Determinants of cervical cancer incidence and mortality: A study on WHO countries

Objectives. Previous studies have reported higher rates of cervical cancer incidence and mortality in American Indian and Alaska Native (AI/AN) women compared to women of other races. However, race misclassification hampers accurate determinations of rates among AI/AN women. Observed disparities in incidence rates of cervical cancer between AI/AN and white populations increased after efforts were made to ensure that members of AI/AN populations were properly identified, which increased the number of AI/AN cases and corresponding rates. The purpose of this analysis is to describe the incidence and mortality of cervical cancer among AI/AN women from 1999-2009, using techniques to minimize the effect of race misclassification in surveillance data, and to compare rates of cervical cancer among these women to rates among white women living in the same areas. Methods. Data on cervical cancer deaths and incidence were linked with Indian Health Service records in order to improve identification of AI/AN populations. Analyses focused on deaths of AI/AN residents in IHS Contract Health Service Delivery Area (CHSDA) counties in 35 states. Linked data were used to produce age-adjusted incidence and death rates for 1999 to 2009. Data for both white and AI/AN populations were limited to non-Hispanics only. Results: Mortality. AI/AN women had a cervical cancer death rate of 3.3 per 100,000, which was higher than the rate of 2.2 for white women (RR 1.54). For CHSDA areas only, the death rate from cervical cancer for AI/AN women was 4.2 per 100,000, which was nearly twice the corresponding rate among white women in CHSDA areas (rate 2.0 per 100,000; RR 2.11). Cervical cancer mortality among AI/AN women in CHSDA areas was highest in the Northern Plains region and correspondingly higher than white women in Northern Plains (RR 4.15), Southern Plains (RR 1.58), and the Southwest (RR 2.05). Cervical cancer mortality in CHSDA areas declined during 1990-2009 among both AI/AN women and white women. Major declines for AI/AN women occurred primarily during 1990-1993 (APC -25.8, p<0.05); but death rates remained relatively steady from 1993-2009 (APC -1.3). Declines among white women were more level, and statistically significant (APC -2.4 for 1990-2009) Results: Incidence. AI/AN women had an incidence rate of cervical cancer of 8.7 per 100,000, compared to a rate of 7.5 for white women. However, when limiting to CHSDA areas, the rate for AI/AN women was 11.0 per 100,000, which was higher than for white women in CHSDA areas (rate 7.1 per 100,000). Cervical cancer incidence among AI/AN women in CHSDA areas was highest in the Southern Plains region (rate 15.1 per 100,000) and was higher than incidence for White women in Northern Plains (RR 1.97), Alaska (RR 1.94), Southern Plains (RR 1.64), Southwest (RR 1.19), and Pacific Coast (RR 1.36). Conclusions. Our results demonstrate that AI/AN women suffer disproportionately from cervical cancer incidence and mortality, compared to white women in the same areas. However, both incidence and mortality have decreased over time, documenting improvements in identifying and treating cervical cancer and precancerous lesions. Most cervical cancers can be avoided or diagnosed early through screening and treatment. We noted steep declines in cervical cancer deaths among AI/AN women in the early 1990's. We believe that these are likely due to screening and treatment programs aimed specifically at AI/AN women. However, our data also underscore the need for further efforts as noted in CHSDA areas, where identification of AI/AN women is likely to be highest, because AI/AN women still die from cervical cancer at twice the rate of white women. Citation Format: Meg Watson, Vicki Benard, Cheryll Thomas, Annie Brayboy, Roberta Paisano, Thomas Becker. Cervical cancer incidence and mortality disparities among American Indians and Alaska Natives, 1999-2009. [abstract]. In: Proceedings of the Sixth AACR Conference: The Science of Cancer Health Disparities; Dec 6–9, 2013; Atlanta, GA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2014;23(11 Suppl):Abstract nr B55. doi:10.1158/1538-7755.DISP13-B55

