FACTORS CONTRIBUTING TO PULMONARY TB TREATMENT LOST TO FOLLOW-UP IN DEVELOPING COUNTRIES: AN OVERVIEW

Background: Despite the available treatment options, pulmonary tuberculosis (TB) remains a leading cause of disease-related deaths worldwide. Treatment non-adherence/lost to follow-up (LTFU), particularly in developing countries, is a continuous concern. LTFU prolongs TB infectiousness and contributes to TB treatment failure, relapse, and death. Furthermore, LTFU also delays global TB eradication by promoting TB spread and drug-resistant TB strain development.[1] The purpose of this paper is to give an overview of the commonly observed risk factors associated with TB treatment LTFU in developing countries. Materials and Methods: A literature survey was done of studies published in the past decade, which evaluated the risk factors for LTFU in TB patients, specifically in developing countries. Furthermore, some prospective TB treatment adherence initiatives and the feasibility of these initiatives within developing countries were assessed.[3] Results: Several variables, including socio-demographic, patient-related, TB disease and other health-related-factors, healthcare and system determinants, as well as treatment-related factors, were identified to increase the risk of TB treatment LTFU. More recently applied adherence interventions in developing countries, show potential for implementation on a larger scale. Conclusion: Successful TB treatment is contingent on treatment adherence, and by addressing these persisting LTFU risk factors, treatment adherence in developing countries may be improved.

TB is, however, considered a curable disease, with effective treatment regimens in place. In 2019, treatment success rates (including cured and treatment completed outcomes) were reported to be 86% for new and relapse TB cases, 77% for new and relapse HIV-positive TB cases, and 59% for multidrug-resistant and rifampicin-resistant cases (WHO, 2021). The unsuccessful treatment cases cumulatively include failed treatment, deceased cases, those not evaluated, and lost to follow-up patients (LTFU) ( Table 1), the latter being the focus of this review. Table 1: World Health Organisation (WHO)-assigned definitions for treatment outcomes of Tuberculosis patients (excluding multidrug-or rifampicin-resistant cases) (WHO, 2014).

World Health Organisation (WHO)-assigned definition
Cured A pulmonary TB patient with bacteriologically confirmed TB at the beginning of treatment who was smear-or culture-negative in the last month of treatment and on at least one previous occasion.

Treatment completed
A TB patient who completed treatment without evidence of failure BUT with no record to show that sputum smear or culture results in the last month of treatment and on at least one previous occasion were negative, either because tests were not done or because results are unavailable.

Treatment failed
A TB patient whose sputum smear or culture is positive at month five or later during treatment.
Died A TB patient who dies for any reason before starting or during the course of treatment.

Lost to follow-up (LTFU)
A TB patient who did not start treatment or whose treatment was interrupted for two consecutive months or more.

Not evaluated
A TB patient for whom no treatment outcome is assigned. This includes cases "transferred out" to another treatment unit as well as cases for whom the treatment outcome is unknown to the reporting unit.

Treatment success
The sum of cured and treatment completed.
Given the adaptability of bacteria to the environment, adherence to the prescribed TB treatment regimen is crucial, and even one missed dose greatly increases the chance of acquiring drug-resistant M. tuberculosis (Tola et al., 2019). In addition to the development of drug resistance, treatment LTFU can also cause prolonged infectiousness, with the possibility of treatment failure, relapse, and death (Tola et al., 2019).
TB treatment LTFU can be a consequence of a large number of variables, which can be divided into five categories, namely: (1) socio-demographic factors, (2) patient-related factors, (3) TB disease and other health-related factors, (4) healthcare and system determinants, and (5) treatment-related factors (WHO, 2003).
Despite the acknowledgement of these LTFU risk factors, treatment non-adherence persists, particularly in developing countries such as Ethiopia and Nigeria, with TB LTFU rates in 2021 being reported as 20.9% (Kimani et al., 2021) and 30.5% (Iweama et al., 2021), respectively.
The focus of this review is to give an overview of the risk factors which are regularly associated with first-line TB treatment LTFU in developing countries, and to evaluate if these factors still match those determined previously (WHO, 2003).
Alternative TB treatment regimens and drug resistance can have an impact on LTFU incidence. Therefore, we mainly focussed on the LTFU determinants of drug-susceptible pulmonary TB cases, treated under the standardised first-line treatment regime in developing countries. Furthermore, we assess the efficacy of recently proposed adherence intervention strategies, with a specific focus on their feasibility in developing countries.

