Go to Home

Search

-Advanced Search   -Search Guidelines

Endocrinol Metab.  2022 Oct;37(5):791-799. 10.3803/EnM.2022.1533.

Recent Changes in the Incidence of Thyroid Cancer in Korea between 2005 and 2018: Analysis of Korean National Data

Affiliations
  • 1Department of Internal Medicine, Hallym University Dongtan Sacred Heart Hospital, Hallym University College of Medicine, Hwaseong, Korea
  • 2Department of Internal Medicine, Asan Medical Center, University of Ulsan College of Medicine, Seoul, Korea

Abstract

Background
In this study, we evaluated the recent changes in the standardized, age-specific, stage-specific incidence rates (IRs) of thyroid cancer in Korea and compared them with the incidence data reported by the Surveillance, Epidemiology, and End Results Program.
Methods
The analysis was conducted using the incidence data (2005 to 2018) from the Statistics Korea and Korea Central Cancer Registry.
Results
The age-standardized IR (SIR) of thyroid cancer increased from 24.09 per 100,000 in 2005 to 74.83 in 2012 (annual percent change [APC], 14.5). From 2012 to 2015, the SIR decreased to 42.52 (APC, –17.9) and then remained stable until 2018 (APC, 2.1). This trend was similar in both men and women. Regarding age-specific IRs, the IRs for ages of 30 years and older showed a trend similar to that of the SIR; however, for ages below 30 years, no significant reduction was observed from the vertex of IR in 2015. Regarding stage-specific IRs, the increase was more prominent in those with regional disease (APC, 17.4) than in those with localized disease until 2012; then, the IR decreased until 2015 (APC, –16.1). The average APC from 2005 to 2018 increased in men, those under the age of 30 years, and those with regional disease.
Conclusion
The SIR in Korea peaked in 2012 and decreased until 2015 and then remained stable until 2018. However, in young individuals under the age of 30 years, the IR did not significantly decrease but tended to increase again. In terms of stage-specific IRs, the sharpest increase was seen among those with regional disease.

Keyword

Thyroid neoplasms; Incidence; Epidemiology; Korea

Figure

  • Fig. 1. Standardized incidence rates (SIRs) of thyroid cancer (A) in Korea, and annual percent change of the SIR in Korea in (B) total, (C) male, and (D) female. (E) The SIR in the Surveillance, Epidemiology, and End Results Program (SEER) data. APC, annual percent change; IR, incidence rate. aIndicates that the APC is significantly different from zero at the alpha=0.05 level.

  • Fig. 2. Age-specific thyroid cancer incidence rates (A) in Korea, and annual percent change of the age-specific incidence in Korea by age groups: (B) <20, (C) 20–29, (D) 30–39, (E) 40–49, (F) 50–59, (G) 60–69, and (H) ≥70 years. (I) Age-specific thyroid cancer incidence rates in the Surveillance, Epidemiology, and End Results Program (SEER) data. APC, annual percent change; IR, incidence rate. aIndicates that the APC is significantly different from zero at the alpha=0.05 level.

  • Fig. 3. Stage-specific thyroid cancer incidence rates (A) in Korea, and annual percent change of the stage-specific incidence in Korea according to the stage groups: (B) regional, (C) localized, and (D) distant. (E) Stage-specific thyroid cancer incidence rates in the Surveillance, Epidemiology, and End Results Program (SEER) data. APC, annual percent change; IR, incidence rate. aIndicates that the APC is significantly different from zero at the alpha=0.05 level.


Cited by  5 articles

Survival Comparison of Incidentally Found versus Clinically Detected Thyroid Cancers: An Analysis of a Nationwide Cohort Study
Shinje Moon, Eun Kyung Lee, Hoonsung Choi, Sue K. Park, Young Joo Park
Endocrinol Metab. 2023;38(1):81-92.    doi: 10.3803/EnM.2023.1668.

