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Depression, anxiety and medication adherence among tuberculosis patients attending treatment centres in Fako Division, Cameroon: cross-sectional study

Published online by Cambridge University Press:  13 April 2023

Lionel Che Anye ,
Marie Ebob Agbortabot Bissong ,
Anna Longdoh Njundah  and
Joseph Nelson Siewe Fodjo Open the ORCID record for Joseph Nelson Siewe Fodjo [Opens in a new window]
Lionel Che Anye
Affiliation:
University of Buea, Buea, Cameroon
Marie Ebob Agbortabot Bissong
Affiliation:
University of Buea, Buea, Cameroon
Anna Longdoh Njundah
Affiliation:
University of Buea, Buea, Cameroon
Joseph Nelson Siewe Fodjo*
Affiliation:
Global Health Institute, University of Antwerp, Antwerp, Belgium
*
Correspondence: Joseph Nelson Siewe Fodjo. Email: josephnelson.siewefodjo@uantwerpen.be
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Abstract

Background

Tuberculosis remains a public health problem, particularly in developing countries. Patients with tuberculosis often suffer from anxiety and depression, which is likely to affect adherence to the long course of tuberculosis treatment.

Aims

This study sought to investigate depression, anxiety and medication adherence among Cameroonian tuberculosis patients.

Method

A cross-sectional study was conducted from March to June 2022 across five treatment centres in Fako Division, Southwest Region, Cameroon. Data were collected via face-to-face interviews with tuberculosis patients using a structured questionnaire. Sociodemographic information was obtained, and the following tools were administered to participants: the Hospital Anxiety and Depression Scale, the Oslo Social Support Scale, and the Medication Adherence Rating Scale. Multiple logistic regression models were fitted to investigate determinants of depression and anxiety.

Results

A total of 375 participants were recruited (mean age: 35 ± 12.2 years; 60.5% male). The prevalence rates of depression and anxiety among tuberculosis patients were 47.7% and 29.9%, respectively. After adjusting for confounders, the odds of depression were significantly increased by having extrapulmonary tuberculosis, non-adherence to treatment, having no source of income, household size <5 and poor social support. Predictors for anxiety included extrapulmonary tuberculosis, defaulting tuberculosis treatment for ≥2 months, family history of mental illness, HIV/tuberculosis co-infection, being married, poor social support and non-adherence to treatment.

Conclusions

The prevalence of depression and anxiety in tuberculosis patients is relatively high, and diverse factors may be responsible. Therefore, holistic and comprehensive care for tuberculosis patients by mental health practitioners is highly encouraged, especially for the high-risk groups identified.

Keywords

Tuberculosisanxietydepressionmedication adherenceCameroon
Type
Paper
Information
BJPsych Open , Volume 9 , Issue 3 , May 2023 , e65
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of the Royal College of Psychiatrists

Background

Tuberculosis is a disease caused by the bacterium Mycobacterium tuberculosis, which is spread from person to person through the air.Reference Zumla, Raviglione, Hafner and Fordham von Reyn1 Generally, tuberculosis affects the human lungs, but other body parts including the brain, the kidneys or the spine can also be affected; such conditions are known as extrapulmonary tuberculosis. Despite the availability of effective antibiotherapy against tuberculosis, many patients may still die if they do not get proper and timely treatment.2 Notwithstanding the obtainability of affordable and effective treatment, tuberculosis still accounts for millions of active disease cases and deaths worldwide. Tuberculosis affects the poorest persons in both high-income and developing countries.Reference Zumla, Raviglione, Hafner and Fordham von Reyn1 According to estimates stated by the World Health Organization, tuberculosis is among the ten leading causes of death worldwide. In the past 5 years, it has occupied first place on the list of most deadly infectious diseases.Reference Souza, Santos, Crispim J de, Fiorati, Dias and Bruce3

The burden caused by tuberculosis is further compounded by the frequent occurrence of mental health disorders among patients, notably anxiety and depression. The fact that the routine treatment protocol for tuberculosis in Cameroon consists of a 6-month-long antibiotic course (including in-hospital isolation of tuberculosis cases during the early weeks of treatment) significantly fosters the onset of these mental health issues among patients. The presence of depressive disorders leads to poor treatment adherence, drug resistance and high rates of transmission, which put other community members at risk of being contaminated. Furthermore, depression weakens psychosocial welfare and depreciates the quality of life of affected individuals, ultimately resulting in negative treatment outcomes among tuberculosis patients.Reference Ugarte-Gil, Ruiz, Zamudio, Canaza, Otero and Kruger4 In addition, tuberculosis patients with depressive symptoms have reduced social contact and ignore social responsibilities, especially at the stage of coughing; this leads to low self-esteem and hopelessness.Reference Mohammedhussein, Alenko, Tessema and Mamaru5