Factors associated with TB treatment lost to follow-up Socio-demographic factors
Treatment adherence is known to be influenced by socio-demographic characteristics such as age, gender, nationality, race, occupation, residential area, education level, monthly income, marital status, and socioeconomic stand (WHO, 2003). The following is an overview of the most prevalent socio-demographic factors currently associated with TB treatment LTFU in developing countries.
The rationale behind age group as a risk factor for treatment LTFU was previously related to the fact that older patients experience more extensive TB disease or other age-related health comorbidities (Mundra et al., 2017) and suffer more severe adverse drug events (Chida et al., 2015). Younger age groups, on the other hand, were more likely to be subjected to additional socioeconomic obstacles, such as work responsibilities (Chida et al., 2015, Kimani et al., 2021. These characteristics are, however, not set in stone, and age should therefore be considered as a risk factor on an individual basis, taking other related factors and circumstances into account.

Gender
Although gender is rarely identified as a significant treatment LTFU risk factor (Peltzer et  . This might, in turn, be connected to the increased TB prevalence in males, with adult males accounting for 56% of all newly reported TB cases in 2020 (WHO, 2021). Additionally, it was suggested that this could be linked to other socioeconomic factors, such as, for example, the fact that males are often seen as the primary source of income in many cultures and cannot afford to cease working to get regular medical care (Tachfouti et al., 2013).

Socio-economic stand
Income, education, and employment are all elements which have an impact on an individual's ability to make healthy decisions and could therefore add to the prevalence of TB treatment LTFU. In accordance, numerous independent studies identified factors related to a poor socio-economic stand as being determinants of TB treatment LTFU. This included low monthly income (

Patient-related factors
Patient-related factors, such as, for example, social support, TB disease and treatment perceptions and knowledge, TB stigmatisation, as well as other behavioural factors, including relocation, travelling, smoking, alcohol, and substance use, have been shown to influence an individual's health-seeking behaviours and TB treatment adherence.

Lack of social support
The lack of social support, defined as the perceived and actual lack of assistance given by close friends, family, and the community (Zarova et al., 2018, Chen et al., 2021, have been identified as a risk factor for LTFU in developing countries (Culqui et al., 2012, Finlay et al., 2012, Liddle et al., 2013, Cherkaoui et al., 2014, Ali and Prins, 2016, Gube et al., 2018, Ajema et al., 2020. Patients who have sufficient social support report greater levels of physiological well-being, while those who lack social support could experience a worse quality of life and higher levels of physiological stress. This in turn, have been linked to patients being less likely to adhere to TB treatment (Zarova et al., 2018, Chen et al., 2021.

TB disease and treatment illiteracy
Limited knowledge about the TB disease and the treatment thereof amongst populations in developing countries is also frequently identified as a significant factor contributing towards LTFU ( , without comprehending the full consequences of treatment interruption. A study conducted in India found that the majority of the LTFU patients investigated seem to complete at least the first two months of treatment (Ahmed and Mohan, 2021), while in a South African study it was found that the median period from treatment onset to LTFU was 101 days which, in turn, was linked to TB symptom relief (Kigozi et al., 2017). In a few instances, however, particularly in studies conducted in Ethiopia and India, the association between TB and treatment illiteracy and LTFU incidences was found to be meaningless (Tesfahuneygn et al., 2015, Workie et al., 2021.

TB stigmatisation
TB and treatment illiteracy are further enhanced by misinformation, which according to Msoka et al. (2021) creates a knowledge gap that is often filled with superstition and stigma. In West Africa for instance, Msoka et al.
(2021) reported a stigma that links TB with an ethnic or familial curse, and it is thought that patients are extremely unhygienic, and that the disease is highly contagious, so much so that even healthcare practitioners avoid interacting with TB patients. As a result, individuals are more likely to keep their disease hidden and are less inclined to seek medical care (Msoka et al., 2021). Furthermore, it is reported that the general community in East Africa believe that anybody testing positive for TB is also HIV infected, exacerbating unfavourable attitudes toward TB patients, and negatively impacting treatment adherence (Msoka et al., 2021).
Although not classified as a risk factor for LTFU in a number of studies ( Tachfouti  . In contrast, however, one study conducted in South Korea, a developed country, reported that TB stigmatisation enhances treatment adherence and identified stigma absence as a predictor of treatment LTFU (Park et al., 2016). This occurrence was, however, still attributed to the patients' shame for having tuberculosis and thus seeking treatment early (Park et al., 2016).

