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Article of the week: Global, regional and national burden of testicular cancer, 1990–2016: results from the Global Burden of Disease Study 2016

Every week, the Editor-in-Chief selects an Article of the Week from the current issue of BJUI. The abstract is reproduced below and you can click on the button to read the full article, which is freely available to all readers for at least 30 days from the time of this post.

In addition to the article itself, there is an editorial written by a prominent member of the urological community, and a video prepared by the authors. These are intended to provoke comment and discussion and we invite you to use the comment tools at the bottom of each post to join the conversation. 

If you only have time to read one article this week, it should be this one.

Global, regional and national burden of testicular cancer, 1990–2016: results from the Global Burden of Disease Study 2016

Farhad Pishgar*, Arvin Haj-Mirzaian, Hedyeh Ebrahimi*, Sahar Saeedi Moghaddam*, Bahram Mohajer*, Mohammad Reza Nowroozi, Mohsen Ayati,  Farshad Farzadfar*, Christina Fitzmaurice§¶ and Erfan Amini

*Non-Communicable Diseases Research Centre, Endocrinology and Metabolism Population Sciences Institute, Uro-Oncology Research Centre, Endocrinology and Metabolism Research Centre, Endocrinology and Metabolism Clinical Sciences Institute, Tehran University of Medical Sciences, Tehran, Iran, §Institute for Health Metrics and Evaluation, andDivision of Haematology, Department of Medicine, University of Washington, Seattle, WA, USA

Abstract

Objective

To provide estimates of the global incidence, mortality and disability‐adjusted life‐years (DALYs) associated with testicular cancer (TCa) between 1990 and 2016, using findings from the Global Burden of Disease (GBD) 2016 study.

Materials and Methods

For the GBD 2016 study, cancer registry data and a vital registration system were used to estimate TCa mortality. Mortality to incidence ratios were used to transform mortality estimates to incidence, and to estimate survival, which was then used to estimate 10‐year prevalence. Prevalence was weighted using disability weights to estimate years lived with disability (YLDs). Age‐specific mortality and a reference life expectancy were used to estimate years of life lost (YLLs). DALYs are the sum of YLDs and YLLs.

Fig.1. Testicular cancer incidence, mortality and DALYs globally, and in the five socio‐demographic index (SDI) quintiles. (A) Incident cases. (B) Age‐standardized incidence rate (ASIR). (C) Deaths. (D) ASDR. (E) Disability‐adjusted life‐year (DALYs). (F) Age‐standardized DALY rate.

Results

Global incidence of TCa showed a 1.80‐fold increase from 37 231 (95% uncertainty interval [ UI] 36 116–38 515) in 1990 to 66 833 (95% UI 64 487–69 736) new cases in 2016. The age‐standardized incidence rate also increased from 1.5 (95% UI 1.45–1.55) to 1.75 (95% UI 1.69–1.83) cases per 100 000. Deaths from TCa remained stable between 1990 and 2016 [1990: 8394 (95% UI 7980–8904), 2016: 8651 (95% UI 8292–9027)]. The TCa age‐standardized death rate decreased between 1990 and 2016, from 0.39 (95% UI 0.37–0.41) to 0.25 (95% UI 0.24–0.26) per 100 000; however, the decreasing trend was not similar in all regions. Global TCa DALYs decreased by 2% and reached 391 816 (95% UI 372 360–412 031) DALYs in 2016. The age‐standardized DALY rate also decreased globally between 1990 and 2016 (10.31 [95% UI 9.82–10.84]) per 100 000 in 2016).

Conclusion

Although the mortality rate for TCa has decreased over recent decades, large disparities still exist in TCa mortality, probably as a result of lack of access to healthcare and oncological treatment. Timely diagnosis of this cancer, by improving general awareness, should be prioritized. In addition, improving access to effective therapies and trained healthcare workforces in developing and under‐developed areas could be the next milestones.

Editorial: Testicular cancer outcome inequality: a curable disease?