Previous studies report high rates of mental illness in tuberculosis patients in sub-Saharan Africa; for instance, the prevalence of depression in tuberculosis patients in Nigeria was reported to be as high as 95.5%.Reference Ige and Lasebikan6 In Cameroon, data on this subject are relatively scarce; one study conducted in Yaoundé reported a 30.9% prevalence of depression in tuberculosis patients,Reference Balkissou, Pefura-Yone, Kamga, Efe-de-Melingui and Afane-Ze7 whereas another study conducted in the south-west region found a prevalence of depression of 61.1% among tuberculosis patients.Reference Kehbila, Ekabe, Aminde, Noubiap, Fon and Monekosso8 Another Cameroonian study among persons living with HIV (frequently associated with tuberculosis as a comorbidity) in Yaoundé found that 63% of participants had depressive symptoms.Reference Kanmogne, Qiu, FE, JY, DM and CT9 Given the paucity of information on mental illness and tuberculosis in Cameroon, we sought to investigate the prevalence and associated risk factors for depression and anxiety among tuberculosis patients, and to describe the impact on medication adherence in this population.

Method

Study design and setting

A facility-based multicentric cross-sectional design was employed in this study, which ran from 1 March to 30 June 2022. The study was conducted in five treatment centres in Fako Division of the English-speaking South-West region of Cameroon. Of note, this region has been subjected to civil unrest of varying intensity since 2016, owing to the anglophone crisis. The treatment centres were at Buea Regional Hospital, Mutengene Baptist Hospital, Tiko Cottage Hospital, Tiko District Hospital and the Limbe Regional Hospital. These selected hospitals are properly equipped for the diagnosis and management of tuberculosis cases. Tuberculosis treatment is generally provided free to patients in these treatment centres, being subsidised by the government. However, nursing care and hospital admission fees are paid by the patient. Of note, there were no shortages in anti-tuberculosis drugs at any of the study sites during the entire duration of the study.

Study population and sampling

All persons of age 21 years and above who were diagnosed and confirmed with tuberculosis as per national guidelinesReference Sander, Laah, Titahong, Lele, Kinge and de Jong10,11 and who were followed up at the selected treatment centres were included in the study. Critically ill tuberculosis patients and those with known and/or previously diagnosed mental issues were excluded from the study. A purposive sampling method was used to select the study sites (treatment centres) and to recruit participants. All tuberculosis patients who met the eligibility criteria at the selected study sites and who gave their consent to participate in the study were included. Participants were recruited following probability proportionate to size sampling whereby each study site was weighed according to its monthly patient turnover (Supplementary Appendix 1 available at https://doi.org/10.1192/bjo.2023.42).

Sample size determination

The sample size required for this study was determined using the formula n = z 2p (1 − p)/e 2 where p is the prevalence, z is the decision variable at confidence of 95% (z = 1.96), and e is the sampling-related error risk (e = 0.05).Reference Sharma, Mudgal, Thakur and Gaur12 We assumed a 95% confidence level falling within a 5% margin of error and a 10% non-response rate. Based on a study conducted in Walaito Sodo,Reference Duko, Gebeyehu and Ayano13 in Ethiopia, a p = 41.5% prevalence of anxiety among tuberculosis patients, and a p = 43.4% prevalence of depression among tuberculosis patients were used in the calculation of the sample size. Following the sample size calculation for the two outcome variables (depression and anxiety), the larger value was taken (n = 397) and used as target sample size for this study.

Data collection method and instrument

Data were collected using an open-ended structured questionnaire administered by trained nurses working at the various treatment sites. The questionnaires were divided into three sections comprising sociodemographic, clinical and psychosocial data. The data collection instrument was pretested prior to participant recruitment to ensure the reliability and validity of the tool. All interviews were conducted in English by the principal investigator (L.C.A.) and some nurses working at the study hospitals, none of whom were involved in the care or follow-up of the recruited tuberculosis patients.

The sociodemographic characteristics of the participants that were collected included age, gender, marital status, level of education, residence, income, family status, religion and employment status, whereas the clinical section included height, weight, body mass index (BMI), family history of mental illness, tuberculosis classification type (pulmonary versus extrapulmonary), duration of illness, sputum results (positive or negative sputum test for M. tuberculosis), treatment category (new, default, retreatment, relapse or failure), HIV comorbidity, presence of multidrug-resistant (MDR) tuberculosis and phase of treatment.

The psychosocial variables analysed were anxiety, depression, social support and medication adherence. The psychological variables anxiety and depression were assessed using the Hospital Anxiety and Depression Scale (HADS) tool as previously reportedReference Zigmond and Snaith14,Reference Stern15 The HADS tool is a 14-item questionnaire commonly used to screen for anxiety and depression in patients. The 14 items in the HADS tool are separated into two seven-item subscales for anxiety (HADS-A) and depression (HADS-D). A respondent is considered to have depression or anxiety if he/she has a score of 8–10 (borderline abnormal or borderline case) or 11–21 (abnormal or case).Reference Stern15 In this study, a HADS-D or HADS-A score ≥8 was considered to indicate a case of anxiety or depression, respectively, whereas a score ≤7 was considered normal. In our study population, the HADS tool had a satisfactory Cronbach's α of 0.885.