Estimating the incidence and mortality rate of cervical cancer became necessary to establish prevention measures and healthy policies. The aim of this study was to estimate the updated incidence and mortality rate of cervical cancer in 2013 in China. According to the evaluation criteria developed by the National Central Cancer Registry of China, the data submitted from 255 cancer registries met the required standards in 2013. Cervical cancer cases were retrieved from the national database and combined with the 2013 national population data. The age-standardized incidence and mortality rates were based on the demographic structure of the national census 2000 and Segi's world population. In 2013, the estimated number of new cases and deaths from cervical cancer were 100,700 and 26,400, respectively. The crude incidence of cervical cancer was 15.17/100,000. The age-standardized incidence rates based on the Chinese standard population (ASIRC) and the world standard population (ASIRW) were 11.30/100,000 and 10.30/100,000, respectively. The incidence of cervical cancer in urban areas was 15.62/100,000 and the ASIRC was 11.12/100,000. The incidence of cervical cancer in rural areas was 14.65/100,000 and the ASIRC was 11.47/100,000. The mortality rate of cervical cancer was 3.98/100,000. The age-standardized mortality rates based on the Chinese (ASMRC) and world standard populations (ASMRW) were 2.76/100,000 and 2.62/100,000, respectively. The mortality rate of cervical cancer in urban areas was 3.85/100,000 and in rural areas was 4.14/100,000. Cervical cancer incidence and mortality increased with age. Urban areas had a higher incidence of cervical cancer and lower mortality rates when compared with rural areas. Dynamic monitoring of cervical cancer incidence and mortality is the fundamental work of cervical cancer prevention and control. Cervical cancer is a serious issue in women's health, and prevention strategies need to be enhanced, such as human papilloma virus (HPV) vaccination and screening programs.

Maximizing the Potential Public Health Impact of HPV Vaccines: A Focus on Parents

132 Background: Cervical cancer continues to affect the Appalachian population to a higher degree than the rest of the American population. Researchers believe the increased prevalence of cervical cancer in the Appalachian area is due to health disparities across the area. Methods: We queried the Kentucky Cancer Registries online public Cancer Incidence and Mortality Inquiry System to determine changes in age adjusted invasive cervical cancer incidence and mortality rates in Appalachian (AK) and Non-Appalachian Kentucky (NAK) counties over time. Incidence rate ratios were used to analyze the difference in cervical cancer incidence and mortality between Appalachian KY and non-Appalachian KY populations across several time periods. Results: In 1995-1999, there was a statistically significant difference in cervical cancer incidence between AK and NAK 14.8 vs. 12.7/100,000 people (p= 0.0035) and mortality 4.6 vs. 4.0/100,000 (p=0.0471). The cervical cancer incidence was 16.9% higher in AK versus NAK and mortality was 18.4% higher in AK versus NAK. In 2016-2020, there was a statistically significant difference in cervical cancer incidence between AK and NAK 12.1 vs. 8.9/100,000 people (p≤ 0.0001) and mortality between AK and NAK 3.6 vs. 2.3/100,000 people (p= 0.0001). The cervical cancer incidence was 36% higher in AK versus NAK and mortality was 55.7% higher in AK versus NAK. Conclusions: Disparities between in Appalachian Kentucky and Non-Appalachian Kentucky in cervical cancer incidence and mortality not only have persisted since the 1990’s, but they have widened proportionally over time as survival gains have lagged in Appalachia. The observed cervical cancer outcome disparities are likely contributed to by not only the lack of general health education in the region, but more importantly barriers to care access contributing to a lower use of Pap testing in the area. Higher rates of poverty, increased rates of smoking and HPV infection also likely play a role. Research has been conducted to observe identified opportunities for intervention and begin collaborative efforts in the region engineered towards a cervical cancer risk reduction program, but the need for improvement clearly remains. Cervical cancer mortality rates in Appalachian Kentucky vs. non-Appalachian Kentucky, 1995-2020. Appalachia Non-Appalachia Population at Risk Deaths Crude Rate/100,000 Age-Adjusted Rate 95% Confidence Interval Population at risk Deaths Crude Rate/100,000 Age-Adjusted Rate 95% Confidence Interval 1995-1999 2928468 145 5 4.6 [3.9-5.4] 7209127 301 4.2 4 [3.6-4.5] 2000-2004 2962204 102 3.4 3.2 [2.6-3.9] 7485965 214 2.9 2.7 [2.3-3.1] 2005-2009 2986284 117 3.9 3.5 [2.9-4.2] 7833348 225 2.9 2.6 [2.3-3.0] 2010-2015 3577269 141 3.9 3.4 [2.8-4.0] 9803897 277 2.8 2.5 [2.2-2.9] 2016-2020 2941022 121 4.1 3.6 [3.0-4.4] 8378683 221 2.6 2.3 [2.0-2.7]