Alcohol, smoking and substance use
In addition to the factors discussed above, other social behavioural factors, such as excessive tobacco, alcohol, and substance use, have been shown to contribute to TB treatment LTFU.
Alcohol consumption, ranging from moderate (Culqui et  These behavioural actions could lead to the disruption of medication intake (i.e., lead to forgetfulness (Roy et al., 2015)) and negatively affect help-seeking and treatment processes, resulting in poor treatment adherence (Theron et al., 2015, Workie et al., 2021. Alcohol use for instance, has been linked to increased physiological stress, which in turn has also been associated with TB treatment non-adherence (Theron et al., 2015). Furthermore, alcohol use also contributes to liver damage, which could aggravate the adverse drug events induced by TB drugs (Roy et al., 2015, Theron et al., 2015.

Healthcare and system determinants
In addition to variables related to the patients themselves, treatment adherence is also influenced by factors related to healthcare and the systems in place to provide TB treatment. These determinants include: the accessibility to treatment sites, patient-provider interactions, treatment costs, healthcare worker expertise and TB and treatment counselling given, the sort of DOT (directly observed treatment) supervision, treatment costs and diagnostic regimes.

TB treatment site accessibility
When assessing characteristics associated with TB treatment LTFU, specifically in developing countries, accessibility to TB treatment sites is a crucial issue to consider. For many TB patients, DOT clinics are too far away, and transit costs can be prohibitively high, if at all available (Woimo et al., 2017). Although the relationship between the location of the treatment site and LTFU incidence is occasionally shown to be negligible ( (Muture et al., 2011) to treatment sites as reasons for LTFU. Interestingly, a Ugandan study found that being two kilometres away from the treatment site, as opposed to being closer, resulted in better treatment adherence (Robsky et al., 2020). These patients did, however, present with a greater risk of mortality during treatment due to more severe TB disease, which is suggested to have driven them to better adhere to treatment (Robsky et al., 2020).

Patient-provider relationship and perceived healthcare worker expertise/attitude
Several LTFU patients have reported that they did not receive appropriate care or support during their treatment and that this led to the consequent non-adherence. Inconvenient clinic hours (Finlay et

DOT supervision
The World Health Organisation (WHO) recommends that TB drugs are administered by patients under supervision (DOT) (WHO, 2021). Although supervision by healthcare professionals is the best option, in some cases, such as in many developing countries, where resources are limited, this strategy is challenging to implement. In this case, the WHO advises that any person or video monitoring be used, as long as it is done in real time (WHO, 2020).
Studies have, however, identified the supervision by someone other than a healthcare professional (Woimo et al., 2017, Fang et al., 2019, including self-supervision (Zhou et al., 2012) or a family member (Lei et al., 2016, Lin et al., 2017, as being a risk factor for LTFU. Conversely, one study, conducted in China, identified family supervision as a protective factor against treatment LTFU, owing to the general and psychological support offered by family members (Chen et al., 2013).

Treatment costs
Healthcare related costs, including direct treatment costs (Putera et al., 2015, Lei et al., 2016), and other indirect costs, such as lower income due to work disruption for treatment appointments (Chida et al., 2015), have been identified as risk factors for TB treatment LTFU in Indonesia, China, and Pakistan, respectively. Although some countries provide free TB treatment as part of their national TB programs, these programs, such as the one in Ethiopia, was demonstrated to not necessarily include the medication required for the treatment of adverse drug events, such as liver damage, thereby adding to the probability of LTFU (Woimo et al., 2017).

Inadequate diagnostic regimes
Pre-treatment sputum smear results have been identified as a significant risk factor for TB treatment adherence. This relationship is, however, contradictory, with some studies linking a positive result to an increased chance of LTFU ( . Before re-treatment commences, drug susceptibility testing is recommended to ensure the absence of any drug-resistant strains, which will require adapted treatment (Cadosch et al., 2016). Bacteriological confirmation is necessary for drug susceptibility testing (WHO, 2021), but in 2020, only 59% of all global TB cases were bacteriologically confirmed, and merely 71% of these included rifampicin-resistance testing. By adding the lack of required infrastructure and questionable reliability of patient treatment history to the unconfirmed diagnosis, many re-treatment cases are being placed on the same treatment regime for a second time. This approach is against the WHO's recommendation and is unlikely to result in a higher overall success rate, as shown in data recorded in West Ethiopia (Dedefo et al., 2019).