Inequalities in cancer survival exist across cities, countries and global regions [1]. Testicular cancer provides a particularly stark example. It has extremely high survival rates, but cure is strongly dependent upon prompt diagnosis. In turn, that depends on reliable access to high‐quality healthcare [23].

In this issue of BJUI, Pishgar et al. [4] report a richly detailed analysis of international variations in testicular cancer mortality. Using data from the 2016 Global Burden of Disease study (GBD), they examine variation in incidence and outcomes from testicular cancer, including impact on disability‐adjusted life years (DALYs) and mortality, across 21 regions and 195 countries, since the GBD started in 1990.

Testicular cancer incidence increased globally between 1990 and 2016. This may reflect underlying, environmentally determined birth cohort effects, improving identification of underlying disease burden, or both [5]. Notably, increases do not appear to have been shared evenly between countries, or across different social sociodemographic index (SDI) quintiles; the age‐standardised incidence rate actually decreased in the low and low–middle SDI quintiles, but increased in high, high–middle and middle SDI quintiles. However, evidence of a link between access to healthcare and incidence of testicular cancer is lacking.

More strikingly, the authors conclude that although testicular cancer survival globally is improving, disparities between countries remain entrenched. In fact, a countervailing increase in mortality in some developing countries over the study period suggests a major task ahead for those healthcare systems.

Testicular cancer does not have a screening test. Early diagnosis and optimal outcome generally relies upon self‐examination; prompt referral to a urology service for initial surgical management; and early involvement of a wider multidisciplinary team, including a specialist oncologist; in accordance with international guidelines. Accordingly, disparities in testicular cancer outcomes may be attributable to variations in one or more of the following:

  • Education and health literacy
  • Health insurance cover, equivalent ability to pay ‘out of pocket’ (OOP) charges. With the health insurance coverage, cover your family to protect them from costly final expenses by getting a final expense insurance or burial insurance from insuranceforfinalexpense.com.
  • Access to both primary care and specialty services
  • Availability of key resources (e.g., platinum‐based chemotherapy)
  • Adherence to best practice guidelines

Access to healthcare and protection of individuals from OOP costs may predominate amongst all of these factors. In countries with partial or total OOP funding, the early diagnosis of cancer risks being seen, not as an opportunity to avert the development of life‐threatening disease, but as a financial decision with significant personal and family implications [6]. Encouraging proactive health‐seeking behaviours is challenging in the setting of universal health coverage; much more so in the context of such basic conflicts. The likely effects of these conflicts are observable in developed and developing countries alike, as long as OOP costs remain a fact of life for significant numbers of citizens [23].

The Pishgar et al. [4] study, and the GBD more widely, are subject to some basic methodological limitations inherent in any international registry‐based analysis. Unmeasured and uncontrolled confounding is inevitable. Variation in outcomes between countries and over time may reflect true variation, or variation in coding practice, quality assurance and accuracy.

More fundamentally, quantitative analysis is limited to identifying, rather than explaining international trends in cancer outcomes. Such trends can then be used to generate hypotheses. Qualitative methods can then be incorporated, generating meaningful insights into different healthcare systems’ relative performances, and testing those hypotheses.

Building on the data reported here, Medicare Advantage 2020 qualitative analysis incorporate insights into better‐performing countries’ strategies for promoting self‐examination, and providing high‐quality, evidence‐based multidisciplinary care, through an appropriately trained specialist workforce, could provide a basis for developing countries to develop their own contextually tailored strategies. Across many developing world contexts, access to platinum‐based chemotherapy remains an essential priority [7].

It is notable that DALYs are incorporated into this high‐level international comparison and encouraging that they are falling globally [4]. Again, combining qualitative analysis with the insights provided by these international and temporal analyses of DALYs could enrich our understanding of the interaction between approaches to testicular cancer care and patient experience. For example, Pishgar et al. [4] report that Kiribati, Chile, and Argentina had the highest testicular cancer‐specific age‐standardised DALY rates. Focussed qualitative research in these countries, possibly incorporating comparisons with higher performing settings, could facilitate targeted improvements to patient care and experience. As more countries achieve the highest cure rates for testicular cancer, patient experience will assume increasing importance as a measure of care quality in this disease.