Social support characteristics were measured using the Oslo Social Support Scale (OSSS-3), which is a brief and economic instrument to assess the level of social support received by patients.Reference Kocalevent, Berg, Beutel, Hinz, Zenger and Härter16 The OSSS-3 consists of three items that ask for the number of close confidants, the sense of concern from other people, and the relationship with neighbours, with a focus on the accessibility of practical help. A score from 3 to 8 was considered to indicate poor social support, and a score of 9–14 was considered to indicate strong social support.Reference Kocalevent, Berg, Beutel, Hinz, Zenger and Härter16,Reference Naidoo and Mwaba17 The social support scale had a Cronbach's α of 0.730.

Medication adherence was measured using the Medication Adherence Rating Scale (MARS).Reference Owie, Olotu and James18 This is a ten-item self-reporting instrument which is multidimensional. It describes three dimensions of medication adherence: medication adherence behaviour (items 1–4), patients’ attitudes toward taking medication (items 5–8) and negative side-effects and attitudes towards medication (items 9–10). Questions are responded to using ’yes’ or ‘no’ on this scale. For questions 1–6 and 9–10, a ‘no’ response is indicative of good adherence, whereas for questions 7 and 8, a ‘yes’ response indicates adherence.Reference Owie, Olotu and James18 The scores on the scale were dichotomised into non-adherence (score between 0–5) and adherence (score between 6–10).

Data management and analysis

Data were entered into Epi Info v.26 and analysed by SPSS v.25. Continuous variables were expressed as mean and s.d., whereas categorical variables were reported as counts and percentages. Descriptive comparisons were performed using parametric and non-parametric tests as appropriate. A simple logistic regression was performed for purposefully selected explanatory variables based on the plausibility of their affecting the outcome variables (depression and anxiety). Explanatory variables with P ≤ 0.2 in the univariate analysis were included in the final multivariable model, in line with the cut-off P-value of 0.25 suggested by Bursac et al.Reference Bursac, Gauss, Williams and Hosmer19 A multiple logistic regression model was constructed, and adjusted odds ratios (AORs) with 95% confidence intervals were calculated to identify significant associations with the outcome variables (anxiety and depression). P < 0.05 was considered to indicate statistical significance.

Ethical considerations

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. All procedures involving human subjects or patients were approved by the Institutional Review Board of the Faculty of the Health Sciences, University of Buea (no. 1657-02). Administrative authorisations were granted by the Regional Delegation of Public Health as well as the appropriate health districts and study hospitals. Participation in the study was anonymous and totally voluntary. All participants were informed about the study's aim and objectives and provided written consent to participate. No personal identifiers such as names, addresses, telephone numbers or other information identifying participants were entered into the database. Participants were informed of their right to withdraw or discontinue at any time without consequences. Confidentiality was respected at all levels of the study.

Results

Sociodemographic characteristics of respondents

A total of 375 respondents were enrolled into the study. Two hundred and twenty-seven (60.5%) of the respondents were males while 148 (39.5%) were females (Table 1). The mean age of the respondents was 35 years (s.d. = 12.2) years, with minimum and maximum ages of 21 years and 80 years, respectively. The majority (42.4%) of the respondents were aged 21–30 years. Regarding marital status, more than half (59.5%) of the participants were single. Only four (1.1%) participants were recorded as having no formal education. Most of the respondents (58.4%) had a monthly income of 50 000–100 000 FCFA and 27 (7.2%) had no income. A total of 224 (59.7%) respondents were urban dwellers.

Table 1 Sociodemographic characteristics of participants

Clinical and psychosocial characteristics of the respondents

Of the respondents 325 (86.7%) had been diagnosed with pulmonary tuberculosis (Table 2). Most of the respondents (342, 91.2%) were in the new tuberculosis treatment category. Two hundred and eighteen (58.1%) were in the continuation phase of tuberculosis treatment. More than half of the respondents (88.8%) were out-patients, coming for follow-up treatment appointments. The majority, 263 (70.1%), reported having strong social support from their family and community. Good medication adherence was noted in 340 (90.7%) of participants.

Table 2 Clinical and social support findings

Prevalence of depression and anxiety among tuberculosis patients

The prevalence of depression in our study population (HADS-D score >7) was 47.7% (95% CI: 42.6–52.9), whereas that of anxiety (HADS-A score >7) was 29.9% (95% CI: 25.3–34.8). The gender-specific prevalence rates of depression and anxiety were higher among male (59.2% and 54.5%, respectively) compared with female participants (40.8% and 45.5%, respectively).