Cost-Effectiveness of Active Surveillance Compared to Early Surgery of Small Papillary Thyroid Cancer: A Retrospective Study on a Korean Population
Han-Sang Baek, Jeonghoon Ha, Kwangsoon Kim, Jaseong Bae, Jeong Soo Kim, Sungju Kim, Dong-Jun Lim, Chulmin Kim
J Korean Med Sci. 2023;38(34):e264.    doi: 10.3346/jkms.2023.38.e264.

Long-Term Changes in the Mortality Rates of Thyroid Cancer in Korea: Analysis of Korean National Data from 1985 to 2020
Yun Mi Choi, Min-Ju Kim, Jiwoo Lee, Mi Kyung Kwak, Min Ji Jeon, Tae Yong Kim, Eun-Gyoung Hong, Won Bae Kim, Won Gu Kim
Endocrinol Metab. 2023;38(5):588-595.    doi: 10.3803/EnM.2023.1723.

Bilateral axillo-breast approach robotic total thyroidectomy without isthmectomy: a case report
Hyeji Kim, Hyeonuk Hwang, Hyungju Kwon
Ewha Med J. 2024;47(1):e7.    doi: 10.12771/emj.2024.e7.

Cost-Utility Analysis of Early Detection with Ultrasonography of Differentiated Thyroid Cancer: A Retrospective Study on a Korean Population
Han-Sang Baek, Jeonghoon Ha, Kwangsoon Kim, Ja Seong Bae, Jeong Soo Kim, Sungju Kim, Dong-Jun Lim, Chul-Min Kim
Endocrinol Metab. 2024;39(2):310-323.    doi: 10.3803/EnM.2023.1870.