Analyses like this have the potential to provoke important conversations and to generate hypotheses in specialist clinical and health policy research. As clinicians, researchers and policy‐makers, this study should encourage us to think critically about the policy context in which we see testicular cancer, the reasons patients might present late, and how equity of outcome might be achieved both within and beyond our own immediate surroundings. Pishgar et al. [4] invaluably remind us that we remain some way off being able to call testicular cancer a curable disease for all patients, in all settings.

References

  1. Global Cancer Observatory (GLOBOCAN). Available at: https://gco.iarc.fr. Accessed June 2019.
  2. Markt SCLago‐Hernandez CAMiller RE et al. Insurance status and disparities in disease presentation, treatment, and outcomes for men with germ cell tumors. Cancer 20161223127– 35
  3. Withington JCole AP, Meyer CP et alComparison of testis cancer‐specific survival: an analysis of national cancer registry data from the USA, UK and Germany. BJU Int 2019123385– 7
  4. Pishgar FHaj‐Mirzaian AEbrahimi H et al. Global, regional, and national burden of testicular cancer, 1990–2016: results from the global burden of disease study 2016. BJU Int 2019124386– 94
  5. Shanmugalingam TSoultati AChowdhury S, Rudman S, Van Hemelrijck M. Global incidence and outcome of testicular cancer. Clin Epidemiol 20135417– 27
  6. Rajpal SKumar AJoe WEconomic burden of cancer in India: evidence from cross‐sectional nationally representative household survey, 2014. PLoS One 201813e0193320.
  7. Lancet Global Health. Lifting the veil on cancer treatment. Lancet 2019; 7: PE281. DOI: 10.1016/ S2214‐109X(19)30014‐2

Video: Global, regional and national burden of testicular cancer

Global, regional and national burden of testicular cancer, 1990–2016: results from the Global Burden of Disease Study 2016

Read the full article

Abstract

Objective

To provide estimates of the global incidence, mortality and disability‐adjusted life‐years (DALYs) associated with testicular cancer (TCa) between 1990 and 2016, using findings from the Global Burden of Disease (GBD) 2016 study.

Materials and Methods

For the GBD 2016 study, cancer registry data and a vital registration system were used to estimate TCa mortality. Mortality to incidence ratios were used to transform mortality estimates to incidence, and to estimate survival, which was then used to estimate 10‐year prevalence. Prevalence was weighted using disability weights to estimate years lived with disability (YLDs). Age‐specific mortality and a reference life expectancy were used to estimate years of life lost (YLLs). DALYs are the sum of YLDs and YLLs.

Results

Global incidence of TCa showed a 1.80‐fold increase from 37 231 (95% uncertainty interval [ UI] 36 116–38 515) in 1990 to 66 833 (95% UI 64 487–69 736) new cases in 2016. The age‐standardized incidence rate also increased from 1.5 (95% UI 1.45–1.55) to 1.75 (95% UI 1.69–1.83) cases per 100 000. Deaths from TCa remained stable between 1990 and 2016 [1990: 8394 (95% UI 7980–8904), 2016: 8651 (95% UI 8292–9027)]. The TCa age‐standardized death rate decreased between 1990 and 2016, from 0.39 (95% UI 0.37–0.41) to 0.25 (95% UI 0.24–0.26) per 100 000; however, the decreasing trend was not similar in all regions. Global TCa DALYs decreased by 2% and reached 391 816 (95% UI 372 360–412 031) DALYs in 2016. The age‐standardized DALY rate also decreased globally between 1990 and 2016 (10.31 [95% UI 9.82–10.84]) per 100 000 in 2016).

Conclusion

Although the mortality rate for TCa has decreased over recent decades, large disparities still exist in TCa mortality, probably as a result of lack of access to healthcare and oncological treatment. Timely diagnosis of this cancer, by improving general awareness, should be prioritized. In addition, improving access to effective therapies and trained healthcare workforces in developing and under‐developed areas could be the next milestones.

by @ErfanAmini and @FarhadPishgar

 

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