Diagnosis and Treatment of Childhood Pulmonary Tuberculosis: A Cross-Sectional Study of Practices among Paediatricians in Private Sector, Mumbai

Majority of children with tuberculosis are treated in private sector in India with no available data on management practices. The study assessed diagnostic and treatment practices related to childhood pulmonary tuberculosis among paediatricians in Mumbai's private sector in comparison with International Standards for Tuberculosis Care (ISTC) 2009. In this cross-sectional study, 64 paediatricians from private sector filled self-administered questionnaires. Cough was reported as a symptom of childhood TB by 77.8% of respondents. 38.1% request sputum smear or culture for diagnosis and fewer (32.8%) use it for patients positive on chest radiographs and 32.8% induce sputum for those unable to produce it. Sputum negative TB suspect is always tested with X-ray or tuberculin skin test. 61.4% prescribe regimen as recommended in ISTC and all monitor progress to treatment clinically. Drug-resistance at beginning of treatment is suspected for child in contact with a drug-resistant patient (67.7%) and with prior history of antitubercular treatment (12.9%). About half of them (48%) request drug-resistance test for rifampicin in case of nonresponse after two to three months of therapy and regimen prescribed by 41.7% for multidrug-resistant TB was as per ISTC. The study highlights inappropriate diagnostic and treatment practices for managing childhood pulmonary TB among paediatricians in private sector.


Introduction
With estimated 80,000 deaths among children in 2013, tuberculosis (TB) continues to be major infectious disease among children [1]. Low-and middle-income countries bear disproportionate burden with more than 50% of the global cases occurring in Southeast Asia and the Western Pacific. India alone accounts for 27% of the global burden of paediatric tuberculosis [2] and nearly five percent of the new cases in India are reported among children [3]. Early detection and treatment are the key to prevent mortality and limit morbidity. It is equally valuable in prevention of multidrug-resistant tuberculosis (MDR-TB), which affects nearly 32000 children globally [4]. The private general practitioner is usually the first point of contact for patients in India [5]. Majority of TB patients receive care from a large variety of providers outside of the national TB programme despite the high costs and varying quality [6]. Even those registered by India's Revised National TB Control Programme (RNTCP) reach the programme after going through cycles of consultation with private practitioners (both qualified and nonqualified) [7]. Management of childhood TB in the private sector, especially adherence to standard treatment guidelines, is crucial for limiting effects of the disease among children.
The first study in India investigating management practices of TB in private sector revealed high magnitude of inappropriate prescribing practices [8]. Since then, many other studies have enquired into management practices in private sector. The studies highlight high variance in clinical practice and most of the practices being inappropriate ones in India [9][10][11][12]. Lack of knowledge of TB treatment regimen and inappropriate prescriptions have been reported across 2 Interdisciplinary Perspectives on Infectious Diseases multiple countries [13][14][15][16]. In 2006, Tuberculosis Coalition for Technical Assistance (TBCTA) developed International Standards for Tuberculosis Care (ISTC) with the purpose of laying down a widely accepted level of care that all practitioners, public and private, should seek to achieve in managing patients who have, or are suspected of having, tuberculosis [17]. Since then, researchers had looked for compliance with these broad set of standards. Evidence from India shows that practices in private sector often deviate from the standards laid down in ISTC [18][19][20]. Most of these studies have focused on general practitioners (with no post graduate qualification in medicine) who manage tuberculosis among adults.
Compared with this, management of TB in children in private sector is still unexplored in India. Appropriate treatment of TB is essential to prevent death, drug-resistance, and adverse effects among affected children. It also will decrease risk of transmission to susceptible contacts. It is therefore pertinent to explore diagnostic and treatment practices in private sector and difficulties they face while providing care to children infected with TB. Many guidelines exist for tuberculosis diagnosis, treatment, and control globally and in India. The World Health Organisation (WHO) Guidance for national tuberculosis programmes on the management of TB in children, the Indian guidelines of the RNTCP, WHO's Rapid Advice-Treatment for tuberculosis in children, ISTC, and the Consensus Statement formed by the Indian Academy of Paediatrics (IAP) are but a few of these. While the first two are more applicable to national health programme that presume it to be the end provider, ISTC and IAP guidelines are more relevant for the private sector that manages TB in its own setting. The healthcare providers in private sector range from nonqualified medical practitioners, pharmacists, and qualified practitioners without training in paediatrics to paediatricians. There is, however, increasing tendency to seek care from paediatricians for a sick child in the city of Mumbai. Previous studies have documented practices among general physicians, but none among paediatricians. This study was conducted among paediatricians in Mumbai who treat TB patients with objective of comparing practices in diagnosis and treatment of TB and drug-resistant tuberculosis to standards set in the ISTC (2009).