Objective: To analyze the changing trend of cervical cancer epidemiological characteristics and disease burden in cancer registration areas of Guangxi Zhuang Autonomous Region (Guangxi) from 2010 to 2017, and to provide scientific basis for the development of cervical cancer prevention and control strategies in Guangxi. Methods: Using descriptive analysis method, based on the incidence and death data of cervical cancer in the tumor registration areas of Guangxi from 2010 to 2017, Crude morbidity, crude mortality, age-standardized morbidity and mortality (referred to as the winning rate), disability adjusted life years (DALYs) rate and the annual percentage change (APC) and average annual percentage change (AAPC) of the above indicators were calculated, and stratified analysis was conducted for urban and rural areas and different age groups. Results: From 2010 to 2017, the crude incidence rate of cervical cancer in Guangxi showed a significant upward trend, rising from 10.31/105 in 2010 to 19.94/105 in 2017, with an average annual growth rate of 7.9% (P＜0.05). However, after age standardization, the trend of the age-standardized incidence rate of cervical cancer was not statistically significant (P＞0.05). During the same period, the crude mortality rate of cervical cancer increased from 2.69/105 to 6.21/105, with an average annual growth rate of 13.1% (P＜0.05), and the trend of the age-standardized mortality rate was basically consistent with that of the crude mortality rate. The analysis of urban-rural differences showed that the growth rates of the crude incidence rate and crude mortality rate of cervical cancer in rural areas were higher than those in urban areas from 2010 to 2017 (AAPC incidence rate: 21.3% vs. 2.3%; AAPC mortality rate: 20.1% vs. 8.4%). The analysis of age differences showed that the crude incidence rate and crude mortality rate of cervical cancer in all age groups increased to varying degrees, among which the growth rate of the incidence rate (AAPC=16.2%, P＜0.05) and mortality rate (AAPC=14.7%, P＜0.05) of cervical cancer in women aged 65 and above was the fastest. In addition, the DALYs rate of cervical cancer in Guangxi increased from 50.6/105 in 2010 to 111.0/105 in 2017, with an average annual increase of 11.9% (P＜0.05). The growth rate of the DALYs rate in rural areas was higher than that in urban areas, and the growth rate of the DALYs rate in the 50-59 age group was higher than those in other age groups. Conclusions: From 2010 to 2017, the incidence rate, mortality rate and DALYs rate of cervical cancer in Guangxi showed an upward trend. Comprehensive prevention and control measures for cervical cancer, such as improving the early diagnosis and treatment system, promoting the popularization of HPV vaccination and strengthening health education, should be taken to reduce the disease burden of cervical cancer.

Previous studies indicate that cervical cancer is the second most frequent cancer and most common cause of cancer mortality among women in Fiji. There is little published data on the epidemiology of cervical cancer in Pacific countries. To determine the incidence 2003-2009 of, and mortality 2003-2008 from, cervical cancer by ethnicity and period in Fiji, identify evidence of secular change and relate these data to other Pacific countries, Australia and New Zealand. Counts of incident cervical cancer cases (2003-2009) and unit record mortality data (2003-2008) from the Fiji Ministry of Health were used to calculate age-standardised (to the WHO World Population) cervical cancer incidence and mortality rates, and cervical or uterine cancer mortality rates, by ethnicity, with 95% confidence intervals. On the basis of comparison of cervical cancer mortality with cervical or uterine cancer mortality in Fiji with similar populations, misclassification of cervical cancer deaths is unlikely. There is no evidence of secular change in cervical cancer incidence and mortality rates for the study period. For women of all ages and ethnicities, the age-standardised incidence rate of cervical cancer (2003-2009) was 27.6 per 100,000 (95% CI 25.4-29.8) and the age-standardised mortality rate (2003-2008) was 23.9 per 100,000 (95% CI 21.5-26.4). The mortality/incidence ratio was 87%. Fijians had statistically significant higher age-standardised incidence and mortality rates than Indians. Fiji has one of the highest estimated rates of cervical cancer incidence and mortality in the Pacific region. Cervical cancer screening in Fiji needs to be expanded and strengthened.

