Meta-Analysis Approach on Real-Time Pollution Exposure and its Impact on Pediatric Anaemia
Meta-Analysis Approach on Real-Time Pollution Exposure
DOI:
https://doi.org/10.54103/2282-0930/29863Keywords:
Pollution, Anemia, Meta-analysis, Children, MalnutritionAbstract
Background: Ambient air pollution is a major public health threat, especially to children. Fine particulate matter (PM₂.₅) has been associated with anemia through decreased haemoglobin concentrations by inducing oxidative stress and inflammation. In low- and middle-income countries (LMICs), where malnutrition, infections, and air pollution overlap, anemia is still a leading health issue.
Method: This meta-analysis considers the relationship between exposure to PM₂.₅ and anemia in children across studies published within the period from 2010 to 2023. Results from various geographical regions, including India, Latin America, and Sub-Saharan Africa, were incorporated.
Results: A total of 745 records were identified through the database search and 10 studies were included in the qualitative synthesis based on the inclusion criteria. The heterogeneity between included studies was considerable, with a Tau² of 0.03, a Chi² of 42.55, and an I² of 79%. This degree of heterogeneity implies significant differences between studies, possibly because of differences in pollution levels, population characteristics, and study design. The overall impact (N = 6,550; SMD = 1.19; 95% CI: 1.07–1.30; p < 0.00001) was significant, suggesting that exposure to pollution has a quantifiable adverse effect on haematological well-being in children. Increased levels of PM₂.₅ correspond with lower haemoglobin and risk of anemia. Children with high levels of pollution in regions are at more risk, particularly those with any underlying health complication. Susceptibility to pulmonary infections is also increased by air pollution, hence additional health danger.
Conclusion: This research critically assesses the relationship between contemporaneous air pollution and childhood anemia. Implications underscore the imperative for policies on the environment and health to counteract the effects of air pollution on the health of children.
Downloads
References
GBD 2021 Diseases and Injuries Collaborators. Global incidence, prevalence, years lived with disability (YLDs), disability-adjusted life-years (DALYs), and healthy life expectancy (HALE) for 371 diseases and injuries in 204 countries and territories and 811 subnational locations, 1990-2021: a systematic analysis for the Global Burden of Disease Study 2021. Lancet. 2024 May 18;403(10440):2133-2161.
Tuffier S, Zhang J, Bergmann M, So R, Napolitano GM, Cole‐Hunter T, Maric M, Antic S, Brandt J, Ketzel M, Loft S. Long‐term exposure to air pollution and road traffic noise and incidence of dementia in the Danish Nurse Cohort. Alzheimer's & Dementia. 2024 Jun;20(6):4080-91.
Gordon SB, Bruce NG, Grigg J, Hibberd PL, Kurmi OP, Lam KB, Mortimer K, Asante KP, Balakrishnan K, Balmes J, Bar-Zeev N. Respiratory risks from household air pollution in low and middle income countries. The lancet Respiratory medicine. 2014 Oct 1;2(10):823-60.
Jin X, Wu D, Ge F, Cui D, Jumabieke A, Wang X, Wang R, Wang N, Sun J, Liao W, Pan D. Hemoglobin as a mediator between air pollution and growth outcomes in children under 60 months: the moderating role of nutritional supplementation. BMC Public Health. 2025 Mar 28;25(1):1187.
Zdero S. Ambient fine particulate matter (PM₂. ₅) and depressive symptoms: a cross-sectional study of 21 countries (Doctoral dissertation, University of British Columbia).
Moher D, Liberati A, Tetzlaff J, Altman DG, Prisma Group. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. International journal of surgery. 2010 Jan 1;8(5):336-41.
Athe R, Rao MV, Nair KM. Impact of iron-fortified foods on Hb concentration in children (< 10 years): a systematic review and meta-analysis of randomized controlled trials. Public health nutrition. 2014 Mar;17(3):579-86.
Page MJ, Moher D. Evaluations of the uptake and impact of the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) Statement and extensions: a scoping review. Systematic reviews. 2017 Dec;6:1-4.
Mendu VV, Nair KP, Athe R. Systematic review and meta-analysis approach on vitamin A fortified foods and its effect on retinol concentration in under 10 year children. Clinical nutrition ESPEN. 2019 Apr 1;30:126-30.
Joanna Briggs Institute. The Joanna Briggs Institute best practice information sheet: Music as an intervention in hospitals. Nursing & health sciences. 2011 Mar;13(1):99-102.
