对工业排放物和小儿神经母细胞瘤诊断的地理空间评估:回顾性病例系列

Domenica Tambasco, Meredith Franklin, Shelley A Harris, Pauline Tibout, Andrea S Doria
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引用次数: 0

摘要

与小儿神经母细胞瘤恶性相关的环境风险因素并不为人所知,很少有研究对工业排放与神经母细胞瘤诊断之间的关系进行研究。2008年1月至2018年12月期间,加拿大多伦多一家三级医院对310名患者进行了回顾性病例系列评估。研究人员利用国家污染物排放清单(NPRI)中的数据估算了十几种已知或疑似具有致癌性或胚胎毒性的化学品的暴露量。恶性神经母细胞瘤与良性神经母细胞瘤的比较分析和预测性逻辑回归模型包括住宅邻近程度、工业数量和类型、2 千米范围内的平均总排放量以及病例周围 10 千米和 50 千米范围内特定化学物质工业排放量的反距离加权 (IDW) 量等变量。恶性病例与良性病例在居住地与工业的最近平均距离、工业数量或类型、病例居住地半径 2 千米范围内的工业排放平均总量方面没有明显差异。然而,1993年至2019年期间,10千米范围内二恶英和呋喃的内插IDW排放量在统计学上存在显著差异。恶性神经母细胞瘤的浓度为 1.65 克毒性当量(SD 2.01 克毒性当量),明显高于良性神经母细胞瘤的 1.13 克毒性当量(SD 0.84 克毒性当量)(p = 0.05)。在确诊前 3 年的 50 公里范围内,恶性病例暴露于较高水平的铝、苯和二氧化氮(分别为 p = 0.02、p = 0.04 和 p = 0.02)。对半径 50 千米范围内的 IDW 排放进行回归分析后发现,暴露于苯的恶性神经细胞肿瘤的几率更高(OR = 1.03,CI:1.01-1.05,p = 0.01)。这些初步研究结果表明,工业排放物在小儿恶性神经母细胞瘤的发病过程中可能扮演了重要角色,并强调有必要进一步研究这些关联。
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A geospatial assessment of industrial releases and pediatric neuroblastic tumours at diagnosis: A retrospective case series.

Environmental risk factors associated with malignancy of pediatric neuroblastic tumours are not well-known and few studies have examined the relationship between industrial emissions and neuroblastic tumour diagnosis. A retrospective case series of 310 patients was evaluated at a tertiary hospital in Toronto, Canada between January 2008, and December 2018. Data from the National Pollutant Release Inventory (NPRI) were used to estimate exposure for a dozen chemicals with known or suspected carcinogenicity or embryotoxicity. Comparative analysis and predictive logistic regression models for malignant versus benign neuroblastic tumours included variables for residential proximity, number, and type of industries, mean total emissions within 2 km, and inverse distance weighted (IDW) quantity of chemical-specific industrial emissions estimated within 10 and 50 km of cases. No significant difference was seen between malignant and benign cases with respect to the mean nearest residential distance to industry, the number or type of industry, or the mean total quantity of industrial emissions within a 2 km radius of residential location of cases. However, there were statistically significant differences in the interpolated IDW emissions of dioxins and furans released between 1993 and 2019 within 10 km. Concentrations were significantly higher in malignant neuroblastic tumours at 1.65 grams (g) toxic equivalent (TEQ) (SD 2.01 g TEQ) compared to benign neuroblastic tumours at 1.13 g TEQ (SD 0.84 g TEQ) (p = 0.05). Within 50 km 3 years prior to diagnosis, malignant cases were exposed to higher levels of aluminum, benzene, and nitrogen dioxide (p = 0.02, p = 0.04, and p = 0.02 respectively). Regression analysis of the IDW emissions within a 50 km radius revealed higher odds of exposure to benzene for malignant neuroblastic tumours (OR = 1.03, CI: 1.01-1.05, p = 0.01). These preliminary findings suggest a potential role of industrial emissions in the development of malignant pediatric neuroblastic tumours and underscore the need for further research to investigate these associations.

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