Objective: to analyze the incidence and mortality of cervical cancer in the Far Eastern Federal district (FEFD) in 2008–2018.Materials and methods. To assess the incidence and mortality of cervical cancer among women residing in FEFD, we used annual reports of P. Hertzen Moscow Oncology Research Institute – branch of the National Medical Research Radiology Center, Ministry of Health of Russia, for 2008–2018. We evaluated extensive and standardized parameters (per 100,000 population; 0/0000) calculated using the direct method (world standard). The prognosis was based on the 11-year dynamics of the incidence and mortality; regression coefficients were calculated using the standard method. Data analysis was performed using the Statistica 8.0 and Microsoft Excel 2003 software with a significance level of p £0.05. We evaluated the incidence and mortality of cervical cancer among women of FEFD registered between 2008 and 2018: during a 5-year period (2008–2012) and a 6-year period (2013–2018) for the whole region, as well as for individual administrative territories.Results. We found that the incidence of cervical cancer in FEFD was higher than its national incidence (14.3 ± 0.10/0000) and was steadily increasing in all administrative centers of FEFD. The highest incidence was observed in Zabaikalsky Krai (32.6 ± 1.90/0000, which is 2.3 times higher than national incidence). The quickest growth of cervical cancer incidence was registered in the Republic of Buryatia (69.6 %; growth rate 6.5 % (p £0.05)). This territory was also characterized by the highest mortality (11.4 ± 0.50/0000, which is 2.2 times higher than national mortality (5.3 ± 0.20/0000) (p <0.01)).Conclusions. The analysis of the cervical cancer incidence and mortality in FEFD demonstrated their steady increase, which makes the issues of disease prevention and early diagnosis highly relevant and indicates a clear need to activate vaccination and screening programs.

10544 Background: HPV is responsible for cancers including anus, penis, vulvovaginal, and oropharyngeal but cervical cancer is the most common cancer caused by HPV. To study the impact of HPV vaccination, we compared age-adjusted cervical cancer incidence and death rates in New York, a state with a high HPV vaccination rate, to Florida, a state with a lower vaccination rate, prior to HPV vaccination and 10 years post HPV vaccination availability. Methods: This is an ecologic study observing the cervical cancer incidence and death rates prior to (2005) and after (2016) the introduction of the HPV vaccination using state wide healthcare cancer registries. Results: The HPV vaccine became available in the United States in 2006. Historically, Florida was found to have a low HPV vaccination rate in 2009 with less than 40% compared to New York which had a high rate of 50% in 2009. By 2016, Florida’s HPV vaccination rate improved to 55% but was still low compared to New York with a rate greater than 70%. New York had a decline of cervical cancer incidence of 9.7 per 100,000 in 2005 to 8.3 in 2016. New York had a decrease in death rate from 3.0 in 2005 to 2.7 in 2016. In Florida, the cervical cancer incidence rate from 2005 to 2016 increased from 9.7 to 9.9 and the mortality was 3.0 in 2005 and 2.9 in 2016. When comparing New York’s cervical cancer incidence rates, there was a statistically significant drop in age-adjusted incidence before HPV-vaccination compared to 10 years post vaccination availability. When analyzing cervical cancer incidence in 2016, significant increase in cases between Florida’s incidence compared to New York’s. Conclusions: Since the introduction of the HPV vaccination, age-adjusted incidence rate of cervical cancer has declined in New York but not in Florida. This may be due to lagging HPV vaccination rates in Florida in addition to other sociodemographic or healthcare factors. There has been minimal change in cervical cancer death rates between both states, likely attributed by the low death rate associated with cervical cancer. The medical community needs to work together to address the barriers to HPV vaccination and promote programs to increase vaccination rates which will reduce the incidence and mortality of cervical, anus, penis, vagina, vulva, and oropharyngeal cancer. [Table: see text]

PurposeThis study was conducted to describe the trends and age-period-cohort effects on the incidence and mortality rate of cervical cancer in Korea.Materials and MethodsThe incidence and mortality rate of cervical cancer among ≥ 20-year-old women from 1993 to 2012 were obtained from the Korea Central Cancer Registry and the Korean Statistical Information Service. Age-standardized rates were calculated and Joinpoint regression was used to evaluate the trends in the incidence and mortality rate. Age-period-cohort analysis was performed to investigate the independent effects of age, period and cohort.ResultsThe incidence of cervical cancer decreased from 32.8 per 100,000 in 1993 to 15.9 per 100,000 in 2012 (annual percent change [APC], –3.9%; 95% confidence interval [CI], –4.2% to –3.6%). The mortality rate decreased from 5.2 per 100,000 in 1993 to 2.1 per 100,000 in 2012 (APC, –4.8%; 95% CI, –5.1% to –4.4%); however, the incidence and mortality rates among young women (< 30 years old) increased. An age-period-cohort model of the incidence and mortality rate showed decreasing period effects between 1993 and 2008 and decreasing cohort effects between 1928 and 1973, while birth cohorts after 1973 exhibited slight increases in the incidence and mortality rate of cervical cancer.ConclusionRecent decreases in the incidence and mortality rate of cervical cancer were due to decreases in the period and cohort effects, which reflect the implementation of a cancer screening program and changes in lifestyle. However, our findings also highlighted an increase in cohort effects on the incidence and mortality rate among young women born after 1973.

