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 Table of Contents  
SELECTED SUMMARIES
Year : 2018  |  Volume : 31  |  Issue : 5  |  Page : 290-292

Need-based approach for cost-effective tuberculosis control in India


Centre for Community Medicine, All India Institute of Medical Sciences, New Delhi, India

Date of Web Publication24-Jun-2019

Correspondence Address:
Sanjeev Kumar Gupta
Centre for Community Medicine, All India Institute of Medical Sciences, New Delhi
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0970-258X.261173


How to cite this article:
Ramadass S, Gupta SK. Need-based approach for cost-effective tuberculosis control in India. Natl Med J India 2018;31:290-2

How to cite this URL:
Ramadass S, Gupta SK. Need-based approach for cost-effective tuberculosis control in India. Natl Med J India [serial online] 2018 [cited 2019 Jul 22];31:290-2. Available from: http://www.nmji.in/text.asp?2018/31/5/290/261173



Vassall A, Siapka M, Foster N, Cunnama L, Ramma L, Fielding K, McCarthy K, Churchyard G, Grant A, Sinanovic E. (TB Centre and Department of Global Health and Development, London School of Hygiene and Tropical Medicine, London, UK; Health Economics Unit, School of Public Health and Family Medicine, University of Cape Town, Cape Town, South Africa; Aurum Institute, Johannesburg, South Africa; School of Public Health, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, South Africa; Division of Public Health, Surveillance and Response, National Institute for Communicable Disease of the National Health Laboratory Service, Johannesburg, South Africa; Advancing Treatment and Care for TB/HIV, South African Medical Research Council, Johannesburg, South Africa; Africa Health Research Institute, School of Nursing and Public Health, University of KwaZulu-Natal, Durban, South Africa.) Cost-effectiveness of Xpert MTB/RIF for tuberculosis diagnosis in South Africa: A real-world cost analysis and economic evaluation. Lancet Glob Health 2017;5:e710–19.


  Summary Top


Vassall et al. conducted a real-world cost analysis and economic evaluation, embedded in a cluster randomized controlled trial (RCT). In South Africa, the National Department of Health, following the recommendation by the WHO, rolled out Xpert MTB/RIF in 2012. The authors conducted a cluster RCT, the XTEND (Xpert for Tuberculosis: Evaluating a New Diagnostic trial) study, during the rollout. The objective was to study the effect of Xpert MTB/RIF on mortality and cost-effectiveness compared to sputum smear microscopy as an initial diagnostic test for tuberculosis (TB) among adults suspected to be suffering from the disease. The XTEND study concluded that Xpert introduction did not reduce the 6-month mortality risk. For cost estimation at the laboratory and above-laboratory level, cost data from all 20 XTEND peripheral laboratories and 1 central reference laboratory were used. Costing data of drug-sensitive TB treatment were collected from 10 purposively selected XTEND study clinics using bottom-up methods. Multidrug-resistant TB (MDR- TB) treatment cost was retrospectively collected from 5 non-XTEND study health facilities. From a systematic review by Siapka et al., HIV treatment cost was retrieved.[1] Direct and indirect costs incurred by the study participants were also collected by interview and from a study by Ramma et al.[2] There was no significant difference in the total costs incurred by the Xpert MTB/RIF (US$ 312.58; 95% CI 252.46–372.70) and sputum smear microscopy groups (US$ 298.58; 95% CI 246.35–350.82). In the upper left quadrant of the cost-effectiveness plane, both mean incremental costs and mean incremental effect of Xpert MTB/RIF fell, compared with sputum smear microscopy. By applying the willingness to pay thresholds, there was <3% probability that Xpert MTB/RIF was cost-effective.