Factors associated with depression and anxiety

Cross-tabulation using a chi-squared test showed a significant relationship between depression and the following factors: hospital (site of study) (P < 0.001), educational level (P < 0.011), medication adherence (P = 0.001), level of social support (P = 0.031), classification type of tuberculosis (P < 0.001), patient status (P = 0.001), BMI (P < 0.001), HIV/tuberculosis co-infection (P = 0.047) and MDR tuberculosis (P < 0.001); whereas the following factors had a significant relationship with anxiety: treatment centres (P < 0.001), employment status (P = 0.009), monthly income (P < 0.001), classification type of tuberculosis (P = 0.019), medication adherence (P = 0.001), level of social support (P = 0.001), patient status (P = 0.001) and BMI (P < 0.027); see Supplementary Appendix 2.

Factors associated with depression among tuberculosis patients

After adjusting for confounders, several variables were found to be independently associated with depression (Table 3). Compared with tuberculosis patients attending the Buea Regional Hospital, those from the Baptist Hospital Mutengene, Tiko District Hospital and Limbe Regional Hospital were less likely to be depressed (AOR < 1). Having a household size greater than five and receiving stronger social support were found to be protective factors against depression (AOR < 1). Conversely, those with extrapulmonary tuberculosis and those with no income had significantly higher odds of being depressed (AOR > 1).

Table 3 Multivariable logistic regression for depression and associated risk factors among tuberculosis patients

*P < 0.05; **P < 0.01.

Factors associated with anxiety among tuberculosis patients

After adjusting for confounders, the odds of having anxiety were 7.506 times higher among extrapulmonary tuberculosis patients (P = 0.004, AOR = 7.506, 95% CI: 1.880–29.968) than in pulmonary tuberculosis patients (Table 4). Compared with tuberculosis patients attending the Buea Regional Hospital, patients from all other hospitals had significantly lower odds of having anxiety. Being unemployed and receiving strong social support were also associated with reduced odds for anxiety. By contrast, non-adherence to treatment, HIV/tuberculosis co-infection and family history of mental illness significantly increased the odds of anxiety among the participants.

Table 4 Multivariable logistic regression for anxiety and associated risk factors among tuberculosis patients

*P < 0.05; **P < 0.01.

Discussion

There have been few studies that have assessed the burden of depression and anxiety among tuberculosis patients globally and in Cameroon in particular. This study fills this gap by providing such data in the Cameroonian context and exploring how this affects adherence to tuberculosis treatment in selected hospitals. Overall, mental health findings among participants differed significantly by hospital, with tuberculosis patients followed up at the Buea Regional Hospital having the highest odds for both anxiety and depression. Whether these differences are related to civil unrest or other town-specific elements remains to be confirmed. Further research is warranted to understand these disparities and improve tuberculosis care in these health facilities.

Prevalence of depression and associated factors among tuberculosis patients

On comparison with the evidence available in the literature, the prevalence of depression among tuberculosis patients in our study (47.4%) was similar to the 46.3% observed in PakistanReference Husain, Dearman, Chaudhry, Rizvi and Waheed20 and the 43.4% observed in Wailoto South Ethiopia, also obtained using the HADS tool.Reference Duko, Gebeyehu and Ayano13 Other studies that used HADS for depression screening found higher values, notably in Southwest Ethiopia (55.9%)Reference Mohammedhussein, Alenko, Tessema and Mamaru5 and Turkey (60.5%).Reference Yilmaz and Dedeli21 The observed discrepancy might be due in part to differences in the study settings and populations. Other studies that used different tools to identify cases of depression also found varied prevalence rates in south-west Cameroon (61.1%),Reference Kehbila, Ekabe, Aminde, Noubiap, Fon and Monekosso8 Nigeria (48.6%)22 and Ethiopia (19.8%,Reference Adem, Tesfaye and Mohammed23 31.1%,Reference Molla, Mekuriaw and Kerebih24 54.0%,Reference Ambaw, Mayston, Hanlon and Alem25 51.9%Reference Dasa, Roba, Weldegebreal, Mesfin, Asfaw and Mitiku26), and Pakistan (56%).Reference Amreen and Rizvi27 These results are hardly comparable with ours owing to the different methodologies used to assess outcomes.

The observation in our study that strong social support has antidepressive effects, similar to findings from other studies,Reference Bursac, Gauss, Williams and Hosmer19,Reference Ambaw, Mayston, Hanlon and Alem25,Reference Dasa, Roba, Weldegebreal, Mesfin, Asfaw and Mitiku26 attests to the paramount need for families and relatives to be involved in the care of tuberculosis patients. Indeed, participants in our study that were treated as out-patients were less likely to become depressed because their family environment constituted a firm support system. Poor social support gives patients feelings of neglect, isolation and worthlessness, and strong social support is vital for the prevention of such feelings.Reference Kumar, Kumar, Chandra and Kansal28 Therefore, sensitisation campaigns could be organised in target communities to emphasise the benefits of social support for the well-being of patients. At the health facility level, tuberculosis care programmes should integrate family sessions to encourage relatives to support the tuberculosis patient throughout the treatment process.