Treatment-related factors
Drug-susceptible, active TB is currently treated with a six-month DOT, short-course (DOTS) program (WHO, 2021). DOTS treatment consists of two phases, an initial, intensive two-month phase, which entails the coadministration of four first-line drugs, isoniazid, rifampicin, pyrazinamide, and ethambutol, followed by the second phase, including only rifampicin and isoniazid, for a further four months (WHO, 2021). It has been shown that the treatment burden (high pill load and long treatment period) as well as the occurrence of adverse drug events, could further contribute to LTFU.

Treatment burden
The fact that these first-line drugs have to be administered daily, makes the pill burden of TB treatment too high for certain patients (minimum of 9 pills per day for a person weighing 50 kg (Blomberg et al., 2001)), resulting in treatment non-adherence, as seen in populations from Ethiopia and Peru (Culqui et al., 2012, Woimo et al., 2017. In addition, treatment length is also recognized to be a barrier for treatment adherence, with some studies done in developing countries such as Ethiopia, Kiambu County, and India demonstrating that the majority of LTFU instances already occurred during the intensive phase of TB treatment (Mundra et al., 2017, Woimo et al., 2017, Kimani et al.,  2021). When systematically investigating the impact of different treatment lengths on treatment adherence and disease transmission in South Ethiopia, it was found that, while shorter treatment regimens may not necessarily reduce TB prevalence, the epidemiological advantages are closely correlated with improved treatment adherence (Pinho et al., 2015).

Adverse drug events
Many patients encounter adverse drug events during first-line TB treatment varying in degree of severity. A recent study from India found that 34% of all documented cases (n=545) under standardised DOTS treatment reported one or more adverse drug events (Imam et al., 2020). Consequently, in 2015, another study conducted in the same country, found that a quarter of their study cohort reported LTFU due to adverse drug events, mostly within the first two months of treatment (Roy et al., 2015). Substantiating this, is the fact several additional studies, done on cohorts from Ethiopia, India, Kenya, Morocco, Nigeria and Pakistan, also identified the experience of adverse drug events as a risk factor for treatment LTFU ( , 2021), which is in contrast to similar studies where no such significant association was found (Viegas et al., 2017, Afshari et al., 2020, Ajema et al., 2020).
It is however important to note that other risk factors for treatment non-adherence, such as old age, anaemia, overweight, history of smoking, alcohol, and substance use, have all previously been associated with the increased occurrence of TB treatment adverse drug events (Chung-Delgado et al., 2011). As a result, these factors might also be at play here, impacting the degree of adverse drug events experienced, and consequently also affecting TB treatment adherence.

TB disease and other health-related factors TB disease severity
The severity of the TB disease and symptoms also has a probable influence on treatment adherence. Greater lung pathology (Jenkins et al., 2013), severe cough (Nour El Din et al., 2013), and TB-related morbidity (Theron et al., 2015) at treatment commencement have all been associated with an increased likelihood of treatment LTFU. Furthermore, in Peru, low BMI (18.5kg/m 2 ) at treatment enrolment was linked to TB treatment LTFU (Lackey et al., 2015). This association, however, was shown to be insignificant in studies done in Rwanda (Kayigamba et al., 2013) and Ethiopia (Muluye et al., 2018). The co-presentation of TB with HIV is, however, most commonly observed, and alarmingly, TB disease remains one of the leading causes of death among HIV-positive individuals (WHO, 2021). TB patients with an unknown or positive HIV status could be at risk for TB treatment LTFU if they are afraid of the HIV stigma or due to denial or unawareness regarding their HIV-status, as stated in a South African study (Kigozi et al., 2017). On the contrary, an investigation in Ethiopia associated an HIV-negative status with a higher incidence of treatment LTFU, which was attributed to the enhanced counselling and support provided to HIV patients (Ambaw et al., 2018). Similar findings were found in the low TB incidence, developed country, France, where the LTFU risk increased among non-HIV-infected TB patients (Tetart et al., 2020).

Comorbid health conditions
In addition to the social factors, TB treatment, in combination with the existing treatment protocol of a comorbidity, is intolerable for some patients due to the extreme pill burden and adverse drug event occurrence (Kigozi et al., 2017).
A high incidence of psychological distress (including symptoms of depression and anxiety) has been associated with TB patients in South Africa and these symptoms were identified as a contributing LTFU factor in this population (Theron et al., 2015). Another study, conducted in Ethiopia (Ambaw et al., 2018), found that 53.9% of their TB patient cohort had probable depression at treatment baseline. This resulted in a significantly higher LTFU rate at six months (3.9%), in contrast to those without baseline probable depression (0.8%). Ambaw et al. (2018) reasoned that depression may lead to poor self-care and substandard living conditions, which, in TB patients, can result in patients failing to take their prescribed medications and impede them to adhere to the treatment program.