Reference

1. Li M, Dal Maso L, Vaccarella S. Global trends in thyroid cancer incidence and the impact of overdiagnosis. Lancet Diabetes Endocrinol. 2020; 8:468–70.
Article
2. Kim J, Gosnell JE, Roman SA. Geographic influences in the global rise of thyroid cancer. Nat Rev Endocrinol. 2020; 16:17–29.
Article
3. Miranda-Filho A, Lortet-Tieulent J, Bray F, Cao B, Franceschi S, Vaccarella S, et al. Thyroid cancer incidence trends by histology in 25 countries: a population-based study. Lancet Diabetes Endocrinol. 2021; 9:225–34.
Article
4. Kitahara CM, Pfeiffer RM, Sosa JA, Shiels MS. Impact of overweight and obesity on US papillary thyroid cancer incidence trends (1995-2015). J Natl Cancer Inst. 2020; 112:810–7.
Article
5. Sanabria A, Kowalski LP, Shah JP, Nixon IJ, Angelos P, Williams MD, et al. Growing incidence of thyroid carcinoma in recent years: factors underlying overdiagnosis. Head Neck. 2018; 40:855–66.
Article
6. Haugen BR, Alexander EK, Bible KC, Doherty GM, Mandel SJ, Nikiforov YE, et al. 2015 American Thyroid Association management guidelines for adult patients with thyroid nodules and differentiated thyroid cancer: the American Thyroid Association guidelines task force on thyroid nodules and differentiated thyroid cancer. Thyroid. 2016; 26:1–133.
Article
7. Pereira M, Williams VL, Hallanger Johnson J, Valderrabano P. Thyroid cancer incidence trends in the United States: association with changes in professional guideline recommendations. Thyroid. 2020; 30:1132–40.
Article
8. Pizzato M, Li M, Vignat J, Laversanne M, Singh D, La Vecchia C, et al. The epidemiological landscape of thyroid cancer worldwide: GLOBOCAN estimates for incidence and mortality rates in 2020. Lancet Diabetes Endocrinol. 2022; 10:264–72.
Article
9. Jung KW, Won YJ, Kong HJ, Oh CM, Cho H, Lee DH, et al. Cancer statistics in Korea: incidence, mortality, survival, and prevalence in 2012. Cancer Res Treat. 2015; 47:127–41.
Article
10. Ahn HS, Welch HG. South Korea’s thyroid-cancer “epidemic”: turning the tide. N Engl J Med. 2015; 373:2389–90.
Article
11. Davies L, Petitti DB, Martin L, Woo M, Lin JS. Defining, estimating, and communicating overdiagnosis in cancer screening. Ann Intern Med. 2018; 169:36–43.
Article
12. Welch HG, Kramer BS, Black WC. Epidemiologic signatures in cancer. N Engl J Med. 2019; 381:1378–86.
Article
13. Kitahara CM, Sosa JA. Understanding the ever-changing incidence of thyroid cancer. Nat Rev Endocrinol. 2020; 16:617–8.
Article
14. Surveillance, Epidemiology, and End Results. SEER*Explorer: an interactive website for SEER cancer statistics [Internet]. Bethesda: Surveillance Research Program, National Cancer Institute;2022. [cited 2022 Sep 9]. Available from: https://seer.cancer.gov/statistics-network/explorer/.
15. Kim HJ, Fay MP, Feuer EJ, Midthune DN. Permutation tests for joinpoint regression with applications to cancer rates. Stat Med. 2000; 19:335–51.
Article
16. Lee M, Powers AE, Morris LGT, Marti JL. Reversal in thyroid cancer incidence trends in the United States, 2000- 2017. Thyroid. 2020; 30:1226–7.
Article
17. Hong S, Won YJ, Lee JJ, Jung KW, Kong HJ, Im JS, et al. Cancer statistics in Korea: incidence, mortality, survival, and prevalence in 2018. Cancer Res Treat. 2021; 53:301–15.
Article
18. Ellison LF, Bushnik T. Changing trends in thyroid cancer incidence in Canada: a histologic examination, 1992 to 2016. Health Rep. 2020; 31:15–25.
19. Ahn HS, Kim HJ, Welch HG. Korea’s thyroid-cancer “epidemic”: screening and overdiagnosis. N Engl J Med. 2014; 371:1765–7.
Article
20. Park S, Oh CM, Cho H, Lee JY, Jung KW, Jun JK, et al. Association between screening and the thyroid cancer “epidemic” in South Korea: evidence from a nationwide study. BMJ. 2016; 355:i5745.
Article
21. Han MA, Choi KS, Lee HY, Kim Y, Jun JK, Park EC. Current status of thyroid cancer screening in Korea: results from a nationwide interview survey. Asian Pac J Cancer Prev. 2011; 12:1657–63.
22. Yi KH. The revised 2016 Korean Thyroid Association guidelines for thyroid nodules and cancers: differences from the 2015 American Thyroid Association guidelines. Endocrinol Metab (Seoul). 2016; 31:373–8.
Article
23. Lee S, Lee YY, Yoon HJ, Choi E, Suh M, Park B, et al. Responses to overdiagnosis in thyroid cancer screening among Korean women. Cancer Res Treat. 2016; 48:883–91.
