Trends in the kidney cancer incidence and mortality in the Slovak and Czech republics in 1980-2005 – in the context of an international comparison

Ondrušová, Martina; Ondruš, D; Mužı́k, Jan; Hunáková, Ľuba; O, Hes; Karabinos, Juraj; Friedova, L

doi:10.4149/neo_2011_02_165

Cited by 2 publications

(2 citation statements)

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“…While the environmental risk factors driving the rising generational risks in kidney cancer incidence have been discussed elsewhere 8-10 -including the rising prevalence of obesity as an increasingly important determinant globally 7 -the period effects observed in several populations are less frequently explored. [20][21][22] To our knowledge, this is the first study reporting the stabilization of period-specific incidence trends across a number of high-incidence countries. The presence of overdiagnosis via an increased detection of incidental tumors has been repeatedly implicated in the steadily increasing incidence rates of kidney cancer, particularly in Northern America and Europe.…”

Section: Discussionmentioning

confidence: 89%

“…While the environmental risk factors driving the rising generational risks in kidney cancer incidence have been discussed elsewhere—including the rising prevalence of obesity as an increasingly important determinant globally—the period effects observed in several populations are less frequently explored . To our knowledge, this is the first study reporting the stabilization of period‐specific incidence trends across a number of high‐incidence countries.…”

Section: Discussionmentioning

confidence: 99%

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Less overdiagnosis of kidney cancer? an age‐period‐cohort analysis of incidence trends in 16 populations worldwide

Znaor

Laversanne

Bray

2017

Intl Journal of Cancer

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The increasing rates of kidney cancer incidence, reported in many populations globally, have been attributed both to increasing exposures to environmental risk factors, as well as increasing levels of incidental diagnosis due to widespread use of imaging. To better understand these trends, we examine long-term cancer registry data worldwide, focusing on the roles of birth cohort and calendar period, proxies for changes in risk factor prevalence and detection practice respectively. We used an augmented version of the Cancer Incidence in Five Continents series to analyze kidney cancer incidence rates 1978-2007 in 16 geographically representative populations worldwide by sex for ages 30-74, using age-period-cohort (APC) analysis. The full APC model provided the best fit to the data in most studied populations. While kidney cancer incidence rates have been increasing in successive generations born from the early twentieth century in most countries, equivalent period-specific rises were observed from the late-1970s, although these have subsequently stabilized in certain European countries (the Czech Republic, Lithuania, Finland, Spain) as well as Japan from the mid-1990s, and from the mid-2000s, in Colombia, Costa Rica and Australia. Our results indicate that the effects of both birth cohort and calendar period contribute to the international kidney cancer incidence trends. While cohort-specific increases may partly reflect the rising trends in obesity prevalence and the need for more effective primary prevention policies, the attenuations in period-specific increases (observed in 8 of the 16 populations) highlight a possible change in imaging practices that could lead to mitigation of overdiagnosis and overtreatment.

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Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Less overdiagnosis of kidney cancer? an age‐period‐cohort analysis of incidence trends in 16 populations worldwide

Znaor

Laversanne

Bray

2017

Intl Journal of Cancer

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Incidence Trends of Urinary Bladder and Kidney Cancers in Urban Shanghai, 1973-2005

et al. 2013

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ObjectivesWe examined the incidence trends of bladder and kidney cancers using a population-based cancer registration data.MethodsAge-standardized incidence rates were analyzed using data from the Shanghai Cancer Registry during 1973 to 2005. Annual percentage changes and 95% confidence intervals were calculated to evaluate the incidence changes. Age-period-cohort analysis was further implemented to assess the contributions of age, period and cohort effects to the trends using the intrinsic estimator method.ResultsIn total, 12,676 bladder and 5,811 kidney cancer patients were registered in urban Shanghai. The age-standardized rates of bladder cancer in males increased from 6.39 to 7.66 per 100,000, or 0.62% per year, whereas the rates in females increased from 1.95 to 2.09 per 100,000, or 0.33% per year. For kidney cancer, the age-standardized rates in males increased from 1.20 to 5.64 per 100,000, or 6.98% per year. Similarly in females, the rates increased from 0.85 to 3.33 per 100,000, or 5.93% per year. Age-period-cohort analysis showed increasing curves of age and period effects but generally decreasing cohort effects for bladder and kidney cancers. ConclusionsOur results show increasing incidence trends of bladder and kidney cancers in Chinese men and women, especially for kidney cancer.

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Trends in the kidney cancer incidence and mortality in the Slovak and Czech republics in 1980-2005 – in the context of an international comparison

Cited by 2 publications

References 23 publications

Less overdiagnosis of kidney cancer? an age‐period‐cohort analysis of incidence trends in 16 populations worldwide

Less overdiagnosis of kidney cancer? an age‐period‐cohort analysis of incidence trends in 16 populations worldwide

Incidence Trends of Urinary Bladder and Kidney Cancers in Urban Shanghai, 1973-2005

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