Practicality of interventions to improve TB treatment adherence in developing countries
Multiple intervention strategies have been proposed in an attempt to improve TB treatment adherence rates (WHO, 2003, National Department of Health, 2014). High rates of LTFU, nevertheless, persist, particularly in developing countries. In the following sections, we will provide an overview of more recently suggested intervention strategies, with particular application feasibility in developing countries.

Socio-Economic support
As discussed earlier, socio-economic status has a significant impact on TB treatment adherence; hence, social protection is viewed as an essential component of TB control and eradication in the WHO's End-TB Strategy (Baluku et al., 2021, WHO, 2021. Previous studies conducted in developing countries have shown that social protection policies including cash or resource transfers improve TB treatment outcomes (Richterman et al., 2018, Oliosi et al., 2019. One such initiative, launched in Uganda, was a one-dollar incentive during TB treatment (Baluku et al., 2021). The aim of this initiative was to determine whether a small 'affordable' cash incentive (equivalent to one USD) would improve TB treatment outcomes in the most vulnerable populations. Baluku et al. (2021) reported that in rural Uganda, a clinic visit at a government institution for an individual with TB symptoms costs roughly one USD, which equates to about a quarter or more of these patients' monthly household income. Accordingly, this study reported a 59% increase in the TB cure rate and a 56% reduction in treatment LTFU after providing the incentive (Baluku et al., 2021).
Monetary incentives are further subdivided into conditional and unconditional. Conditional cash incentives require patients to meet particular behavioural, educational, or health requirements before getting the payment, whereas unconditional incentives do not (Boccia et al. 2016). Richterman et al. (2018) compared the benefits of conditional and unconditional cash incentives in health systems and discovered that conditional transfers have positive effects on general health behaviour and outcomes, whereas the effects of unconditional cash transfers were still uncertain.
Additionally, since TB treatment requires a lengthy treatment period, conditional cash transfers were suggested to be more appropriate as a TB treatment adherence intervention (Richterman et al., 2018). This is substantiated by the Ugandan one-dollar incentive, which was solely conditional on patients turning up for their clinic appointments, which as previously stated, resulted in improved treatment outcomes (Baluku et al., 2021). Although past studies have also demonstrated that incentives increase TB successful treatment outcomes, these incentives were often too high to be viable standardised practice in resource-limited, developing countries (Ukwaja et al., 2017, Wingfield et al., 2017, Richterman et al., 2018. Another reported risk of this intervention is that, if the monetary incentive is too high, it may encourage patients who are desperately in need of money to remain ill. As a result, the one-dollar incentive proposed in Uganda (Baluku et al., 2021), in which the money reward principally covers the expenditures incurred during clinic visits, is suggested to be more feasible.

