2018). Individuals with high scores on self-report measures of depressive symptoms and meet interviewer-rated psychiatric diagnostic criteria (true positives) differ in important ways from individuals who obtain similarly high scores on self-report measures of depressive symptoms but do not meet interviewer-rated criteria for a diagnosis of depression (false positives) (Gotlib et al., Reference Gotlib, Lewinsohn and Seeley1995). That said, the PHQ-9 is one of the most widely used globally to screen for depression among TB patients. Compared to other studies using the PHQ-9 among TB patients, the prevalence of depression in our sample was lower than samples from Cameroon (25%) India (42%), Ethiopia (54%), Pakistan (56%), and Brazil (62%) (Mandaknalli and Giriraj, Reference Mandaknalli and Giriraj2015; Amreen and Rizvi, Reference Amreen and Rizvi2016; Kehbila et al., Reference Kehbila, Ekabe, Aminde, Noubiap, Fon and Monekosso2016; Ambaw et al., Reference Ambaw, Mayston, Hanlon and Alem2017; Castro Silva et al., Reference Castro-Silva, Carvalho, Cavalcanti, Martins, Franca, Oquendo, Kritski and Sweetland2018) but higher than one study in Nigeria (6.2%) (Issa et al., Reference Issa, Yussuf and Kuranga2009). Other global studies using Hospital Depression & Anxiety Scale found similarly high prevalence estimates for depression including 47% (India), 46% (Pakistan), and 43% (Ethiopia) (Husain et al., Reference Husain, Dearman, Chaudhry, Rizvi and Waheed2008; Duko et al., Reference Duko, Gebeyehu and Ayano2015; Kunal et al., Reference Kunal, Kumar, Chandra and Kansal2016). When examining depression and anxiety together, two studies found a prevalence of 72% (Pakistan) and 80% (India) (Mounika et al., Reference Mounika, Mohammed, Chaitanya, Reddy and Babu2016; Siddiqua and Aisha, Reference Siddiqua and Aisha2016). In Nigerian study using the Hamilton Depression Rating Scale, the prevalence of moderate depression was 32% (Ige and Lasebikan, Reference Issa, Yussuf and Kuranga2011).

In terms of sociodemographic correlates, we found that being separated/widowed/divorced and/or lower educational attainment were the only significant risk factors for depression in our sample. These findings differ from a cross-sectional, community-based dataset from 48 low and middle-income countries, in which the prevalence of depressive episodes among those with TB based on the Composite International Diagnostic Interview was 23.7%, and was significantly associated with older age, female sex, lower levels of wealth, smoking, and diabetes (Koyanagi et al., Reference Koyanagi, Vancampfort, Carvalho, Devylder, Haro, Pizzol, Veronese and Stubbs2017). That said, low education and marital disruption are among the most common social correlates with depression across cultures based on the World Mental Health Survey (Kessler and Bromet, Reference Kessler and Bromet2014).

TB-related stigma and discrimination are still highly prevalent worldwide, and are associated with greater risk for depression (Sweetland et al., Reference Sweetland, Kritski, Oquendo, Sublette, Norcini Pala, Silva, Karpati, Silva, Moraes and Wainberg2017). In our sample, 31% patient did not disclose their TB status among family, and many endorsed experiencing feelings of guilt, loneliness, and helplessness due to TB. Several studies have explored TB-related stigma in Nepal. One study among 60 TB patients found that 63.3% (n = 38) of the subjects had experienced stigma (Aryal et al., Reference Aryal, Badhu, Pandey, Bhandari, Khatiwoda, Khatiwada and Giri2012), while another study among 89 patients revealed 64% of people were stigmatized due to TB (Priyanka and Dahal, Reference Priyanka and Dahal2016). A qualitative study in Nepal that sought to identify the causes of TB-related stigma and self-discrimination found patient's fear of transmission of disease and fear of gossip as the two main contributors (Baral et al., Reference Baral, Karki and Newell2007). Causes of discrimination by the community included fear of perceived risk of infection; perceived links between TB and poverty and low caste; perceived links between TB and disreputable behavior; and perceptions that TB was a divine punishment. Of note, some patients felt they were discriminated against by health workers (Baral et al., Reference Aryal, Badhu, Pandey, Bhandari, Khatiwoda, Khatiwada and Giri2007).

