Department of Preventive Medicine, College of Medicine, Dankook University, Cheonan, Chungcheongnam-do, Republic of Korea.
Department of Preventive Medicine, College of Medicine, Catholic University of Korea, Seoul, Republic of Korea.
PLoS One. 2021 Feb 25;16(2):e0247661. doi: 10.1371/journal.pone.0247661. eCollection 2021.
In Jang-jeom, a small village in Hamra-myeon, Iksan-si, Jeollabuk-do, South Korea, residents raised concerns about a suspected cancer cluster that they attributed to a fertilizer plant near the village. We aimed to investigate whether the cancer incidence in the village was higher than that in the general Korean population when the factory was in operation (2001-2017) and whether living in the village was associated with a higher risk of cancer.
Using national population data and cancer registration data of South Korea, we estimated the standardized incidence ratios (SIRs) in the village to investigate whether more cancer cases occurred in the village compared to other regions. The SIRs were standardized by age groups of 5 years and sex. In order to investigate whether residence in the village increased the risk of cancer, a retrospective cohort was constructed using National Health Insurance Service (NHIS) databases. We estimated the cancer hazard ratios (HRs) using the Cox proportional hazard model, and defined the exposed area as the village of Jang-jeom, and the unexposed or control area as the village neighborhood in Hamra-myeon. We considered potential confounding variables such as age, sex, and income index in the models. Additionally, we measured polycyclic aromatic hydrocarbons (PAHs) and tobacco-specific nitrosamines (TSNAs), suspected carcinogens that may have caused the cancer cluster, in samples collected from the plant and the village.
Twenty-three cancer cases occurred in Jang-jeom from 2001 to 2017. Between 2010 and 2016, the incidence rates of all cancers (SIR: 2.05, except thyroid cancer: 2.22), non-melanoma skin cancer (SIR: 21.14, female: 25.41), and gallbladder (GB) and biliary tract cancer in men (SIR: 16.01) in the village were higher than those in the national population in a way that was statistically significant. In our cohort analysis that included only Hamra-myeon residents who have lived there for more than 7 years, we found a statistically significant increase in the risk of all cancers (HR: 1.99, except thyroid cancer: 2.20), non-melanoma skin cancer (HR: 11.60), GB and biliary tract cancer (HR: 15.24), liver cancer (HR: 6.63), and gastric cancer (HR: 3.29) for Jang-jeom residents compared to other Hamra area residents. We identified PAHs and TSNAs in samples of deposited dust and residual fertilizer from the plant and TSNAs in dust samples from village houses.
The results of the SIR calculation and cancer risk analyses of Jang-jeom village residents from the retrospective cohort design showed consistency in the effect size and direction, suggesting that there was a cancer cluster in Jang-jeom. This study would be a good precedent for cancer cluster investigation.
在韩国全罗北道益山市咸平面麻里村的漳桥,当地居民对一个可能与村附近的化肥厂有关的疑似癌症集群表示担忧。我们旨在调查当工厂运营时(2001-2017 年),该村的癌症发病率是否高于韩国一般人群,以及居住在该村是否与更高的癌症风险相关。
我们使用了全国人口数据和韩国癌症登记数据,通过年龄组和性别对该村进行标准化发病率比(SIR)估计,以调查该村是否比其他地区发生更多的癌症病例。为了调查居住在该村是否会增加癌症风险,我们使用国民健康保险服务(NHIS)数据库构建了回顾性队列。我们使用 Cox 比例风险模型估计癌症风险比(HR),并将暴露区域定义为漳桥村,非暴露或对照区域定义为咸平面麻里村的村庄周边地区。我们在模型中考虑了年龄、性别和收入指数等潜在混杂变量。此外,我们测量了工厂和村庄采集的样本中的多环芳烃(PAHs)和烟草特异性亚硝胺(TSNAs),这两种物质都被怀疑是导致癌症集群的致癌物质。
2001 年至 2017 年期间,漳桥村共发生 23 例癌症病例。2010 年至 2016 年期间,该村所有癌症(SIR:2.05,甲状腺癌除外:2.22)、非黑色素瘤皮肤癌(SIR:21.14,女性:25.41)和男性胆囊(GB)和胆道癌(SIR:16.01)的发病率均高于全国人口,具有统计学意义。在仅包括在该村居住超过 7 年的咸平面麻里居民的队列分析中,我们发现所有癌症(HR:1.99,甲状腺癌除外:2.20)、非黑色素瘤皮肤癌(HR:11.60)、GB 和胆道癌(HR:15.24)、肝癌(HR:6.63)和胃癌(HR:3.29)的风险均显著增加。我们在工厂的沉积灰尘和剩余肥料样本以及村庄房屋的灰尘样本中检测到了 PAHs 和 TSNAs。
通过回顾性队列设计对漳桥村居民的 SIR 计算和癌症风险分析结果表明,其效应大小和方向具有一致性,表明漳桥村存在癌症集群。本研究将为癌症集群调查提供一个良好的先例。
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