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Dohyung Kim 3 Articles
A case of chronic myeloid leukemia in a diagnostic radiographer
Chulyong Park, Sungyeul Choi, Dohyung Kim, Jaechan Park, Saerom Lee
Ann Occup Environ Med 2014;26:54.   Published online November 28, 2014
DOI: https://doi.org/10.1186/s40557-014-0054-8
AbstractAbstract PDFPubReaderePub
<bold>Background</bold>

Occupational radiation exposure causes certain types of cancer, specifically hematopoietic diseases like leukemia. In Korea, radiation exposure is monitored and recorded by law, and guidelines for compensation of radiation-related diseases were implemented in 2001. However, thus far, no occupation-related disease was approved for compensation under these guidelines. Here, we report the first case of radiation-related disease approved by the compensation committee of the Korea Workers’ Compensation and Welfare Service, based on the probability of causation.

<bold>Case presentation</bold>

A 45-year-old man complained of chronic fatigue and myalgia for several days. He was diagnosed with chronic myeloid leukemia. The patient was a diagnostic radiographer at a diagnostic radiation department and was exposed to ionizing radiation for 21 years before chronic myeloid leukemia was diagnosed. His job involved taking simple radiographs, computed tomography scans, and measuring bone marrow density.

<bold>Conclusion</bold>

To our knowledge, this is the first approved case report using quantitative assessment of radiation. More approved cases are expected based on objective radiation exposure data and the probability of causation. We need to find a resolution to the ongoing demands for appropriate compensation and improvements to the environment at radiation workplaces.


Citations

Citations to this article as recorded by  
  • Does occupational ionizing radiation exposure in healthcare workers affect their hematological parameters?
    Nejdiye Güngördü, Seher Kurtul, Ayşenur Özdil, Mehmet Sarper Erdoğan
    Archives of Environmental & Occupational Health.2023; 78(2): 80.     CrossRef
  • Effects of exposure to low-dose ionizing radiation on changing platelets: a prospective cohort study
    Ning Liu, Yang Peng, Xinguang Zhong, Zheng Ma, Suiping He, Ying Li, Wencui Zhang, Zijun Gong, Zhenjiang Yao
    Environmental Health and Preventive Medicine.2021;[Epub]     CrossRef
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  • 2 Web of Science
  • 2 Crossref
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A Case of Tracheal Adenoid Cystic Carcinoma in a Worker Exposed to Rubber Fumes
Dohyung Kim, Yang-In Hwang, Sungyeul Choi, Chulyong Park, Naroo Lee, Eun-A Kim
Ann Occup Environ Med 2013;25:22-22.   Published online October 17, 2013
DOI: https://doi.org/10.1186/2052-4374-25-22
AbstractAbstract PDFPubReaderePub
Background

Primary tracheal tumors occur infrequently, accounting for less than 0.1% of all tumors. Adenoid cystic carcinoma (ACC) is the second most common type of malignancy of the trachea after squamous cell carcinoma (SCC). Little has been reported on the risk factors for tracheal ACC. The purpose of this study is to describe a case of tracheal ACC in a patient who had been exposed to rubber fumes, and to review the relationship between tracheal ACC and rubber fumes.

Case report

A 48-year-old man who had been experiencing aggravation of dyspnea for several months was diagnosed as having ACC of the trachea on the basis of a pathologic examination of a biopsy specimen obtained via laser microscopy-guided resection. The patient had been exposed to rubber fumes for 10 years at a tire manufacturing factory where he worked until ACC was diagnosed. His job involved preheating and changing rubber molds during the curing process.

Conclusion

ACC of both the trachea and the salivary glands show very similar patterns with regard to histopathology and epidemiology and are therefore assumed to have a common etiology. Rubber manufacturing is an occupational risk factor for the development of salivary gland tumors. Further, rubber fumes have been reported to be mutagenic. The exposure level to rubber fumes during the curing process at the patient’s workplace was estimated to be close to or higher than British Occupational Exposure Limits. Therefore, tracheal ACC in this case might have been influenced by occupational exposure to rubber fumes.