Conclusions

This study revealed that depression is a significant challenge for TB patients in Nepal, requiring attention by the NTP and TB providers. The WHO End TB strategy explicitly calls for integrated patient-centered care, including the treatment of mental disorders, in order to achieve TB elimination (Stop TB Partnership, 2016), and the WHO recently called for a TB and Mental Health collaborative framework to meet these needs (Sweetland et al., Reference Sweetland, Jaramillo, Wainberg, Chowdhary, Oquendo, Medina-Marino and Dua2018). Furthermore, many NTP directors globally have expressed openness to integrating counseling and brief psychological interventions that have demonstrated effectiveness (Sweetland et al., Reference Sweetland, Galea, Shin, Driver, Dlodlo, Karpati and Wainberg2019). Routine screening for depressive symptoms among TB patients, followed by a timely confirmatory diagnosis so such patients can receive treatment in order to improve the likelihood of positive TB outcomes (Sweetland et al., Reference Sweetland, Kritski, Oquendo, Sublette, Norcini Pala, Silva, Karpati, Silva, Moraes and Wainberg2017). Operational research may guide programs how to best implement this across settings.

Acknowledgements

We would like to thank the all TB patients of the selected health centers who provided their information to complete this study. In addition, we are also thankful to all the health workers of the 27 centers who provided their time and dedication to support in collecting data. P.S. would also like to thank his teachers of Tri Chandra Multiple Campus Dr. Timothy Aryal, Dr. Narendra Singh Thagunna, Dr. Pradeep Manandhar, Mr. Suraj Shakya, Ms. Srijana Adhikari, and Dr. Narayan Prasad Sharma for supporting him to complete this study. He would also like to thank Mr. Nawaraj Baral and Ms. Rina Thapa for their administrative support in completing this study, along with all of his colleagues and fellow friends of Tri Chandra Multiple Campus for helping him to conduct this study. P.S. also expresses gratitude to his wife Mrs. Srijana Maharjan Shrestha for all her support towards P.S. and helping him to complete this study.

Financial support

This study received no specific funding. A.C.S. receives salary support through the U.S. National Institute of Mental Health (K01 MH104514).

Conflict of interest

None.

Ethical standards

The authors assert that all procedures contributing to this work comply 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 and the authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional guides on the care and use of laboratory animals.