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;

&lt;p&gt;Supplementary Table S1. Leading causes of death among females worldwide, 2012 Number of deaths for top ten causes of death among females worldwide Supplementary Table S2. Leading causes of death among females by world region, 2012 Number of deaths for top ten causes of death among females by world region Supplementary Table S3. Estimated number of new cancer cases and deaths among females by world area, 2012 Number of cancer cases and deaths for all cancer sites combined among females by world region Supplementary Figure S1. Female breast cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized breast cancer incidence rates among females and age-standardized breast cancer mortality rates among females Supplementary Figure S2. Female breast cancer incidence trends, age-standardized rate (world), select countries, 1973-2012 Observed age-standardized female breast cancer incidence rates, select countries, all ages, 1973-2012 Supplementary Figure S3. Female breast cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of breast cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S4. Cervical cancer incidence and mortality rates, age-standardized rate (world), 2012 Two world maps: age-standardized cervical cancer incidence rates and age-standardized cervical cancer mortality rates Supplementary Figure S5. Prevalence (%) of cervical HPV infection among women by region, all types combined, 1995-2009 World map of HPV prevalence (%) among women by world region Supplementary Table S6. Cervical cancer incidence trends, age-standardized rate (world), select countries, 1975-2007 Observed age-standardized cervical cancer incidence rates with a five-year moving average, select countries, all ages, 1975-2007 Supplementary Figure S7. Cervical cancer survivors diagnosed in last five years (through 2012 or latest available) World map: number of cervical cancer survivors diagnosed within the last five years, per 100,000 population Supplementary Figure S8. Uterine corpus cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized uterine corpus cancer incidence rates and age-standardized uterine corpus cancer mortality rates Supplementary Figure S9. Uterine corpus cancer mortality trends, age-standardized rate (world), select countries, 1990-2014 Observed age-standardized uterine corpus cancer mortality rates with a five-year moving average, select countries, all ages, 1990-2014 Supplementary Figure S10. Ovarian cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized ovarian cancer incidence rates and age-standardized ovarian cancer mortality rates Supplementary Figure S11. Ovarian cancer mortality trends, age-standardized rate (world), select countries, 1980-2014 Observed age-standardized ovarian cancer mortality rates with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S12. Colorectal cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S13. Colorectal cancer incidence trends, females, select countries, 1980-2014 Observed age-standardized colorectal cancer incidence rates among females with a five-year moving average, select countries, all ages, 1980-2014 Supplementary Figure S14. Colorectal cancer mortality trends, females, age-standardized rate (world), select countries, 1975-2014 Observed age-standardized colorectal cancer mortality rates among females with a five-year moving average, select countries, all ages, 1975-2014 Supplementary Figure S15. Lung cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized lung cancer incidence rates among females and age-standardized lung cancer mortality rates among females Supplementary Figure S16. Population using solid fuels for heating and/or cooking, 2013 World map: percent of the population using solid fuels by country Supplementary Figure S17. Adult female smoking prevalence, age 15+ years, 2013 World map: percent of adult females (age 15+ years) who smoke by country, 2013 Supplementary Figure S18. Female youth smoking prevalence, age 13-15 years, 2011 or latest available data World map: percent of female youth (age 13-15 years) who smoke by country, 2011 or latest available data Supplementary Figure S19. Liver cancer incidence and mortality rates, females, age-standardized rate (world), 2012 Two world maps: age-standardized liver cancer incidence rates among females and age-standardized liver cancer mortality rates among females Supplementary Figure S20. Hepatitis B virus prevalence, both sexes, from systematic review of studies 1957-2013 World map of HBV prevalence (%) among both sexes combined by country Supplementary Figure S21. Estimated hepatitis C virus prevalence, both sexes, 2005 World map of HCV prevalence (%) among both sexes combined by country Supplementary Figure S22. Liver cancer mortality trends, females, age-standardized rate (world), select countries, 1995-2014 Observed age-standardized liver cancer mortality rates among females with a five-year moving average, select countries, all ages, 1995-2014&lt;/p&gt;