Healthcare and patient-related interventions
Since treatment illiteracy or insufficient pre-treatment counselling are determined here as LTFU contributing factors, the enhancement of such practices is one logical intervention option. Interestingly, however, Cherkaoui et al. (2014) highlighted that previous adherence interventions focusing on single-factorial patient-related or healthcare system-related determinants, such as general TB education incentives, have shown minimal to marginal benefits in developing countries in the past, with more success reported when combining these strategies.
Accordingly, it was suggested that treatment adherence interventions could benefit more by addressing gaps within both patient-related and healthcare system-related determinants of LTFU (Cherkaoui et al., 2014). A few of these previously recommended strategies are reiterated here. Not only, is it imperative for DOT providers to establish and maintain a good patient-provider relationship, but attention should also be given to appropriate patient follow-up, the treatment or prevention of adverse drug events, and to increase the number of decentralised healthcare facilities (especially in rural areas) (Finlay et al., 2012, Cherkaoui et al., 2014, Roy et al., 2015. The rationale behind the lengthy treatment and the necessity of treatment completion despite TB symptoms improvement or the occurrence of adverse drug events, should be discussed (Roy et al., 2015, Ahmed andMohan, 2021). Additionally, any doubts regarding the disease and treatment should be explained before treatment onset and continuously emphasised during treatment (Roy et al., 2015, Ahmed andMohan, 2021). Furthermore, the necessary information regarding the options available to obtain medication during travelling should be provided (Muture et al., 2011).
To further assist good provider-patient relations, it was suggested that enhanced communication and counselling training for healthcare workers along with the use of appropriate patient education materials, be implemented (Finlay et al., 2012). Further program supervision and management improvement were suggested (Finlay et al., 2012) and with frequent monitoring of minor adverse drug events, patients could be treated, reassured, or advised on the correct drug administration procedures (Roy et al., 2015), which in turn could prevent them from treatment LTFU.
Combined psychological counselling and adherence education throughout treatment have been shown to reduce treatment non-adherence in Ethiopia (Tola et al., 2016). Furthermore, in India, four individual counselling sessions done by highly skilled interventionists at months 0, 2, 4, and 6 during TB treatment, were determined to be a viable treatment adherence intervention in TB patients with alcohol dependence (Thomas et al., 2017). The patients undergoing counselling sessions showed significantly higher treatment adherence than those who did not, and the intervention group also had significantly lower Alcohol Use Disorder Identification Test (AUDIT)-scores after treatment completion, relative to that measured before therapy commenced (Thomas et al., 2017).
One intervention strategy that has shown some promise in improving treatment adherence in both developed and developing countries, is the use of mobile health technologies (such as text messaging, phone calls and video observed treatment) to remind and monitor drug administration (Fang et  Here, the dispensing of pills can be tracked through the packaging, which contains a unique code for each drug dose. Once opened, this code must be sent by the patient to the healthcare worker via a telephone call (Cross et al., 2019). 99DOTS further provides healthcare workers with real-time information, allowing them to monitor patients' adherence to treatment and notify them of missed doses (Cross et al., 2019, Thakkar et al., 2019). A reported drawback of this method, however, is that the patient should have regular access to a telephone, which might be more difficult in other resource-constrained developing countries (Cross et al., 2019). Other researchers in India, further suggested that improved implementation strategies are required, as some patients currently make the calls without ingesting the drugs, consequently affecting the accuracy of adherence reporting (Thomas et al., 2020).
As mentioned, another key risk factor for TB treatment LTFU is the challenge of physically getting to TB healthcare facilities. A few strategies have been evaluated over the years to address this issue. For example, in 2019, a study conducted in Saudi Arabia, which is classified as a developed country, compared the LTFU rate among TB patients who were treated using a facility-based DOTS venue versus those treated with a newly proposed Community Mobile Outreach Approach (AlSahafi et al., 2019). The use of the mobile centre resulted in a much lower LTFU rate (3 % vs. 22 % for the facility-based treatment) for the duration of this study, and the mobile outreach also resulted in patients having a better understanding of TB and its treatment (AlSahafi et al., 2019). AlSahafi et al. (2019) further stated that this technique has, similarly, been efficiently implemented in some developing countries, including Myanmar and Pakistan, and its success can be attributed in part to patient satisfaction. This approach, however, is stated to be more difficult to implement in countries where TB stigmatisation is prevalent, because TB drugs are delivered directly to a patient's doorstep (AlSahafi et al., 2019). In this case greater emphasis should be put on improving TB knowledge and eliminating the stigma associated with this infectious disease.

Conclusion
TB treatment efficiency is dependent on the timely initiation and continuation of treatment. This could prevent patient prolonged illness and the development of clinical complications, drug resistance, or premature death (Kigozi et al., 2017). Furthermore, treatment adherence also hinders TB transmission, since patients should become less infectious within two weeks of adequate treatment (Kigozi et al., 2017).
TB treatment LTFU is a major obstacle in the global goal of ending the TB epidemic by 2030 (WHO, 2021). Through this overview, a summary of factors contributing to treatment LTFU was provided in order to promote awareness of this ongoing challenge in TB treatment, specifically in developing countries. It is clear that the LTFU risk factors identified previously (WHO, 2003, National Department of Health, 2014) still persist in developing countries in 2022, and that newer interventions or better adherence and monitoring to interventions, need to be implemented urgently.
It is worth noting, however, that the factors discussed above could only be recognized as possible risks for TB treatment LTFU if it has been investigated and included as a possible variable in the specific study. Hence, the absence of some factors in certain investigations isn't always attributable to a lack of significance, but rather to the study experimental design.
Several adherence strategies were also discussed. Patient-provider interactions and communication should be prioritised, since a thorough understanding of what TB is and how the treatment works can assist in overall treatment adherence rates. Alternative strategies, such as the above-mentioned mobile outreach teams or monetary incentives, may be worth exploring in developing countries.

Statement on Conflict of Interest
The authors declare that there are no competing interests associated with this study.