Background: Smear‑positive pulmonary tuberculosis (SPPTB) is a significant public health concern in Iran. This registry‑based study aimed to investigate the incidence rates of SPPTB in Iran from 2018 to 2022. Methods: The study analyzed SPPTB cases using the Spatial Lag Model to investigate the spatial distribution of SPPTB incidence rates, income inequality, and delayed diagnosis across the provinces of Iran and mapped the results using GIS maps. Results: The study found that SPPTB is prevalent among older individuals and males. The analysis identified significant spatial variation in the distribution of SPPTB incidence rates, income inequality, and delayed diagnosis across the provinces. The highest incidence rate of SPPTB was found in Sistan and Baluchestan Province and Golestan provinces. The study found a positive association between income inequalities, measured by the Gini index, and SPPTB incidence rates, indicating that provinces with higher income inequality may have higher incidence rates of SPPTB. The negative correlation with delayed diagnosis implies that predominantly, SPPTB cases are identified in the early months. Conclusions: The study highlights the need to address socioeconomic disparities in health outcomes and implement targeted interventions in areas with higher income inequality to reduce the burden of SPPTB in Iran. Despite decreased SPPTB incidence rates in Iran over the past decade, some regions, such as Sistan and Baluchestan, still have high incidence rates. The Iranian government has implemented policies and programs to reduce income inequality and delayed diagnosis within the country, which can contribute to reducing the burden of SPPTB.

Case notification rate; incidence rate; Iran; poverty; tuberculosis

Chakaya J, Khan M, Ntoumi F, Aklillu E, Fatima R, Mwaba P, et al. Global Tuberculosis Report 2020–Reflections on the Global TB burden, treatment and prevention efforts. International journal of infectious diseases 2021;113:S7-12.

Niu T, He F, Yang J, Ma C, Xu J, Sun T, et al. The epidemiological characteristics and infection risk factors for extrapulmonary tuberculosis in patients hospitalized with pulmonary tuberculosis infection in China from 2017 to 2021. BMC Infectious Diseases 2023;23:488.

Organization WH. WHO consolidated guidelines on tuberculosis: tuberculosis preventive treatment: World Health Organization; 2020.

Gonzalo-Asensio J, Aguilo N, Marinova D, Martin C. Breaking transmission with vaccines: the case of tuberculosis. Microbiology Spectrum 2017;5:10.1128/microbiolspec. mtbp0001-2016.

Nazar E, Baghishani H, Doosti H, Ghavami V, Aryan E, Nasehi M, et al. Bayesian spatial survival analysis of duration to cure among new smear positive pulmonary tuberculosis (PTB) patients in Iran, during 2011–2018. Int J Environ Res Public Health 2021;18:54.

Millet J P, Moreno A, Fina L, Del Baño L, Orcau A, De Olalla PG, et al. Factors that influence current tuberculosis epidemiology. Eur Spine J 2013;22:539 48.

Zare H, Trujillo AJ, Driessen J, Ghasemi M, Gallego G. Health inequalities and development plans in Iran; An analysis of the past three decades (1984–2010). Int J Equity Health 2014;13:42.

de Castro DB, de Seixas Maciel EMG, Sadahiro M, Pinto RC, de Albuquerque BC, Braga JU. Tuberculosis incidence inequalities and its social determinants in Manaus from 2007 to 2016. Int J Equity Health 2018;17:187.

Bhattacharya J, Bhattacharya J, Kim M. Is Income Inequality Linked to Infectious Disease Prevalence? A Hypothesis Generating Ecological Study Using Tuberculosis. National Bureau of Economic Research; 2023.

Hargreaves JR, Boccia D, Evans CA, Adato M, Petticrew M, Porter JD. The social determinants of tuberculosis: From evidence to action. Am J Public Health 2011;101:654 62.

Organization WH. Global tuberculosis report 2021: supplementary material. Global tuberculosis report 2021: supplementary material 2022.

Marais B, Hesseling A, Cotton M. Poverty and tuberculosis: Is it truly a simple inverse linear correlation? Eur Respir J 2009;33:943 4.

Barter DM, Agboola SO, Murray MB, Bärnighausen T. Tuberculosis and poverty: The contribution of patient costs in sub Saharan Africa–A systematic review. BMC Public Health 2012;12:980.

Paramasivam S, Thomas B, Chandran P, Thayyil J, George B, Sivakumar C. Diagnostic delay and associated factors among patients with pulmonary tuberculosis in Kerala. J Family Med Prim Care 2017;6:643 8.

Santos JA, Leite A, Soares P, Duarte R, Nunes C. Delayed diagnosis of active pulmonary tuberculosis potential risk factors for patient and healthcare delays in Portugal. BMC Public Health 2021;21:2178.

Teo AKJ, Singh SR, Prem K, Hsu LY, Yi S. Duration and determinants of delayed tuberculosis diagnosis and treatment in high burden countries: A mixed methods systematic review and meta analysis. Respir Res 2021;22:251.

Tavakoli A. Incidence and prevalence of tuberculosis in Iran and neighboring countries. Zahedan J Res Med Sci 2017;19:e9238.

Kiani B, Raouf Rahmati A, Bergquist R, Hashtarkhani S, Firouraghi N, Bagheri N, et al. Spatio temporal epidemiology of the tuberculosis incidence rate in Iran 2008 to 2018. BMC Public Health 2021;21:1093.

Glaziou P, Sismanidis C, Zignol M, Floyd K. Methods used by WHO to estimate the global burden of TB disease. Global TB Programme, Geneva, WHO; 2016.

Kurhasani X, Hafizi H, Toci E, Burazeri G. Tuberculosis incidence and case notification rates in Kosovo and the Balkans in 2012: Cross country comparison. Materia Sociomed 2014;26:55 8.

Avilov K, Romanyukha A, Borisov S, Belilovsky E, Nechaeva O, Karkach A. An approach to estimating tuberculosis incidence and case detection rate from routine notification data. Int J Tuberc Lung Dis 2015;19:288 94.

Cole B, Nilsen DM, Will L, Etkind SC, Burgos M, Chorba T. Essential components of a public health tuberculosis prevention, control, and elimination program: Recommendations of the advisory council for the elimination of tuberculosis and the national tuberculosis controllers association. MMWR Recomm Rep 2020;69:1 27.

WHO. Early detection of tuberculosis: An overview of approaches, guidelines and tools; 2011.

Doosti A, Nasehi M, Moradi G, Roshani D, Sharafi S, Ghaderi E. The pattern of tuberculosis in Iran: A national cross sectional study. Iran J Public Health 2023;52:1 27.

Motamedizadeh F, Alimohammadzadeh K, Hosseini SM. Monitoring and evaluation of program performance and management control system of tuberculosis: A ten year cross sectional study in Sistan and Baluchestan province, Iran. Shiraz E Med J 2018;19:e60497.

Setoodehzadeh F, Barfar E, Ansari H, Sari AA, Azizi N. The economic burden of tuberculosis in Sistan: A high-risk region in Iran. Trop Med Int Health 2021;26:649 55.