Citations

Citations to this article as recorded by  
  • Tracheal adenoid cystic carcinoma with microscopic positive margin—how we approached with a systematic analysis review of its management
    Sivakumar Krishnasamy, Chu-Yik Tang, Pheng Hian Tan
    Indian Journal of Thoracic and Cardiovascular Surgery.2024; 40(3): 332.     CrossRef
  • Trakea Yerleşimli Adenoid Kistik Karsinom: Olgu Sunumu
    Deniz KÜTRİ, Alaattin ÖZEN, Suzan ŞAYLISOY
    Muğla Sıtkı Koçman Üniversitesi Tıp Dergisi.2021; 8(3): 227.     CrossRef
  • Candida Infection Associated with Salivary Gland—A Narrative Review
    Soo-Min Ok, Donald Ho, Tyler Lynd, Yong-Woo Ahn, Hye-Min Ju, Sung-Hee Jeong, Kyounga Cheon
    Journal of Clinical Medicine.2020; 10(1): 97.     CrossRef
  • Polyomavirus JCPyV infrequently detectable in adenoid cystic carcinoma of the oral cavity and the airways
    Hanna Hämetoja, Jaana Hagström, Caj Haglund, Leif Bäck, Antti Mäkitie, Stina Syrjänen
    Virchows Archiv.2019; 475(5): 609.     CrossRef
  • Adenoid Cystic Carcinoma of the Trachea
    Santhosh Kumar N, Elizabeth Mathew Iype, Shaji Thomas, Uma V. Sankar
    Indian Journal of Surgical Oncology.2016; 7(1): 62.     CrossRef
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  • 4 Web of Science
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Subclinical interstitial lung damage in workers exposed to indium compounds
Sungyeul Choi, Yong-Lim Won, Dohyung Kim, Gwang-Yong Yi, Jai-Soung Park, Eun-A Kim
Ann Occup Environ Med 2013;25:24-24.   Published online October 21, 2013
DOI: https://doi.org/10.1186/2052-4374-25-24
AbstractAbstract PDFPubReaderePub
Objectives

The present study was designed to determine whether there is a relationship between indium compound exposure and interstitial lung damage in workers employed at indium tin oxide manufacturing and reclaiming factories in Korea.

Methods

In 2012, we conducted a study for the prevention of indium induced lung damage in Korea and identified 78 workers who had serum indium or Krebs von den Lungen-6 (KL-6) levels that were higher than the reference values set in Japan (3 μg/L and 500 U/mL, respectively). Thirty-four of the 78 workers underwent chest high-resolution computed tomography (HRCT), and their data were used for statistical analysis.

Results

Geometric means (geometric standard deviations) for serum indium, KL-6, and surfactant protein D (SP-D) were 10.9 (6.65) μg/L, 859.0 (1.85) U/mL, and 179.27 (1.81) ng/mL, respectively. HRCT showed intralobular interstitial thickening in 9 workers. A dose–response trend was statistically significant for blood KL-6 levels. All workers who had indium levels ≥50 μg/L had KL-6 levels that exceeded the reference values. However, dose–response trends for blood SP-D levels, KL-6 levels, SP-D levels, and interstitial changes on the HRCT scans were not significantly different.

Conclusions

Our findings suggest that interstitial lung changes could be present in workers with indium exposure. Further studies are required and health risk information regarding indium exposure should be communicated to workers and employers in industries where indium compounds are used to prevent indium induced lung damage in Korea.