Study Settings.
Mumbai is the second largest urban agglomeration in India with a population of over 18 million, more than 1.7 million of whom are children under the age of six [21]. Those who dwell in Mumbai face various environmental hazards including inadequate water and sanitation, pollution, and poor ventilation with almost half the population living in slums where many families live in a single room, making them vulnerable to diseases such as tuberculosis. At least 60,000 cases of TB are estimated to occur annually in the city [22]. A diverse healthcare system exists with both public and private sectors and has a range of healthcare service providers including traditional healers, nonqualified medical practitioners, qualified medical practitioners in primary care, and specialists who provide specific services and includes paediatricians. Public sector follows standardised treatment under India's RNTCP. Allopathy, Ayurveda, and Homeopathy are the main medical disciplines that are offered to patients. While most primary care providers (also referred to as family physicians) practice at single or two locations, most specialists including paediatricians provide their services in multiple healthcare facilities which may include public hospitals, trust hospitals, private-for-profit hospitals, many small size hospitals, and clinics in private sector. Patients diagnosed with TB in private sector may either be treated in private sector itself (most common) or referred to public sector for further management. Participation in Public Private Partnership schemes is poor and nearly half of TB patients of Mumbai continue to take treatment in private sector [22].

Study Design.
The study was descriptive, cross-sectional, and quantitative in nature. It was carried out from December 2012 to February 2014, with data collection period from May 2013 to October 2013.

Development of Study
Tool. The study tool was a selfadministered questionnaire, which was developed by the researcher. The researcher has graduate training in medicine and at time of developing study tool had more than two years of experience in managing health interventions in the field of TB and HIV through a nongovernmental organisation in India. The researcher was pursuing master's degree in public health at time of conducting this research. During preparation of the tool, the ISTC and IAP guidelines were referred to [23,24]. Another researcher with postgraduate training in community medicine and five years of field experience in management of tuberculosis reviewed the questionnaire. After incorporating comments from second researcher, questionnaire was pilot tested by administering it to a private paediatrician working in a tertiary private hospital in Mumbai. Standard 6: children suspected with intrathoracic TB should have sputum examined (by expectoration, gastric washings, or induced sputum) for smear microscopy and culture. In children with negative sputum smears diagnosis should be based on the finding of chest radiographic abnormalities consistent with TB, a history of exposure to an infectious case or evidence of TB infection (positive TST or IGRA) and clinical findings.