Unlike previous studies carried out in Ethiopia and the PhilippinesReference Molla, Mekuriaw and Kerebih24,Reference Liu, Zhang, Qu, Yang, Guo and Zhang29,Reference Duko, Toma, Asnake and Abraham30 in which respondents with low BMI (underweight) had higher odds of being depressed, in this study we identified overweight as being protective against depression (AOR = 0.231, 95% CI: 0.081–0.658). From a cultural perspective in Cameroon, being overweight gives a sense of well-being and good living, which makes people more cheerful about themselves and therefore less depressed. This is in contrast with patients diagnosed with extrapulmonary tuberculosis, who have greater odds of depression because of the bleaker prognosis of this condition compared with pulmonary tuberculosis. Therefore, more emphatic and targeted psychosocial interventions may need to be specially designed for this particular group of tuberculosis patients, and closer and/or more frequent monitoring of their well-being may be necessary during follow-up.

An intriguing finding was that participants’ income levels were significantly associated with depression: persons with no income and those with incomes above 50 000 FCFA per month had higher odds for depression compared with persons who earned 50 000 FCFA monthly. Although the full explanation for this observation may be complex, it is plausible that tuberculosis made those with no income even more depressed as they had to rely on others not just for provision but also for medical care. Conversely, those earning above 50 000 FCFA may suffer substantial losses of income during the several months of tuberculosis treatment as they would be unable to work during that period. Thus, professional counselling and rehabilitation are important aspects to consider during the tuberculosis treatment process, as such interventions may improve patients’ mood and give them hope of possible financial restoration after recovery.

Prevalence of anxiety and associated factors among tuberculosis patients

Overall, 29.9% of our participants had anxiety. These findings were similar to those from obtained in China (prevalence of 29.3%Reference Liu, Zhang, Qu, Yang, Guo and Zhang29) and in Brazil (prevalence of 26.0%Reference Yilmaz and Dedeli21) but lower than those from Ethiopia (41.5%,Reference Duko, Gebeyehu and Ayano13 54.6%Reference Mohammedhussein, Alenko, Tessema and Mamaru5) and Pakistan (47.2%),Reference Husain, Dearman, Chaudhry, Rizvi and Waheed20 all of which were obtained using the HADS tool. The variation might be due to the differences in the study setting and population variations. In our study, being male was a protective factor with respect to anxiety. Different studies have also shown that anxiety disorders are more common in females than males. Differences in biological factors such as menstruation and social factors such as the burden of household responsibilities may contribute to the higher prevalence of anxiety among females than males.Reference Mohammedhussein, Alenko, Tessema and Mamaru5,Reference Yilmaz and Dedeli21,Reference Kumar, Kumar, Chandra and Kansal28,Reference Ambaw, Mayston, Hanlon and Alem31 This finding certainly warrants a gender-specific approach to the management of tuberculosis patients, as different sexes are affected differently by the disease. In addition, marital status should be considered when treating tuberculosis patients, as we found that married patients were more likely to develop anxiety. This could be due to an inability to work as usual and care for the family, and/or the patient's fear of contaminating his/her spouse and child(ren) with the disease. These patients and their families would very much benefit from proper counselling and guidance in this regard.

Our study is not the first to report that HIV and tuberculosis co-infection is anxiogenic.Reference Deribew, Tesfaye, Hailmichael, Apers, Abebe and Duchateau32 Indeed, HIV/tuberculosis co-infected patients experience a compounded risk for common mental disorders because of the social stigma and discrimination associated with each of those conditions.Reference Li, Lee, Thammawijaya, Jiraphongsa and Rotheram-Borus33 Moreover, the fact that they have a poorer prognosis fuels their uncertainties concerning the future. Therefore, they require close attention and follow-up of their mental health. The increased psychosocial needs of this co-infected population should be taken into account at treatment units for both HIV and tuberculosis.

As observed with depression, strong social support was associated with lower odds for anxiety. It has been demonstrated that good social support is a key component in the prevention of anxiety among healthy individuals,Reference Bøen, Dalgard, Johansen and Nord34 and this is particularly so among tuberculosis patients. In view of the fact that social support significantly affects both anxiety and depression in tuberculosis patients, we recommend that tuberculosis treatment centres should invest in facilitating daily communication between tuberculosis patients undergoing hospital treatment and their families and friends. Moreover, counselling families and communities about the importance of providing support to tuberculosis patients when they return home would go a long way towards improving the well-being of the latter.