Citations

Citations to this article as recorded by  
  • Pulmonary effects of exposure to indium and its compounds: cross-sectional survey of exposed workers and experimental findings in rodents
    Nan Liu, Yi Guan, Yan Yu, Gai Li, Ling Xue, Weikang Li, Xiaoyu Qu, Ning Li, Sanqiao Yao
    Particle and Fibre Toxicology.2022;[Epub]     CrossRef
  • Toxicokinetics and systematic responses of differently sized indium tin oxide (ITO) particles in mice via oropharyngeal aspiration exposure
    Jing Qu, Jianli Wang, Haopeng Zhang, Jingying Wu, Xinmo Ma, Shile Wang, Yiteng Zang, Yuhui Huang, Ying Ma, Yuna Cao, Daming Wu, Ting Zhang
    Environmental Pollution.2021; 290: 117993.     CrossRef
  • Assessment of Occupational Exposure to Indium Dust for Indium-Tin-Oxide Manufacturing Workers
    Boo Wook Kim, Wonseok Cha, Sungwon Choi, Jungah Shin, Byung-Soon Choi, Miyeon Kim
    Biomolecules.2021; 11(3): 419.     CrossRef
  • Biomonitorization of concentrations of 28 elements in serum and urine among workers exposed to indium compounds
    Nan Liu, Yi Guan, Bin Li, Sanqiao Yao, Yi Hu
    PLOS ONE.2021; 16(2): e0246943.     CrossRef
  • The early onset and persistent worsening pulmonary alveolar proteinosis in rats by indium oxide nanoparticles
    Sung-Hyun Kim, Soyeon Jeon, Dong-Keun Lee, Seonghan Lee, Jiyoung Jeong, Jong Sung Kim, Wan-Seob Cho
    Nanotoxicology.2020; 14(4): 468.     CrossRef
  • Effects of indium exposure on respiratory symptoms: a retrospective cohort study in Japanese workers using health checkup data
    Toshiharu Mitsuhashi
    PeerJ.2020; 8: e8413.     CrossRef
  • Application of the ICRP respiratory tract model to estimate pulmonary retention of industrially sampled indium-containing dusts
    Aleksandr B. Stefaniak, M. Abbas Virji, Melissa A. Badding, Kristin J. Cummings
    Inhalation Toxicology.2017; 29(4): 169.     CrossRef
  • Respirable indium exposures, plasma indium, and respiratory health among indium‐tin oxide (ITO) workers
    Kristin J. Cummings, M. Abbas Virji, Ji Young Park, Marcia L. Stanton, Nicole T. Edwards, Bruce C. Trapnell, Brenna Carey, Aleksandr B. Stefaniak, Kathleen Kreiss
    American Journal of Industrial Medicine.2016; 59(7): 522.     CrossRef
  • Indium oxide (In2O3) nanoparticles induce progressive lung injury distinct from lung injuries by copper oxide (CuO) and nickel oxide (NiO) nanoparticles
    Jiyoung Jeong, Jeongeun Kim, Seung Hyeok Seok, Wan-Seob Cho
    Archives of Toxicology.2016; 90(4): 817.     CrossRef
  • Interstitial lung disorders in the indium workers of Korea: An update study for the relationship with biological exposure indices
    Sungyeul Choi, Yong Lim Won, Dohyung Kim, Mi‐Young Lee, Yoon jung Choi, Jai‐Soung Park, Hyoung‐Ryoul Kim, Jung Im Jung, Sang‐Gil Lee, Eun‐A Kim
    American Journal of Industrial Medicine.2015; 58(1): 61.     CrossRef
  • Tissue distribution of indium after repeated intratracheal instillations of indium‐tin oxide into the lungs of hamsters
    Akiyo Tanaka, Miyuki Hirata, Nagisa Matsumura, Yutaka Kiyohara
    Journal of Occupational Health.2015; 57(2): 189.     CrossRef
  • Beryllium and other metal-induced lung disease
    Annyce Mayer, Nabeel Hamzeh
    Current Opinion in Pulmonary Medicine.2015; 21(2): 178.     CrossRef
  • Investigating the potential exposure risk to indium compounds of target manufacturing workers through an analysis of biological specimens
    Yong Lim Won, Yoon Jung Choi, Sungyeul Choi, Eun-A Kim
    Journal of Korean Society of Occupational and Environmental Hygiene.2014; 24(3): 263.     CrossRef
  • Early Changes in Clinical, Functional, and Laboratory Biomarkers in Workers at Risk of Indium Lung Disease
    Kristin J. Cummings, M. Abbas Virji, Bruce C. Trapnell, Brenna Carey, Terrance Healey, Kathleen Kreiss
    Annals of the American Thoracic Society.2014; 11(9): 1395.     CrossRef
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  • 15 Web of Science
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