Zeng X, Zhang Y, Kwong JS, Zhang C, Li S, Sun F, Niu Y, Du L. The methodological quality assessment tools for preclinical and clinical studies, systematic review and meta‐analysis, and clinical practice guideline: a systematic review. Journal of evidence-based medicine. 2015 Feb;8(1):2-10.
Athe R, Dwivedi R, Pati S, Mazumder A, Banset U. Meta-analysis approach on iron fortification and its effect on pregnancy and its outcome through randomized, controlled trials. Journal of family medicine and primary care. 2020 Feb 1;9(2):513-9.
Jin X, Wu D, Ge F, Cui D, Jumabieke A, Wang X, Wang R, Wang N, Sun J, Liao W, Pan D. Hemoglobin as a mediator between air pollution and growth outcomes in children under 60 months: the moderating role of nutritional supplementation. BMC Public Health. 2025 Mar 28;25(1):1187.
Chowdhury S, Chaudhary E, Dey S. Protecting Child Health From Air Pollution in India. Indian Pediatr. 2024 Apr 15;61(4):375-379.
Borenstein M, Hedges LV, Higgins JP, Rothstein HR. Introduction to meta-analysis. John wiley & sons; 2021 Apr 6.
DerSimonian R, Kacker R. Random-effects model for meta-analysis of clinical trials: an update. Contemporary clinical trials. 2007 Feb 1;28(2):105-14.
Peters JL, Sutton AJ, Jones DR, Abrams KR, Rushton L. Comparison of two methods to detect publication bias in meta-analysis. Jama. 2006 Feb 8;295(6):676-80.
Ali MU, Yu Y, Yousaf B, Munir MA, Ullah S, Zheng C, Kuang X, Wong MH. Health impacts of indoor air pollution from household solid fuel on children and women. Journal of hazardous materials. 2021 Aug 15;416:126127.
Dey S. Impact of air pollution on child health in India and the way forward. Indian Pediatrics. 2022 Jun;59(6):447-50.
Garcia E, Berhane KT, Islam T, McConnell R, Urman R, Chen Z, Gilliland FD. Association of changes in air quality with incident asthma in children in California, 1993-2014. Jama. 2019 May 21;321(19):1906-15.
Landrigan PJ, Fuller R, Acosta NJ, Adeyi O, Arnold R, Baldé AB, Bertollini R, Bose-O'Reilly S, Boufford JI, Breysse PN, Chiles T. The Lancet Commission on pollution and health. The lancet. 2018 Feb 3;391(10119):462-512.
Martinez FD, Wright AL, Taussig LM, Holberg CJ, Halonen M, Morgan WJ, Group Health Medical Associates. Asthma and wheezing in the first six years of life. New England Journal of Medicine. 1995 Jan 19;332(3):133-8.
Mehta U, Dey S, Chowdhury S, Ghosh S, Hart JE, Kurpad A. The association between ambient PM2. 5 exposure and anemia outcomes among children under five years of age in India. Environmental Epidemiology. 2021 Feb 1;5(1):e125.
Mittal H, Roberts L, Fuller GW, O’Driscoll S, Dick MC, Height SE, Thein SL, Rees DC. The effects of air quality on haematological and clinical parameters in children with sickle cell anaemia. Annals of hematology. 2009 Jun;88:529-33.
Odo DB, Yang IA, Dey S, Hammer MS, van Donkelaar A, Martin RV, Dong GH, Yang BY, Hystad P, Knibbs LD. A cross-sectional analysis of ambient fine particulate matter (PM2. 5) exposure and haemoglobin levels in children aged under 5 years living in 36 countries. Environmental Research. 2023 Jun 15;227:115734.
Williams AM, Phaneuf DJ, Barrett MA, Su JG. Short-term impact of PM2. 5 on contemporaneous asthma medication use: Behavior and the value of pollution reductions. Proceedings of the National Academy of Sciences. 2019 Mar 19;116(12):5246-53.
Zhang JS, Gui ZH, Zou ZY, Yang BY, Ma J, Jing J, Wang HJ, Luo JY, Zhang X, Luo CY, Wang H. Long-term exposure to ambient air pollution and metabolic syndrome in children and adolescents: a national cross-sectional study in China. Environment international. 2021 Mar 1;148:106383.
Downloads
Published
How to Cite
Issue
Section
Categories
License
Copyright (c) 2025 Mithil AS, HV Nallabothala, SB Myakala, Ramesh Athe
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Accepted 2025-12-18
Published 2026-02-16