Adherence to tuberculosis treatment by patients in Fako division of Cameroon

According to the MARS, 90.7% of tuberculosis patients among our respondents were adherent to treatment, whereas 9.3% were non-adherent. The high adherence in our setting could be due to increased awareness created by the medical staff on the importance of adhering to the treatment protocol, the free provision of medications at no cost to the patient and the fact that patients were aware that taking the medication would improves their treatment outcomes. Such awareness among tuberculosis patients seems to be a determinant of medication adherence and should be preferred to other methods such as daily SMS reminders, which have not proved effective in increasing tuberculosis treatment adherence in Cameroon.Reference Bediang, Stoll, Elia, Abena and Geissbuhler35 A study in South Africa found a slightly lower adherence rate (76%) among tuberculosis patients compared with that of our study.Reference Kastien-Hilka, Rosenkranz, Schwenkglenks, Bennett and Sinanovic36 Furthermore, our findings also showed a higher adherence to tuberculosis treatment compared with data from Ethiopia, where studies suggested a pooled prevalence of non-adherence of about 20% (corresponding to an 80% adherence rate), possibly owing to stigma, high cost of drugs, lack of social support, disrespect from healthcare professionals, health system factors and non-accessibility of drugs.Reference Nezenega, Perimal-Lewis and Maeder37

Associations of depression and anxiety with treatment adherence

Both depression and anxiety were found to be positively associated with non-adherence to tuberculosis treatment. This is because non-adherence leads to poor prognosis and thus poor treatment outcomes, leading to breakdown of the mental health of tuberculosis patients. This is in line with a meta-analysis study in which depressive symptoms in tuberculosis patients were associated with poor medication adherence.Reference Ruiz-Grosso, Cachay, de la Flor, Schwalb and Ugarte-Gil38 Given that anxiety and depression are strong determinants of treatment adherence in tuberculosis, they could be targeted by interventions aiming at attaining 100% tuberculosis treatment adherence in Cameroon. We therefore recommend that mental healthcare should become an integral part of tuberculosis patient management to ensure optimal outcomes. This could be achieved by training the existing health professionals involved in tuberculosis care (mostly nurses) in mental health screening and initial management of abnormalities before referral to a specialist if need be. Such a model that capitalises on the skills of non-physicians was previously suggested for epilepsy care in similar settings,Reference Njamnshi39 with important policy implications which could be translated into tuberculosis management schemes. At the family and community level, modifiable factors associated with anxiety and depression (e.g. social support) could be leveraged to foster better adherence during tuberculosis treatment.

Strengths and limitations of the study

In this study, standard tools were used to assess the associated variables, perceived level of social support, and MARS scores. HADS was used to measure the outcome variables, depression and anxiety. In addition, this study addressed potential confounding variables including medication adherence and participants’ income, which were not considered in most previous studies. Furthermore, the study was multicentric, drawing participants from multiple sites. As such the results, can be generalised to tuberculosis patients being followed up in similar settings, notably in Cameroon and even sub-Saharan Africa, particularly those in their initial weeks of treatment.

However, the study had some limitations. Only the probable prevalence of anxiety and depression was assessed, as we used a screening tool rather than a diagnostic tool. There was a possibility of social desirability bias, as the study was conducted using face-to-face interviews and involved some nurses working in the same hospital where the tuberculosis patients were being followed up. We also had plausibility of recall bias as some of the factors were assessed based on history. Furthermore, important factors including perceived severity of tuberculosis symptoms, perceived stigma and stress levels of tuberculosis patients were not addressed in this study. The expected sample size was 397, but we effectively interviewed only 375 (94.45% of the target sample), which may have underpowered the study for some comparisons.

Implications

Of the participants in this study, 47.7% and 29.9% were found to have depression and anxiety, respectively. Income levels, level of social support, patient status and classification of tuberculosis were the factors that were significantly associated with both depression and anxiety. This highlights the need to pay attention to the mental health conditions of patients with tuberculosis, particularly those with identified risk factors. Tuberculosis treatment centres should develop guidelines to screen and treat depression and anxiety among tuberculosis patients, and possibly other presenting mental disorders. Additional research on determinants of depression and anxiety among tuberculosis patients should be conducted to strengthen and build on the findings of the current study.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1192/bjo.2023.42.

Data availability

The data presented in this paper are freely available from the authors upon reasonable request.

Acknowledgements

We acknowledge the administration of Buea Regional Hospital, Mutengene Baptist Hospital, Tiko Cottage Hospital, Tiko CDC Hospital and the Limbe Regional Hospital for granting access and making it easy for the fieldwork to be done effectively and effortlessly. Sincere gratitude to the department nurses who performed data collection alongside the principal researcher. The study participants are also gratefully acknowledged.

Author contributions

L.C.A. was involved in the conception of the research idea and contributed to the study design, data collection and analysis, interpretation of results and write-up of the initial manuscript. J.N.S.F. reviewed the initial draft and contributed to the interpretation of the results. All authors contributed to the revision of the article, approved the final version to be published and agreed to be accountable for all aspects of the work.

Funding

None.

Declaration of interest

None.