Standards for Treatment
Standard 8: all patients who have not been treated previously should receive an internationally accepted first-line treatment regimen using drugs of known bioavailability. The initial phase should consist of 2 months of Isoniazid, Rifampicin, Pyrazinamide, and Ethambutol and continuation phase consists of H and R for 4 months, with doses conforming to international recommendations. Fixed drug combinations (FDCs) are highly recommended.
Standard 10: patients with pulmonary TB should be monitored for response to therapy by follow-up sputum microscopy (2 specimens) at the time of completion of initial phase of treatment (2 months). If smear positive at this stage, smears should be repeated at 3 months, and if positive, culture and DST should be performed. In children, response to treatment is best assessed clinically.
Standard 11: patients should be assessed for DR-TB based on history of prior treatment, exposure to a possible source case of DR-TB, and community prevalence of DR. DST should be conducted at start of therapy for previously treated patients with assessment for DR-TB in all those who remain sputum smear positive at completion of 3 months of treatment and those who have failed, defaulted, or relapsed following one or more courses of treatment. Culture and DST plus resistance to at least isoniazid and rifampicin should be performed in patients in whom DR is likely.
Standard 12: those likely to have TB caused by DR organisms should be treated with specialized regimens containing second-line antituberculosis drugs; regimen should be standardized or based on suspected or confirmed DS patterns. At least 4 drugs to which the organisms are known to be susceptible, including an injectable agent, should be used for at least 18-24 months beyond culture conversion.
For assessing compliance to these standards, suitable items and indicators were developed for each of the selected standards ( Table 1). The indicators related to diagnosis included "cough listed as one of the symptoms that would lead to suspicion of TB," advising sputum smear/culture for TB suspects, those with positive chest X-rays, advising gastric lavage or bronchoalveolar lavage if child is not able to bring out sputum, and whether chest X-ray and/or tuberculin skin test were advised along with sputum smear/culture. The indicators related to treatment included "whether regimen prescribed is two months of four drugs (isoniazid, rifampicin, pyrazinamide and ethambutol) followed by four months of two drugs" (isoniazid and rifampicin), "whether response was monitored clinically," drug-resistance suspected at beginning of treatment in cases of "previous treatment with anti-tubercular drugs" and/or "history of contact with a known case of multidrug-resistant TB," "whether those who are smear positive at three months are tested for sensitivity to rifampicin," and whether the "regimen prescribed for MDR-TB includes four new drugs with one injectable and one fluoroquinolone." Standard 11 states that culture and drug sensitivity tests with at least those for isoniazid and rifampicin should be performed for patients with drug-resistance. However, traditional cultures are associated with delay in diagnosis and rapid molecular tests like Xpert MTB/RIF are recommended by WHO. Since Xpert MTB/RIF does not involve culture and tests for only rifampicin resistance, we measured "testing for rifampicin resistance" without necessity of culture and resistance testing for isoniazid.
Information was also collected on relevant aspects of management of childhood pulmonary tuberculosis. These descriptive variables included paediatricians' characteristics including age, sex, duration of clinical practice, and average number of new TB patients treated every month and the guideline referred by them for managing TB in children. With respect to diagnosis, respondents were asked to list signs that may suggest tuberculosis and challenges faced (if any) in diagnosis. With respect to first regimen offered by paediatricians, we also asked about dosages of each drug prescribed, frequency of administration of drugs (daily or intermittent), and challenges in treatment of childhood pulmonary TB. For assessing practices related to monitoring progress of treatment, investigations advised during and at the end of treatment were enquired into. The questionnaire included a set of questions related to diagnosis of MDR-TB. Apart from the primary outcomes listed in previous paragraph, these included "usual duration of therapy after which non-response to treatment is first suspected" by the practitioner, "action taken for such patients," "usual duration of therapy after which drug-resistance is suspected," "basis of diagnosis of MDR-TB" (bacteriological, clinical, radiological, or combination of these), "type of bacteriological test advised to diagnose drug-resistance" (culture or molecular techniques or both), and "laboratory where the investigation is carried out" (accredited or not accredited). For patients diagnosed with drug-resistant TB, further line of management was enquired into (treat the patient or refer to another practitioner or health facility).

Participants.
The inclusion criteria for participants were postgraduate qualification in paediatrics (allopathy stream) practicing in private sector in Mumbai and those who treated children with pulmonary tuberculosis. An initial list of paediatricians was prepared by approaching Indian Academy of Paediatricians (IAP), online local directory websites, and names suggested by study participants. Paediatricians were approached in person at their respective healthcare facilities and at a conference or by e-mail. E-mail provided link to an open source website harbouring an online version of the questionnaire developed for the study. Gentle reminders were sent once a week for four weeks to the practitioners. Paediatricians who consented to participate were provided with either the hard copy or soft copy of the questionnaire.