References

Adem, A, Tesfaye, M and Adem, M (2014) The prevalence and pattern of depression in patients with tuberculosis on follow-up at Jimma University Specialized Hospital and Jimma Health Center. Medicine Science 3, 955968. Available at https://www.researchgate.net/publication/259339714_The_Prevalence_and_Pattern_of_Depression_in_Patients_with_Tuberculosis_on_Follow-up_at_Jimma_University_Specialized_Hospital_and_Jimma_Health_Center.CrossRefGoogle Scholar
Ambaw, F, Mayston, R, Hanlon, C, Alem, A (2015). Depression among patients with tuberculosis: determinants, course and impact on pathways to care and treatment outcomes in a primary care setting in southern Ethiopia—a study protocol. BMJ Open 5, e007653. doi: 10.1136/bmjopen-2015-007653.CrossRefGoogle Scholar
Ambaw, F, Mayston, R, Hanlon, C and Alem, A (2017) Burden and presentation of depression among newly diagnosed individuals with TB in primary care settings in Ethiopia. BMC Psychiatry 17, 57. https://bmcpsychiatry.biomedcentral.com/articles/10.1186/s12888-017-1231-4.CrossRefGoogle ScholarPubMed
Ambaw, F, Mayston, R, Hanlon, C, Medhin, G and Alem, A (2018) Untreated depression and tuberculosis treatment outcomes, quality of life and disability, Ethiopia. Bulletin of the World Health Organization 96, 243255.CrossRefGoogle Scholar
Amreen, and Rizvi, N (2016) Frequency of depression and anxiety among tuberculosis patients. Journal of Tuberculosis Research 4, 183190. http://dx.doi.org/10.4236/jtr.2016.44021. Available at https://file.scirp.org/pdf/JTR_2016121514314528.pdf.CrossRefGoogle Scholar
Aryal, S, Badhu, A, Pandey, S, Bhandari, A, Khatiwoda, P, Khatiwada, P, Giri, A (2012) Stigma related to tuberculosis among patients attending DOTS clinics of Dharan Municipality. Kathmandu University Medical Journal 37, 4852. Available at https://www.nepjol.info/index.php/KUMJ/article/viewFile/6914/5624.Google Scholar
Baral, SC, Karki, DK and Newell, JN (2007) Causes of stigma and discrimination associated with tuberculosis in Nepal: a qualitative study. BMC Public Health 7, 211. Available at https://bmcpublichealth.biomedcentral.com/articles/10.1186/1471-2458-7-211.CrossRefGoogle ScholarPubMed
Basu, G, Chhatterjee, C, Singh, R and Biswas, S (2012) Prevalence of depression in tuberculosis patients: an experience from a DOTS clinic. Indian Journal of Research and Reports in Medical Sciences 2. Available at 1417. doi: https://www.researchgate.net/publication/235705055_Depression_and_its_correlates_among_Tuberculosis_patients_experience_from_a_DOTS_clinic_of_a_sub_divisional_hospital_of_West_Bengal.Google Scholar
Castro-Silva, KM, Carvalho, AC, Cavalcanti, MT, Martins, PDS, Franca, JR, Oquendo, M, Kritski, A and Sweetland, A (2018) Prevalence of depression among patients with presumptive pulmonary tuberculosis in Rio de Janeiro, Brazil. Braz J Psychiatry. 316323. doi: 10.1590/1516-4446-2018-0076.Google ScholarPubMed
Dasa, T, Abrham, A, Weldegebreal, F, Mesfin, F, Asfaw, A, Mitiku, H, Teklemariam, Z, Geddugol, B, Naganuri, M, Befikadu, H and Tesfaye, E (2019) Prevalence and associated factors of depression among tuberculosis patients in Eastern Ethiopia. BMC Psychiatry 19, 8288.CrossRefGoogle ScholarPubMed
Devkota, J, Devkota, N and Lohani, SP (2016) Health related quality of life, anxiety and depression among tuberculosis patients in Kathmandu, Nepal. Janaki Medical College, Journal of Medical Sciences 4, 1318. https://www.nepjol.info/index.php/JMCJMS/article/view/16380.Google Scholar
Duko, B, Gebeyehu, A and Ayano, G (2015) Prevalence and correlates of depression and anxiety among patients with tuberculosis at WolaitaSodo University Hospital and Sodo Health Center, WolaitaSodo, South Ethiopia, Cross sectional study. BMC Psychiatry 15, 214. https://bmcpsychiatry.biomedcentral.com/articles/10.1186/s12888-015-0598-3.CrossRefGoogle Scholar