Article
24. Oh CM, Lim J, Jung YS, Kim Y, Jung KW, Hong S, et al. Decreasing trends in thyroid cancer incidence in South Korea: what happened in South Korea? Cancer Med. 2021; 10:4087–96.
Article
25. LeClair K, Bell KJL, Furuya-Kanamori L, Doi SA, Francis DO, Davies L. Evaluation of gender inequity in thyroid cancer diagnosis: differences by sex in US thyroid cancer incidence compared with a meta-analysis of subclinical thyroid cancer rates at autopsy. JAMA Intern Med. 2021; 181:1351–8.
Article
26. Yao R, Chiu CG, Strugnell SS, Gill S, Wiseman SM. Gender differences in thyroid cancer: a critical review. Expert Rev Endocrinol Metab. 2011; 6:215–43.
Article
27. Zhai M, Zhang D, Long J, Gong Y, Ye F, Liu S, et al. The global burden of thyroid cancer and its attributable risk factor in 195 countries and territories: a systematic analysis for the Global Burden of Disease Study. Cancer Med. 2021; 10:4542–54.
Article
28. Park J, Park H, Kim TH, Kim SW, Jang HW, Chung JH. Trends in childhood thyroid cancer incidence in Korea and its potential risk factors. Front Endocrinol (Lausanne). 2021; 12:681148.
Article
29. Lee YA, Yun HR, Lee J, Moon H, Shin CH, Kim SG, et al. Trends in pediatric thyroid cancer incidence, treatment, and clinical course in Korea during 2004-2016: a nationwide population-based study. Thyroid. 2021; 31:902–11.
Article
30. Dermody S, Walls A, Harley EH Jr. Pediatric thyroid cancer: an update from the SEER database 2007-2012. Int J Pediatr Otorhinolaryngol. 2016; 89:121–6.
Article
31. Qian ZJ, Jin MC, Meister KD, Megwalu UC. Pediatric thyroid cancer incidence and mortality trends in the United States, 1973-2013. JAMA Otolaryngol Head Neck Surg. 2019; 145:617–23.
Article
32. Vaccarella S, Lortet-Tieulent J, Colombet M, Davies L, Stiller CA, Schuz J, et al. Global patterns and trends in incidence and mortality of thyroid cancer in children and adolescents: a population-based study. Lancet Diabetes Endocrinol. 2021; 9:144–52.
Article
33. Lim H, Devesa SS, Sosa JA, Check D, Kitahara CM. Trends in thyroid cancer incidence and mortality in the United States, 1974-2013. JAMA. 2017; 317:1338–48.
Article
34. Harari A, Li N, Yeh MW. Racial and socioeconomic disparities in presentation and outcomes of well-differentiated thyroid cancer. J Clin Endocrinol Metab. 2014; 99:133–41.
Article
35. Haselkorn T, Stewart SL, Horn-Ross PL. Why are thyroid cancer rates so high in southeast Asian women living in the United States?: the bay area thyroid cancer study. Cancer Epidemiol Biomarkers Prev. 2003; 12:144–50.
36. Horn-Ross PL, McClure LA, Chang ET, Clarke CA, Keegan TH, Rull RP, et al. Papillary thyroid cancer incidence rates vary significantly by birthplace in Asian American women. Cancer Causes Control. 2011; 22:479–85.
Article
37. Magreni A, Bann DV, Schubart JR, Goldenberg D. The effects of race and ethnicity on thyroid cancer incidence. JAMA Otolaryngol Head Neck Surg. 2015; 141:319–23.
Article
38. Lee AW, Mendoza RA, Aman S, Hsu R, Liu L. Thyroid cancer incidence disparities among ethnic Asian American populations, 1990-2014. Ann Epidemiol. 2022; 66:28–36.
Article
39. Jensen CB, Pitt SC. Patient perception of receiving a thyroid cancer diagnosis. Curr Opin Endocrinol Diabetes Obes. 2021; 28:533–9.
Article
40. Davies L, Hendrickson CD, Hanson GS. Experience of US patients who self-identify as having an overdiagnosed thyroid cancer: a qualitative analysis. JAMA Otolaryngol Head Neck Surg. 2017; 143:663–9.
Article
41. Lee B, Park JY, Shin HY, Park SH, Choi EB, Yoo J, et al. What do Korean women know and want to know about thyroid cancer?: a qualitative study. Asian Pac J Cancer Prev. 2016; 17:2901–7.
42. Park SH, Lee B, Lee S, Choi E, Choi EB, Yoo J, et al. A qualitative study of women’s views on overdiagnosis and screening for thyroid cancer in Korea. BMC Cancer. 2015; 15:858.
Article
Full Text Links
  • ENM
Actions
Cited
CITED
export Copy
Close
Share
  • Twitter
  • Facebook
Similar articles

Cited

Download

Close

Save citations to file

Download

Close

Email citations

Send Email
recaptcha 영역

Close

Copyright © 2025 by Korean Association of Medical Journal Editors. All rights reserved.     E-mail: koreamed@kamje.or.kr