Analysis of Data.
The questionnaire included some closed ended questions (e.g., whether you treat or refer MDR-TB patients). Such data was precoded. Other items were open ended (e.g., list investigations advised when you suspect a child to be suffering from pulmonary TB). For open ended items, responses were listed and categorised (e.g., in line with ISTC or not) and codes were assigned. Data was entered in Microsoft Excel version 14.0.0 and analysis involved calculation of frequencies and percentages of practices for variables mentioned above. Although it was not primary aim of the study, the authors also referred to guidelines of IAP and compared the first regimen advised by the practitioners with IAP guidelines [24].

Ethical
Considerations. Ethical norms were followed with an introduction to paediatricians about the nature and purpose of the study. Informed consent process highlighted confidentiality of respondents' identity and the filled questionnaires (hard copy) were kept under lock and key. The online filled questionnaires were accessible only to the researcher and access was protected by a password to the online account. The data entered in Excel file did not bear any personal identifiers. Doctors' doubts regarding funding by a pharmaceutical company were cleared with the assurance that the study was for academic purposes only and was selffunded with no attachments or conflict of interests. Written consent was taken and complete volunteerism was assured before collecting data. The doctors had choice of dissent at any point of answering the questionnaire or after. No incentives were offered for participation in the study.

Profile of the Participants.
A total of 644 doctors were approached: 197 (30.6%) in person and 447 (69.4%) by e-mail. The 197 paediatricians were reached by visits to seventeen tertiary hospitals, seven children hospitals, twelve small size hospitals, three polyclinics, 31 exclusive paediatric clinics, and More than five patients 3 4.7 * Two respondents did not specify years of practice.
one conference venue. Only 58 of the 197 (29.4%) participated in the study; response to e-mail questionnaire was poorer with six participants responding online. Participants' profile has been presented in Table 2. Two-thirds of participants were male and half were younger than 45 years. More than a third of paediatricians were treating three or more cases of childhood TB every month. Out of the 52 doctors who responded that they referred to a guideline, 17 (33%) referred only to guidelines of the IAP, while another 17 (33%) referred to IAP along with other guidelines, including 13 (25%) referring to IAP as well as RNTCP guidelines. 10 (19%) referred only to RNTCP guidelines. Other guidelines they had listed included that of the WHO and Center for Disease Control (CDC). None of the doctors reported referring to the ISTC guidelines.

Investigations to Diagnose Pulmonary TB among Children.
Almost all paediatricians reported asking for X-ray of chest for diagnosis of pulmonary TB when open ended question of "list investigations requested to diagnose pulmonary TB" was asked (Table 3). Majority paediatricians reported prescribing investigations including complete blood count (CBC), erythrocyte sedimentation rate (ESR), and tuberculin skin test (TST). More than one-third of the respondents reported advising sputum smears (and/or cultures) for presence of acid fast bacilli (AFB). Other investigations included immunoglobulins (reported by 7; 11%) and gamma interferon (3; 4.7%). All 24 paediatricians (38%) who advise sputum smear or culture also advise for chest X-ray and/or TST. Another 20 paediatricians (31.7%) reported using sputum test only for some patients; most commonly, test was requested for older children only. Among the 24 paediatricians who were prescribing sputum test for all TB suspects, 21 (87.5%) reported that they request inducing of sputum if child is not able to produce sputum sample. Equal number of paediatricians reported doing sputum examination for all patients whose X-ray findings were suggestive of tuberculosis. More commonly, TST was employed to confirm diagnosis (Table 3); the three others included Interferon Gamma Release Assay (IGRA), starting treatment without any further investigations and repeat X-ray after a course of antibiotics.
A total of 28 clinicians specified challenges faced while diagnosing childhood pulmonary TB. The challenges included patients not able to afford cost of diagnostic tests limiting options with paediatricians (reported by 10; 35.7%), absence of one specific test to confirm TB (9; 32.1%), certain diagnostic procedures like inducing sputum being difficult to implement in practice (7; 25%), and availability of certain tests limited to fewer laboratories (2; 7.1%).