Gotlib, IH, Lewinsohn, PM and Seeley, JR (1995) Symptoms versus a diagnosis of depression: differences in psychosocial functioning. Journal of Consulting and Clinical Pscyhology 63, 90100. Available at https://www.researchgate.net/profile/Ian_Gotlib/publication/15302227_Symptoms_versus_a_diagnosis_of_depression_Differences_in_psychosocial_functioning/links/09e4150e5990d3ed8d000000/Symptoms-versus-a-diagnosis-of-depression-Differences-in-psychosocial-functioning.pdf.CrossRefGoogle ScholarPubMed
Husain, MO, Dearman, SP, Chaudhry, IB, Rizvi, N and Waheed, W (2008) The relationship between anxiety, depression and illness perception in tuberculosis patients in Pakistan. Clinical Practice and Epidemiology in Mental Health 4, 4. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2288599/pdf/1745-0179-4-4.pdf.CrossRefGoogle ScholarPubMed
Ige, OM and Lasebikan, VO (2011) Prevalence of depression in tuberculosis patients in comparison with non-tuberculosis family contacts visiting the DOTS clinic in a Nigerian tertiary care hospital and its correlation with disease pattern. Mental Health in Family Medicine 8, 235241. Available at https://www.mhfmjournal.com/pdf/prevalence-of-depression-in-tuberculosis-patients-in-comparison-with-nontuberculosis-family-contacts-visiting-the-dots-clinic-in-a.pdf.Google Scholar
Issa, BA, Yussuf, AD and Kuranga, S (2009) Depression comorbidity among patients with tuberculosis in a university teaching hospital outpatient clinic in Nigeria. Mental Health in Family Medicine 6, 133138. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2838651/pdf/MHFM-06-133.pdf.Google Scholar
Kehbila, J, Ekabe, CJ, Aminde, LN, Noubiap, JJN, Fon, PN and Monekosso, GL (2016) Prevalence and correlates of depressive symptoms in adult patients with pulmonary tuberculosis in the Southwest Region of Cameroon. Infectious Diseases of Poverty 5, 51. https://idpjournal.biomedcentral.com/articles/10.1186/s40249-016-0145-6.CrossRefGoogle ScholarPubMed
Kessler, RC and Bromet, EJ (2014) The epidemiology of depression across cultures. Annual Review of Public Health, 34, 119138.CrossRefGoogle Scholar
Kohrt, BA, Luitel, NP, Acharya, P and Jordans, MJD (2016) Detection of depression in low resource settings: validation of the Patient Health Questionnaire (PHQ-9) and cultural concepts of distress in Nepal. BMC Psychiatry 16, 58. https://bmcpsychiatry.biomedcentral.com/articles/10.1186/s12888-016-0768-y.CrossRefGoogle ScholarPubMed
Koyanagi, A, Vancampfort, D, Carvalho, A, Devylder, J, Haro, J, Pizzol, D, Veronese, N and Stubbs, B (2017) Depression comorbid with tuberculosis and its impact on health status: cross-sectional analysis of community-based data from 48 low- and middle-income countries. BMC Medicine 15, 209. https://bmcmedicine.biomedcentral.com/articles/10.1186/s12916-017-0975-5.CrossRefGoogle ScholarPubMed
Kroenke, K, Spitzer, RL and Williams, JB (2001) The PHQ-9: validity of a brief depression severity measure. Journal of General Internal Medicine 16, 606613.CrossRefGoogle ScholarPubMed
Kunal, K, Kumar, A, Chandra, P and Kansal, HM (2016) A study of prevalence of depression and anxiety in patients suffering from tuberculosis. Journal of Family Medicine and Primary Care 5, 150153. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4943123/.Google Scholar
Mandaknalli, R and Giriraj, B (2015) Prevalence of depression in tuberculosis patients in a tertiary care hospital. Scholars Journal of Applied Medical Sciences 3, 24452448. Available at https://pdfs.semanticscholar.org/bdb1/8363332be0c00ad3c367f3f926fb998d0760.pdf.Google Scholar