  Comment Top


The study concluded that Xpert roll-out in South Africa for the initial diagnosis of presumptive drug-susceptible TB was cost neutral. The time-frame for this economic analysis was within the trial period of 6 months, potentially underestimating the benefits of Xpert MTB/RIF as an initial diagnostic test among the presumptive drug-susceptible TB individuals. A large study by Sachdeva et al. among 115 340 individuals with presumptive pulmonary TB found that Xpert MTB/RIF as an initial diagnostic test increased the bacteriologically confirmed TB cases by 39% compared to sputum smear microscopy as an initial diagnostic test.[3] It also found that there was a 5-fold increase in case notification and rifampicin-resistant TB cases. This evidence from India suggests that Xpert MTB/RIF can reduce the lead time for both drug-sensitive and drug-resistant detection of TB and can increase its cost-effectiveness. Compared to South Africa, India has different epidemiological characteristics and health systems for the prevention and control of TB and AIDS. Raizada et al. conducted a study covering 8.8 million people in 18 subdistrict level TB units.[4] It compared the efficiency of Xpert MTB/RIF and sputum smear microscopy as an initial diagnostic test for HIV-infected patients with suspected TB. It was found that 27.6% of presumptive TB cases were positive by Xpert MTB/RIF, compared to 12.9% with sputum smear microscopy. Increased sensitivity of Xpert MTB/RIF in diagnosing presumptive TB among HIVpositive patients reduces the transmission of TB and helps in the control of AIDS. Not considering the above benefits of Xpert MTB/RIF may reduce its cost-effectiveness. The costs of false-positive and false-negative TB diagnosis were not taken into consideration. False-positive diagnosis leads to morbidity and mortality for which treatment is deferred. It may also lead to overuse of TB drugs leading to acquired drug resistance. False-negative diagnosis may further increase the transmission of TB. Disregarding these effects may overestimate the cost-effectiveness of Xpert MTB/RIF.

The objective of this real-world cost and economic evaluation was to provide better evidence on the cost-effectiveness of Xpert MTB/RIF using primary data from the XTEND study, a cluster RCT. Costing for the diagnostic test in the laboratory and above-laboratory level was done only in the first and last 2 months of the XTEND study. Costing for the drug-sensitive TB treatment was done by conveniently selecting 10 XTEND study clinics. Five non-XTEND study clinics selected retrospectively were used for costing the MDR-TB. A systematic review by Siapka et al. was used in the costing of HIV.[1] The sample was not adequate to capture the cost incurred by the patients. The above methods used in the costing of the trial could have introduced bias and affected the cost-effectiveness of the XTEND study. Even though the study aimed to provide a real-world economic evaluation, the use of a single RCT is inadequate for arriving at a decision. Sculpher et al. argued that economic evaluation from an RCT should be viewed as one of the sources of evidence and must be placed in a broader framework of evidence synthesis and decision analysis.[5]

Compared to sputum smear microscopy, Xpert MTB/RIF gives results within 2 hours and detects rifampicin resistance, which is a marker for drug-resistant TB.[6] Xpert MTB/RIF has sensitivity and specificity of 88% and 98%, respectively.[7] Currently, under Revised National Tuberculosis Control Programme (RNTCP), Xpert MTB/RIF is used to diagnose presumptive MDR-TB patients, pulmonary TB in children and HIV-positive patients.[8] Chadha et al. conducted a cost analysis of various diagnostic algorithms for pulmonary TB varying in the placement of Xpert MTB/RIF, sputum smear microscopy and chest radiography.[9] Diagnostic algorithms which used Xpert MTB/RIF after having done sputum smear microscopy and chest radiography had the lowest total cost per case compared to the RNTCP guidelines (sputum smear examination followed by antibiotic trial in smear-negative patients, repeat smear examination if symptoms continue and chest radiography if repeat smear examination was negative) for presumptive pulmonary TB diagnosis. Even total cost of the direct introduction of Xpert MTB/RIF as an initial diagnostic test for presumptive pulmonary TB was found to be 39.5% less than the cost mentioned in the RNTCP guidelines. Kelly et al. showed in a cost utility study that light-emitting diode fluorescence microscopy is a cost-effective intervention for detecting TB in high-workload settings.[10] More than 46% of TB patients in India seek care from the unregulated private sector.[11] In the private sector, TB care practices may not adhere to the programme guidelines, and the high price of Xpert MTB/RIF may limit its availability. Suen et al. studied the cost-effectiveness of Xpert MTB/RIF and public–private mix (PPM)/ partnership delivered alone or in combination with drug sensitivity testing from 2015 to 2025.[12] The authors used a previously published dynamic transmission microsimulation model of TB calibrated to Indian demography and TB epidemiology.[13] The authors concluded that public–private mix (PPM)/partnership is more cost-effective than Xpert MTB/RIF alone. They also found that, in situations where resources are readily available, both PPM and Xpert MTB/RIF implementation should be considered than either alone.

For more than 5 decades, India has been fighting to control TB. Yet, it continues to be among the top 10 causes of mortality along with HIV/AIDS in India.[14] The National Strategic Plan (NSP) for tuberculosis elimination 2017–25 visions a TB-free India with 0 deaths, disease and poverty due to TB.[15] The goal of eliminating TB a decade before the set target of 2035 by the WHO ‘End TB Strategy’ may seem overambitious. Nevertheless, the increased understanding of the epidemiology of TB and the availability of newer drugs, diagnostics and newer strategies for treatment and control may achieve the goal of NSP. The aim of universal access to accurate diagnosis in India could be achieved by adopting the diagnostic algorithm based on the prevalence of TB and the profile of patients at the district level rather than having a single diagnostic algorithm countrywide. By adapting to local needs, newer diagnostic tests such as Xpert MTB/RIF may be utilized cost-effectively.