Treating Pulmonary Tuberculosis among Children.
Out of 64 private paediatricians, two doctors (3%) did not specify regimens prescribed by them. Regimens prescribed by remaining 62 practitioners have been presented in Table 4 and are compared with ISTC and IAP guidelines. All doctors were prescribing daily therapy. Regimens prescribed by 38 (61.4%) respondents were as per ISTC 2009 recommendations. However, other regimens prescribed were often in line with IAP recommendations. Almost all (57; 91.9%) paediatricians were following IAP recommended regimens. Table 4 also shows dosages of drugs prescribed by paediatricians in private sector. All respondents who provided information on drug dosages were prescribing ISTC recommended dosage for rifampicin (R) and ethambutol (E). But, doses of isoniazid (H) and pyrazinamide (Z) were often lower than ISTC recommendations (45% and 68%, resp.). Combining data on combination, duration, and dosages for all drugs (data on all three provided by 58 paediatricians), only ten (17.2%) practitioners out of 58 were prescribing appropriate regimen with dosages as recommended by ISTC 2009. When compared with IAP guidelines, dosages of almost all paediatricians were appropriate for R and H but nearly two-thirds of paediatricians were advising higher and lower dosage for E and Z, respectively. A total of 37 paediatricians specified challenges faced by them with paediatric formulations in the treatment of children with TB. Doctors reported that young children found these tablets difficult to ingest (reported by 9; 24.3%) and the taste unpalatable (5; 13.5%). Other reported difficulties included different drug combinations making treatment confusing (8; 21.6%) unavailability of wider choice of drugs (6; 16.2%), adverse effects of drugs (1; 2.7%), and long treatment duration (1; 2.7%).

Monitoring
Response to Treatment. All paediatricians were monitoring response to treatment clinically. Some paediatricians were not advising any routine follow-up investigation; 12.7% were not advising any investigation during treatment and 11.9% at end of treatment (Table 5). These investigations included those for assessing effectiveness of treatment (chest X-ray, sputum smear/culture, CBC, and ESR) as well as those for identifying adverse effects of drugs (liver and renal function tests). Chest X-ray was the most common investigation used for monitoring response during (61.9%) and at end of treatment (84.7%). Sputum smear or culture was requested by less than a third of respondents during treatment and only 8.5% were using it at end of treatment. Decision to stop treatment at end of full course of antitubercular drugs was a clinical one for all respondents, aided by X-ray in a third and sputum in 13.8% of cases.

Practices in Case of Nonresponse to Treatment and Diagnosing of Drug-Resistance.
If the patient was not improving clinically, paediatricians suspected that treatment is failing. Time at which nonresponse to treatment was suspected varied from practitioner to practitioner and was as less as one month to as long as 8 months but most (45 out of 50; 90%) were suspecting it early (within three months of  Table 6). 33 of these who specified the type of test conducted reported use of sputum culture and drug sensitivity (reported by 10) or Xpert MTB/RIF (8) or both (15). Of the 35 who mentioned name of testing laboratories, 27 (77.1%) named laboratories that were accredited by national programme for drug-resistance testing whereas 8 (22.9%) were sending patients to nonaccredited laboratories.