Mounika, PS, Mohammed, S, Chaitanya, K, Reddy, L and Babu, AMSS (2016) Co-existing anxiety and depression in pulmonary tuberculosis patients under directly observed treatment short course therapy in Costal Andhra region. World Journal of Pharmacy and Pharmaceutical Sciences 5, 10921105. Available at http://www.wjpps.com/download/article/1467266905.pdf.Google Scholar
Naing, L, Winn, T and Rusli, BN (2006) Practical issues in calculating the sample size for prevalence studies. Archives of Orofacial Sciences 1, 914. Available at http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.504.2129&rep=rep1&type=pdf.Google Scholar
Priyanka, GC and Dahal, P (2016) Stigma related to tuberculosis in patients taking DOTS treatment from DOTS center of Palpa District Hospital, Tansen, Palpa, Nepal Journal of Microbiology and Modern Techniques 1, 104. Available at http://www.annexpublishers.com/articles/JMC/1104-Stigma-Related-to-Tuberculosis-in-Patients-Taking-DOTS-Treatment-from-DOTS-Center-of-Palpa-District-Hospital.pdf.Google Scholar
Siddiqua, A and Aisha, (2016) Co-morbid anxiety and depression among pulmonary tuberculosis patients. Journal of the College of Physicians and Surgeons, Pakistan 20, 703704. Available at https://pdfs.semanticscholar.org/e0c4/1f483a7b72a83a684194a0211470225b7f68.pdf.Google Scholar
Stop TB Partnership, UNOPS (2016) Global Plan to End TB: The Paradigm Shift 2016–2020. Geneva: World Health Organization.Google Scholar
Sweetland, A, Galea, J, Shin, SS, Driver, C, Dlodlo, RA, Karpati, A, Wainberg, ML and on behalf of The Union TB & Mental Health Working Group (2019) Integrating tuberculosis and mental health services: global receptivity of national tuberculosis program directors. The International Journal of Tuberculosis and Lung Disease 23, 600605.CrossRefGoogle ScholarPubMed
Sweetland, AC, Jaramillo, E, Wainberg, ML, Chowdhary, N, Oquendo, MA, Medina-Marino, A and Dua, T (2018) Tuberculosis: an opportunity to integrate mental health services in primary care in low-resource settings. The Lancet. Psychiatry 5, 952954.CrossRefGoogle ScholarPubMed
Sweetland, AC, Kritski, A, Oquendo, MA, Sublette, ME, Norcini Pala, A, Silva, LRB, Karpati, A, Silva, EC, Moraes, MO and Wainberg, ML (2017) Addressing the tuberculosis-depression syndemic to end the tuberculosis epidemic. The International Journal of Tuberculosis and Lung Disease 21, 852861.CrossRefGoogle ScholarPubMed
Sweetland, AC, Oquendo, MA, Wickramaratne, P, Weissman, M and Wainberg, ML (2014) Depression: a silent driver of the global tuberculosis epidemic. World Psychiatry 13, 325326.CrossRefGoogle ScholarPubMed
Vega, P, Sweetland, A, Acha, J, Castillo, H, Guerra, D, Smith Fawzi, MC and Shin, S (2004) Psychiatric issues in the management of patients with multidrug-resistant tuberculosis. The International Journal of Tuberculosis and Lung Disease 8, 749759.Google ScholarPubMed
Walker, IF, Kanal, S, Baral, SC, Farragher, TM, Joshi, D, Elsey, H and Newell, JN (2019) Depression and anxiety in patients with multidrug-resistant tuberculosis in Nepal: an observational study. Public Health in Action 9, 4248.CrossRefGoogle Scholar
Yen, YF, Chung, MS, Hu, HY, Lai, YJ, Huang, LY, Lin, YS, et al. (2015) Association of pulmonary tuberculosis and ethambutol with incident depressive disorder: a nationwide, population-based cohort study. Journal of Clinical Psychiatry 76, e505e511. Available at https://www.psychiatrist.com/JCP/article/_layouts/ppp.psych.controls/BinaryViewer.ashx?Article=/JCP/article/Pages/2015/v76n04/v76n0416.aspx&Type=Article.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Sociodemographic characteristics of respondents (n=250)

Figure 1

Table 2. TB associated factors (n=250)

Figure 2

Table 3. PHQ score and depression (n=250)

Figure 3

Table 4. Relationship of PHQ score and symptoms of depression with socio demographic variables

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Table 5. Relationship of PHQ score with TB related factors