Application of Carbon Materials for the Development of Medical Devices

의료기기의 발전을 위한 탄소소재의 활용

  • Yeong-Gon Kwak (Department of Radiological Science, Wonkwang Health Science University)
  • 곽영곤 (원광보건대학교 방사선과)
  • Published : 2023.05.20

Abstract

Carbon materials are widely used in many areas of our lives. A fiber having a carbon content of 90% or more obtained by heating an organic fiber precursor is referred to as a "carbon fiber". Carbon fibers are currently used in the medical market to manufacture radiation transmission device parts, artificial joints, and medical aids, as many developments have been made to utilize carbon fibers' characteristics such as light weight, radiation permeability, biocompatibility, high strength, high heat resistance, thermal conductivity, and electrical conductivity. In order to maintain body temperature and increase immunity in long-lasting nuclear medical examination and treatment through the idea of convergence of carbon materials and radiation technology, the quality of medical services can be improved by utilizing carbon materials. We should be aware of the domestic carbon-based medical device industry and make efforts to contribute to the development of medical devices. As a radiation expert, we should try to use our skills and experience to find items that can be fused with medical devices to develop various nuclear medical examination fields and radiographic examination fields that can be widely applied. We should actively engage in future technology development and carbon material research to strengthen the global competitiveness of the domestic medical device industry and improve the quality of medical services.

Keywords

Acknowledgement

본 연구는 2023년 원광보건대학교 교내연구비 지원으로 수행되었음.

References

  1. 이태호, 길상철. 탄소섬유의 최신 응용 동향. 한국군사과학기술학회지. 2012;15(4):492-501.  https://doi.org/10.9766/KIMST.2012.15.4.492
  2. 서민강, 박수진. 탄소섬유 제조방법 및 응용분야. Polymer Science and Technology. 2010;21(2):130-40. 
  3. R&D정보센터. 국가주력 6대 탄소산업 정부정책과 국내.외 산업 실태분석 및 발전전망. 2014. 
  4. Korea medical devices industry association. c2012. Medical devices industry statistics. Available at: http://www.kmdia.or.kr/KO/document/center/center01.asp. Accessed September 29, 2020. 
  5. Heo Y. X-ray medical imaging device technology and industry trends. KEIT Issue Report. 2011;9. 
  6. Kim DJ. New material medical device market trend. Medical Device Information. 2019;71(14). 
  7. Song YH, Kang JT, Kim JW, Choi YC, Park SR, Jeong JW. Trends on the development of carbon nanotube-based digital x-ray tube. Electronics and Telecommunications Trends. 2016;31(2): 116-23. 
  8. 변영호, 정혜경. 방사선 이용기술. KISTEP 기술동향브리프. 2018;13:10-15. 
  9. 통계청. 2018 고령자 통계. 2018. 
  10. UNSCEAR, U. N.. Sources and effects of ionizing radiation. UNSCEAR 2008 Report, Vol. 1. Annex A. New York; United Nation; 2010. 
  11. Gu HS. The Effects of the warmed carbon dioxide insufflating on body temperature and thermal discomfort and post-anesthetic recovery in the elderly colorectal cancer patient with laparoscopic surgery. Korean Data Analysis Society. 2013;15(5):2589-603.