Treatment for Nonresponders of Treatment.
As stated previously and shown in Figure 1, 23 paediatricians did not investigate for drug-resistance when patient did not respond to first regimen; they chose to prescribe another regimen. Details of such second regimens offered prior to investigation of MDR-TB are presented in Table 7. It can be seen that 13 different regimens were prescribed by these 23 physicians. One or no drug was added by nine paediatricians (39%) whereas 14 (61%) reported adding at least two new drugs to previous regimen (eight adding two drugs, three adding three drugs, and four adding four drugs). Three of these 23 (4%) also reported having attempted a third regimen with addition of one new drug (one paediatrician) and two new drugs (two paediatricians) (not shown in table). A total of 14 paediatricians reported treating drugresistant TB and 12 of them (86%) provided details on the type of regimen. Of these 12 paediatricians, five (41.7%) Child does not show response to treatment Suspect drug-resistance and investigate (36) Refer for treatment (26) Did not specify whether they refer or treat (3) Prescribe another regimen (23) Nonresponse to treatment Suspect MDR and investigate, if diagnosed as MDR Treat MDR (7) Did not answer the question (2) Refer for treatment (14) Did not answer the question (4) (63) * Treat MDR-TB $ Figure 1: Actions taken by paediatricians when a patient does not respond to treatment. * one paediatrician reported that he never came across a patient who did not respond to treatment; figures in parenthesis are number of paediatricians following that practice, MDR (multidrugresistant) TB; $ two of these seven paediatricians did not specify regimen. were adding four new drugs including an injectable and a fluoroquinolone (Table 7). Another four (33.3%) said that drugs are chosen on basis of sensitivity test results but did not specify the number of drugs making it not possible to assess compliance with ISTC standards. The remaining three were not adding enough number of drugs or had no injectable drug in combination and were not as per ISTC standards.

