Publication date: Aug 12, 2024
The evidence on the association of fine particulate matter with an aerodynamic diameter of 2. 5 μm or less (PM2. 5) with pulmonary tuberculosis (PTB) retreatment is limited. There are no data on whether greenness exposure protects air pollution-related PTB retreatment in patients with prior PTB. In a population-based retrospective study, we aimed to investigate the influence of PM2. 5 and residential greenness on the risk of PTB retreatment. A total of 26,482 patients with incident PTB, registered in a mandatory web-based reporting system between 2012 and 2019 in Zhengzhou, China, were included in the analysis. The exposure to PM2. 5 was assessed based on the China High Air Pollutants dataset, and the level of greenness was estimated using the Normalized Difference Vegetation Index (NDVI) values. The associations of PTB retreatment with exposure to PM2. 5 and greenness were evaluated, respectively, considering the local socioeconomic level indicated by the nighttime light index. Among the 26,482 patients (mean age 46. 86, SD 19. 52 years) with a median follow-up time of 1523 days per patient, 1542 (5. 82%) PTB retreatments were observed between 2012 and 2019. Exposure to PM2. 5 was observed to be significantly associated with the increased risk of PTB retreatment in fully adjusted models with a hazard ratio of 1. 97 (95% CI 1. 34-2. 83) per 10 μg/m3 increase in PM2. 5. Patients living in the regions with relatively high quartiles of NDVI values had a 45% lower risk of PTB retreatment than those living in the regions with the lowest quartile for the 500 m buffers (hazard ratio 0. 55, 95% CI 0. 40-0. 77). Such a protective effect of residential greenness was more pronounced among patients living in lower nighttime light areas. The strength of the association between PM2. 5 exposure and the risk of PTB retreatment was attenuated by greenness. No significant association was observed between NDVI and the incidence of drug resistance. Long-term exposure to PM2. 5 might be a risk factor for PTB retreatment, while an increased level of residential greenness was found to be associated with reduced risks of PTB retreatment. Our results suggest strengthening the control of ambient air pollution and improving residential greenness may contribute to the reduction of PTB retreatment.
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Semantics
Type | Source | Name |
---|---|---|
disease | MESH | Pulmonary Tuberculosis |
drug | DRUGBANK | Medical air |
disease | MESH | Tuberculosis |
pathway | KEGG | Tuberculosis |
drug | DRUGBANK | Guanosine |
disease | MESH | infection |
disease | MESH | reinfection |
drug | DRUGBANK | Indoleacetic acid |
disease | MESH | physiological stress |
drug | DRUGBANK | Trestolone |
drug | DRUGBANK | Water |
disease | MESH | treatment failure |
drug | DRUGBANK | Rifampicin |
drug | DRUGBANK | Isoniazid |
disease | MESH | arc |
drug | DRUGBANK | 3 7 11 15-Tetramethyl-Hexadecan-1-Ol |
drug | DRUGBANK | Sodium lauryl sulfate |