References

Zumla, A, Raviglione, M, Hafner, R, Fordham von Reyn, C. Tuberculosis. N Engl J Med 2013; 368(8): 745–55.CrossRefGoogle ScholarPubMed
Center for Disease Control and Prevention. Tuberculosis (TB). CDC, 2012 (https://www.cdc.gov/tb/publications/factsheets/drtb/mdrtb.htm).Google Scholar
Souza, LLL, Santos, FL dos, Crispim J de, A, Fiorati, RC, Dias, S, Bruce, ATI, et al. Causes of multidrug-resistant tuberculosis from the perspectives of health providers: challenges and strategies for adherence to treatment during the COVID-19 pandemic in Brazil. BMC Health Serv Res 2021; 21(1): 1033.CrossRefGoogle ScholarPubMed
Ugarte-Gil, C, Ruiz, P, Zamudio, C, Canaza, L, Otero, L, Kruger, H, et al. Association of major depressive episode with negative outcomes of tuberculosis treatment. PLoS ONE 2013; 8(7): e69514.CrossRefGoogle ScholarPubMed
Mohammedhussein, M, Alenko, A, Tessema, W, Mamaru, A. Prevalence and associated factors of depression and anxiety among patients with pulmonary tuberculosis attending treatment at public health facilities in Southwest Ethiopia. NDT 2020; 16: 1095–104.CrossRefGoogle ScholarPubMed
Ige, OM, Lasebikan, VO. 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. Ment Health Fam Med 2011; 8(4): 235–41.Google Scholar
Balkissou, AD, Pefura-Yone, EW, Kamga, OJP, Efe-de-Melingui, NR, Afane-Ze, E. Prévalence et facteurs de risque de la dépression mentale au cours de la tuberculose: étude cas-témoin [Prevalence and risk factors for mental depression in tuberculosis: a case-control study.] The Papers 2018: e001 (https://aphre.org/wp-content/uploads/2018/05/The-Papers_Balkissou_Depression_1.pdf [cited 22 Jun 2022]).Google Scholar
Kehbila, J, Ekabe, CJ, Aminde, LN, Noubiap, JJN, Fon, PN, Monekosso, GL. Prevalence and correlates of depressive symptoms in adult patients with pulmonary tuberculosis in the Southwest Region of Cameroon. Infect Dis Poverty 2016; 5(1): 51.CrossRefGoogle ScholarPubMed
Kanmogne, GD, Qiu, F, FE, Ntone, JY, Fonsah, DM, Njamnshi, CT, Kuate, et al. Depressive symptoms in HIV-infected and seronegative control subjects in Cameroon: effect of age, education and gender. PLoS ONE 2017; 12(2):e0171956.CrossRefGoogle ScholarPubMed
Sander, MS, Laah, SN, Titahong, CN, Lele, C, Kinge, T, de Jong, BC, et al. Systematic screening for tuberculosis among hospital outpatients in Cameroon: the role of screening and testing algorithms to improve case detection. J Clin Tuberc Other Mycobact Dis 019; 15: 100095.CrossRefGoogle Scholar
World Health Organization. National Tuberculosis Strategic Plan 2010–2014. WHO, 2009 (https://apps.who.int/iris/bitstream/handle/10665/333646/National-Plan-TB2020-2024-eng.pdf).Google Scholar
Sharma, SK, Mudgal, SK, Thakur, K, Gaur, R. How to calculate sample size for observational and experimental nursing research studies? Nat J Physiol Pharm Pharmacol 2019; 10(1): 1.Google Scholar
Duko, B, Gebeyehu, A, Ayano, G. 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 2015; 15(1): 214.CrossRefGoogle Scholar
Zigmond, AS, Snaith, RP. The hospital anxiety and depression scale. Acta Psychiatr Scand 1983; 67(6): 361–70.CrossRefGoogle ScholarPubMed
Stern, AF. The hospital anxiety and depression scale. Occup Med 2014; 64(5): 393–4.CrossRefGoogle ScholarPubMed
Kocalevent, R-D, Berg, L, Beutel, ME, Hinz, A, Zenger, M, Härter, M, et al. Social support in the general population: standardization of the Oslo social support scale (OSSS-3). BMC Psychol 2018; 6(1): 31.CrossRefGoogle ScholarPubMed
Naidoo, P, Mwaba, K. Helplessness, depression, and social support among people being treated for tuberculosis in South Africa. Soc Behav Pers 2010; 38(10): 1323–33.CrossRefGoogle Scholar
Owie, GO, Olotu, SO, James, BO. Reliability and validity of the Medication Adherence Rating Scale in a cohort of patients with schizophrenia from Nigeria. Trends Psychiatry Psychother 2018; 40: 8592.CrossRefGoogle Scholar
Bursac, Z, Gauss, CH, Williams, DK, Hosmer, DW. Purposeful selection of variables in logistic regression. Source Code Biol Med 2008; 3(1): 17.CrossRefGoogle ScholarPubMed
Husain, MO, Dearman, SP, Chaudhry, IB, Rizvi, N, Waheed, W. The relationship between anxiety, depression and illness perception in tberculosis patients in Pakistan. Clin Pract Epidemiol Ment Health 2008; 4: 4.CrossRefGoogle ScholarPubMed