Discussion
This cross-sectional survey reveals that diagnostic and treatment practices in management of childhood pulmonary tuberculosis among paediatricians in Mumbai's private sector deviate from practices recommended by the International Standards for Tuberculosis Care (ISTC) 2009. We discuss such deviations in detail and possible reasons of such inappropriate practice and its implications for tuberculosis control in Mumbai. Some studies earlier have assessed management practices for childhood TB and found them to be poor. Of these, one study assessed practices related to chemoprophylaxis in South Africa [25], another assessing appropriateness of regimens offered in public sector [26][27][28]. This is the first study from India that shows that management of childhood TB disease in private sector is also deviating from guidelines. Prompt diagnosis of TB is one of the basic principles in management of this disease. In present study, more than a fifth of paediatricians did not mention cough as symptom of TB (Standard 1 of ISTC). This is likely to delay diagnosis and subsequently treatment with poor outcomes. Singla et al. [10] suggested that not all patients with respiratory symptoms receive an adequate evaluation for tuberculosis highlighting also the missed opportunities for earlier detection that could lead to an increased likelihood that TB bacilli will spread among family members and other people in the community. In previous studies of diagnostic practices, chest X-rays have been the commonest method used [10,19,20,29,30] and this study showed that it holds true for childhood TB as well. Few paediatricians reported using sputum smear or culture for diagnosis in young children who cannot cough up sputum easily (Standard 2) along with difficulty of implementing procedures like gastric lavage and bronchoalveolar lavages; also mentioned by previous investigators [30,31]. In contrast to this, a recent study in the United Kingdom (UK), however, reported that about 77% of respondents use sputum induction for microbiological confirmation [32]. Several systematic reviews questioning reliability of serodiagnostic tests led WHO to release a negative policy recommending nonuse of such diagnostics, leading to its ban in India in 2012 [33,34]. However few paediatricians in this study reported using these techniques in 2013, with possibility of serious epidemiological consequences.
Adequate and complete treatment of TB is cornerstone of TB control as it results in better health outcomes for affected patient as well as reduced chances of infection to others. Previous literature on treatment practices exhibits wide variance in practices, with almost every participating physician having a unique regimen to deal with TB [8,[10][11][12]29]. Although less variance was found in first regimen offered by paediatricians compared to previous literature, more than one-third of paediatricians were following ISTC recommended regimen. While diagnosing TB in a child may be faced with practical difficulty as discussed already, there is no such hindrance for prescribing appropriate treatment as shown in a recent study in UK where adherence to ISTC recommended regimen was universal [32]. Appropriate combination and duration of drugs are not adequate if the dosages are incorrect. Many paediatricians prescribed lower doses of Isoniazid (H) and Pyrazinamide (Z) than recommended. Such lower dosage may potentiate drug-resistance especially when there are no mechanisms to ensure adherence to treatment. Treatment is only prescribed in private sector; there is no mechanism to supervise patients [8,12]. It is also evident that adherence to treatment is often low in private sector [29]. Mechanisms to ensure adherence for patients treated in private sector are a priority and need operational research including piloting of interventions.
Drug-resistant TB is a bacteriological diagnosis for which sputum culture is considered to be the gold standard. However, in this study, many practitioners reported the use of clinical and radiological, and in a few cases serological, means to diagnose DR-TB [23]. This could on the one hand imply missing some children with DR-TB not investigated bacteriologically, while on the other hand other children may unnecessarily be on second-and third-line regimens without bacteriological confirmation. In this study, less than half who advised bacteriological diagnosis asked for both rapid and culture tests; some used culture methods alone which, although accurate, are time consuming and delay diagnosis. Use of rapid molecular techniques like Xpert MTB/RIF is useful to prevent delay but it only detects resistance to rifampicin [35,36]. Presence of resistance to other antibiotics goes undetected and it does not help in formulating individualised regimen. Present study also highlights delay in suspecting drugresistance. The study findings reveal that resistance is not suspected in a child even if she/he has history of prior treatment with antitubercular drugs; patients not responding to treatment are offered another regimen without investigating for presence of drug-resistance, very few of which are adequate to treat MDR-TB. The study also shows that prescriptions after diagnosis of MDR-TB are often inadequate. This is similar to studies not specific to childhood TB [12,18]. Such inadequate regimens will compound monoresistance to MDR to extensively drug-resistant TB (XDR-TB). Such treatment not only will result in failure of treatment in patients but may spread drug-resistant forms to contacts making TB control a very difficult task to accomplish.
There are many differences between diagnostic and treatment standards of ISTC and the consensus statement formed by the IAP [23,24]. IAP recommends use of X-ray for diagnosis of childhood pulmonary TB and similar is practice of many paediatricians. For patients not responding to treatment, it considers addition of single drug (streptomycin) as adequate and appropriate as practised by a few paediatricians in this study. In this study, where first regimens offered by only a little over third paediatricians were in line with ISTC, almost all were appropriate as per IAP criteria. Donald et al. [30] commented that numerous guidelines for managing tuberculosis have much varying standards. Turkova et al. [32] point out that some of the guidelines fail to cover many aspects of management and recommend practices that are sometimes not evidence-based. The guidelines that not necessarily agree with each other could create confusion rather than lead to best practices and may be an important reason of lack of compliance to ISTC found in this study.
The study had certain limitations. First, the response rate was poor and many practitioners did not answer all questions.
Paediatricians who refused to participate may have practices different from those who did participate in the study. Paediatricians who follow national or international guidelines, those who are following updates in TB management, may be more likely to participate in the study which might have affected generalisability of study. The method was questionnaire based and did not involve examining records of patients nor interviewing their guardians. Even in the presence of these limitations, the deviations from ISTC cannot be denied. Childhood TB is managed by general physicians as well but the study did not cover it due to feasibility issues. There is need to study practices among general physicians as even today they are first point of care for majority of people.
There is less reliance on sputum smear or culture for diagnosis of childhood pulmonary TB. More than onethird of paediatricians prescribe inappropriate regimen. Even when drug combination is appropriate, dosages are lower than recommended by ISTC. There is delay in suspecting drug-resistance and second-line drugs are commonly given without confirming drug-resistance. There is need to bring uniformity in guidelines. The study highlights that practices regarding management of childhood pulmonary TB are often not as per International Standards for TB Care.