Conflicts of interest. None declared



 
  References Top

1.
Siapka M, Remme M, Obure CD, Maier CB, Dehne KL, Vassall A, et al. Is there scope for cost savings and efficiency gains in HIV services? A systematic review of the evidence from low- and middle-income countries. Bull World Health Organ 2014;92:499-511.  Back to cited text no. 1
    
2.
Ramma L, Cox H, Wilkinson L, Foster N, Cunnama L, Vassall A, et al. Patients’ costs associated with seeking and accessing treatment for drug-resistant tuberculosis in South Africa. Int J Tuberc Lung Dis 2015;19:1513-19.  Back to cited text no. 2
    
3.
Sachdeva KS, Raizada N, Sreenivas A, Van’t Hoog AH, van den Hof S, Dewan PK, et al. Use of Xpert MTB/RIF in decentralized public health settings and its effect on pulmonary TB and DR-TB case finding in India. PLoS One 2015;10:e0126065.  Back to cited text no. 3
    
4.
Raizada N, Sachdeva KS, Sreenivas A, Kulsange S, Gupta RS, Thakur R, et al. Catching the missing million: Experiences in enhancing TB & DR-TB detection by providing upfront Xpert MTB/RIF testing for people living with HIV in India. PLoS One 2015;10:e0116721.  Back to cited text no. 4
    
5.
Sculpher MJ, Claxton K, Drummond M, McCabe C. Whither trial-based economic evaluation for health care decision making? Health Econ 2006;15:677-87.  Back to cited text no. 5
    
6.
Iram S, Zeenat A, Hussain S, Wasim Yusuf N, Aslam M. Rapid diagnosis of tuberculosis using Xpert MTB/RIF assay—Report from a developing country. Pak J Med Sci 2015;31:105-10.  Back to cited text no. 6
    
7.
Steingart KR, Sohn H, Schiller I, Kloda LA, Boehme CC, Pai M, et al. Xpert® MTB/ RIF assay for pulmonary tuberculosis and rifampicin resistance in adults. Cochrane Database Syst Rev 2013;(1): CD009593.  Back to cited text no. 7
    
8.
Central TB Division, DGHS. Technical and Operational Guidelines for Tuberculosis Control in India. New Delhi:RNTCP, Ministry of Health and Family Welfare; 2016.  Back to cited text no. 8
    
9.
Chadha VK, Sebastian G, Kumar P. Cost analysis of different diagnostic algorithms for pulmonary tuberculosis varying in placement of Xpert MTB/RIF. Indian J Tuberc 2016;63:19-27.  Back to cited text no. 9
    
10.
Kelly V, Sagili KD, Satyanarayana S, Reza LW, Chadha SS, Wilson NC, et al. Cost-utility analysis of LED fluorescence microscopy in the diagnosis of pulmonary tuberculosis in Indian settings. Int J Tuberc Lung Dis 2015;19:696-701.  Back to cited text no. 10
    
11.
Satyanarayana S, Nair SA, Chadha SS, Shivashankar R, Sharma G, Yadav S, et al. From where are tuberculosis patients accessing treatment in India? Results from a cross-sectional community based survey of 30 districts. PLoS One 2011;6:e24160.  Back to cited text no. 11
    
12.
Suen SC, Bendavid E, Goldhaber-Fiebert JD. Cost-effectiveness of improvements in diagnosis and treatment accessibility for tuberculosis control in India. Int J Tuberc Lung Dis 2015;19:1115-24, i-xv.  Back to cited text no. 12
    
13.
Suen SC, Bendavid E, Goldhaber-Fiebert JD. Disease control implications of India’s changing multi-drug resistant tuberculosis epidemic. PLoS One 2014;9:e89822.  Back to cited text no. 13
    
14.
Dandona L, Dandona R, Kumar GA, Shukla DK, Paul VK, Balakrishnan K, et al. Nations within a nation: Variations in epidemiological transition across the states of India, 1990-2016 in the Global Burden of Disease Study. Lancet 2017;390: 2437-60.  Back to cited text no. 14
    
15.
Central TB Division. Directorate General of Health Services. National Strategic Plan 2017-2025. New Delhi:Ministry of Health and Family Welfare; 2017.  Back to cited text no. 15
    




 

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