Yilmaz, A, Dedeli, O. Assessment of anxiety, depression, loneliness and stigmatization in patients with tuberculosis. Acta Paul Enferm 2016; 29: 549–57.CrossRefGoogle Scholar
Amole TG, Yusuf AH, Salihu AS, Tsiga-Ahmed FI. Prevalence and predictors of depression among tuberculosis patients in Kano, North-West Nigeria. Niger J Med. 2020; 29(3): 369.CrossRefGoogle Scholar
Adem, A, Tesfaye, M, Mohammed, M. The prevalence and pattern of depression in patients with tuberculosis on follow up at Jimma University Specialized Hospital and Jimma Health Center. Med Sci 2014; 3(1): 955.CrossRefGoogle Scholar
Molla, A, Mekuriaw, B, Kerebih, H. Depression and associated factors among patients with tuberculosis in Ethiopia: a cross-sectional study. NDT 2019; 15: 1887–93.CrossRefGoogle ScholarPubMed
Ambaw, F, Mayston, R, Hanlon, C, Alem, A. Burden and presentation of depression among newly diagnosed individuals with TB in primary care settings in Ethiopia. BMC Psychiatry 2017; 17(1): 57.CrossRefGoogle ScholarPubMed
Dasa, TT, Roba, AA, Weldegebreal, F, Mesfin, F, Asfaw, A, Mitiku, H, et al. Prevalence and associated factors of depression among tuberculosis patients in Eastern Ethiopia. BMC Psychiatry 2019; 19(1): 82.CrossRefGoogle ScholarPubMed
Amreen, , Rizvi, N. Frequency of depression and anxiety among tuberculosis patients. JTR 2016; 04(04): 183–90.CrossRefGoogle Scholar
Kumar, K, Kumar, A, Chandra, P, Kansal, H. A study of prevalence of depression and anxiety in patients suffering from tuberculosis. J Family Med Prim Care 2016; 5(1): 150.CrossRefGoogle ScholarPubMed
Liu, K, Zhang, Y, Qu, S, Yang, W, Guo, L, Zhang, L. Prevalence and correlates of anxiety and depressive symptoms in patients with and without multi-drug resistant pulmonary tuberculosis in China. Front Psychiatry 2021; 12: 674891.CrossRefGoogle ScholarPubMed
Duko, B, Toma, A, Asnake, S, Abraham, Y. Depression, anxiety and their correlates among patients with HIV in South Ethiopia: an institution-based cross-sectional study. Front Psychiatry 2019; 10: 290.CrossRefGoogle ScholarPubMed
Ambaw, F, Mayston, R, Hanlon, C, Alem, A. 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 2015; 5(7): e007653.CrossRefGoogle Scholar
Deribew, A, Tesfaye, M, Hailmichael, Y, Apers, L, Abebe, G, Duchateau, L, et al. Common mental disorders in TB/HIV co-infected patients in Ethiopia. BMC Infect Dis 2010; 10(1): 201.CrossRefGoogle ScholarPubMed
Li, L, Lee, S-J, Thammawijaya, P, Jiraphongsa, C, Rotheram-Borus, MJ. Stigma, social support, and depression among people living with HIV in Thailand. AIDS Care 2009; 21(8): 1007–13.CrossRefGoogle ScholarPubMed
Bøen, H, Dalgard, O, Johansen, R, Nord, E. Socio-demographic, psychosocial and health characteristics of Norwegian senior centre users: a cross-sectional study. Scand J Public Health 2010; 38: 508–17.CrossRefGoogle ScholarPubMed
Bediang, G, Stoll, B, Elia, N, Abena, J-L, Geissbuhler, A. SMS reminders to improve adherence and cure of tuberculosis patients in Cameroon (TB-SMS Cameroon): a randomised controlled trial. BMC Public Health 2018; 18(1): 583.CrossRefGoogle ScholarPubMed
Kastien-Hilka, T, Rosenkranz, B, Schwenkglenks, M, Bennett, BM, Sinanovic, E. Association between health-related quality of life and medication adherence in pulmonary tuberculosis in South Africa. Front Pharmacol 2017; 8: 919.CrossRefGoogle ScholarPubMed
Nezenega, ZS, Perimal-Lewis, L, Maeder, AJ. Factors influencing patient adherence to tuberculosis treatment in Ethiopia: a literature review. Int J Environ Res Public Health 2020; 17(15): 5626.CrossRefGoogle ScholarPubMed
Ruiz-Grosso, P, Cachay, R, de la Flor, A, Schwalb, A, Ugarte-Gil, C. Association between tuberculosis and depression on negative outcomes of tuberculosis treatment: a systematic review and meta-analysis. PLoS ONE 2020; 15(1): e0227472.CrossRefGoogle ScholarPubMed
Njamnshi, AK. Nonphysician management of epilepsy in resource-limited contexts: roles and responsibilities. Epilepsia 2009; 50(9): 2167–8.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Sociodemographic characteristics of participants

Figure 1

Table 2 Clinical and social support findings

Figure 2

Table 3 Multivariable logistic regression for depression and associated risk factors among tuberculosis patients

Figure 3

Table 4 Multivariable logistic regression for anxiety and associated risk factors among tuberculosis patients

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