Cancer patterns, trends and projections in Latin America and the Caribbean: a global context

Patrones, tendencias y proyecciones del cáncer en América Latina y el Caribe: un contexto global

Freddie Bray Marion Piñeros About the authors

Abstract:

Objective:

To develop a situation analysis encompassing the patterns and trends in cancer incidence and mortality in South and Central America and the Caribbean, with comparisons globally and with selected external countries.

Materials and methods:

Data on cancer incidence and mortality rates for 31 countries were obtained from the 2012 GLOBOCAN database. Incidence and mortality trends for selected countries were analysed with data from the Cancer Incidence in Five Continents (CI5) series and the WHO Mortality Database, respectively.

Results:

In 2012, almost 1.1 million new cancer cases were estimated annually, with important variations in rates across countries. The most common cancer types were breast, prostate, colorectum and lung cancer; stomach and cervical cancer ranked high in less developed countries. Increasing trends were observed in prostate, breast and colorectal cancer; lung cancer mortality trends diverged among males and females, while cervix cancer incidence and stomach cancer mortality uniformly decreased. A 66% increase in cancer cases in the region by 2030 is projected based on population aging and growth.

Conclusions:

Cancer patterns and trends reflect the significant sociodemographic changes in the region: the growing burden imposes great challenges to national health care systems to implement cancer control actions, while improving cancer surveillance to effectively measure the response.

Keywords:
cancer; mortality; incidence; Latin America

Resumen:

Objetivo:

Analizar la situación y tendencias en la incidencia y mortalidad por cáncer en América del Sur, Central y el Caribe, en comparación con patrones mundiales.

Material y métodos:

Los datos de incidencia y mortalidad por cáncer de 31 países se obtuvieron de la base de datos de GLOBOCAN 2012. Para analizar las tendencias de incidencia y mortalidad en países seleccionados, los datos se obtuvieron de la serie Incidencia de Cáncer en Cinco Continentes (CI5) y de la base de datos de mortalidad de la OMS, respectivamente.

Resultados:

En 2012, se estimaron casi 1.1 millones de nuevos casos de cáncer al año, con variaciones importantes en las tasas entre los distintos países. Los tipos de cáncer más comunes fueron cáncer de mama, próstata, colon y recto, y de pulmón; los cánceres de estómago y cuello uterino ocuparon puestos altos en los países menos desarrollados. Se observaron tendencias crecientes en cáncer de próstata, mama y colorrectal; las tendencias de mortalidad por cáncer de pulmón presentaron tendencias divergentes entre hombres y mujeres, mientras que la incidencia de cáncer de cuello uterino y la mortalidad por cáncer de estómago disminuyeron. Para el año 2030 se espera un incremento del 66% en los casos de cáncer.

Conclusiones:

Los patrones y tendencias del cáncer reflejan los importantes cambios sociodemográficos en la región e imponen grandes desafíos a los sistemas de salud para responder a la creciente carga, así como para mejorar la vigilancia del cáncer.

Palabras clave:
cáncer; mortalidad; incidencia; América Latina

Latin America and the Caribbean (LAC), representing 31 nations, 600 million inhabitants and towards 10% of the world's population, is a transitioning region with the highest overall Human Development Index (HDI) rating, yet marked inequalities persist between and within its constituent countries.11. United Nations Development Programme. Human Development Report 2014 - Sustaining Human Progress: Reducing Vulnerabilities and Building Resilience [accessed April 29, 2015] Available from: http://hdr.undp.org/en/content/human-development-index-hdi 2014.
http://hdr.undp.org/en/content/human-dev...
In the last decades, the region has experienced significant reductions in fertility and infant mortality, with increases in life expectancy and subsequent aging of the population.22. Pan American Health Organization PAHO. Health in the Americas (2012). Washington D.C. [accessed July 10, 2015] .Available from: http://www.paho.org/saludenlasamericas/index.php?option=com_content&view=article&id=9&Itemid=14&lang=en.
http://www.paho.org/saludenlasamericas/i...
,33. Saad P. Demographic trends in Latin America and The Caribbean. In: Cotlear (Ed) Population Aging, is Latin America ready? [accessed July 10, 2015]. Available from: https://openknowledge.worldbank.org/bitstream/handle/10986/2542/588420PUB0Popu11public10BOX353816B0.pdf?sequence=1 2009.
https://openknowledge.worldbank.org/bits...
Among developing regions, LAC has among the highest life expectancies, shaping the current epidemiological profiles. With the emergence of non-communicable diseases including cancer as the leading public health problem within the region, there remains great challenges to health care systems in LAC in forming a response to the increasing cancer burden and the care for patients, often with advanced cancer.44. Goss PE, Lee BL, Badovinac-Crnjevic T, Strasser-Weippl K, Chavarri-Guerra Y, St LJ, et al. Planning cancer control in Latin America and the Caribbean. Lancet Oncol 2013;14(5):391-436.

This paper provides a situation analysis of the patterns and trends in cancer incidence and mortality by country in the sub-regions of South America, Central America and the Caribbean, and quantifies the future cancer incidence by 2030. We point to the data as an evidence basis for ongoing efforts to reduce the burden and suffering from cancer in LAC. Progress will require investment and reconfiguration of health systems, and in the tailoring of national strategies of cancer control to fit the cancer profiles within each country and the level of resources available.

Materials and methods

In this paper we provide a broad overview of the patterns and, where possible, trends in 31 countries within the LAC region, breaking down the situation analysis into three sub-regions of: South America (Argentina, Bolivia (Plurinational State of), Brazil, Chile, Colombia, Ecuador, French Guiana, Guyana, Paraguay, Peru, Suriname, Uruguay and Venezuela (Bolivarian Republic of)), Central America (Belize, Costa Rica, El Salvador, Honduras, Guatemala, Mexico, Nicaragua and Panama) and the Caribbean (Bahamas, Barbados, Cuba, Dominican Republic, Guadeloupe, Martinique, Haiti, Jamaica, Puerto Rico and Trinidad and Tobago). Data on cancer incidence and mortality rates for the year 2012 for each country were obtained from the GLOBOCAN database held at the International Agency for Research on Cancer (IARC) for the year 2012.55. Ferlay J, Soerjomataram I, Ervik M, Dikshit R, Eser S, Mathers C, et al. GLOBOCAN 2012 v1.0, Cancer Incidence and Mortality Worldwide: IARC Cancer Base No. 11 [Internet]. 2013. [accessed on April 15, 2015].Available at: URL: http://globocan.iarc.fr.
http://globocan.iarc.fr...
These estimates were prepared using methods that are described in detail elsewhere,66. Ferlay J, Soerjomataram I, Dikshit R, Eser S, Mathers C, Rebelo M, et al. Cancer incidence and mortality worldwide: sources, methods and major patterns in GLOBOCAN 2012. Int J Cancer 2015;136(5):E359-E386. and they depend upon the availability and accuracy of the incidence and mortality data for each individual country. Observed incidence data from regional population-based cancer registries in three countries (Brazil, Colombia, Ecuador) together with national data for Costa Rica were obtained from the Cancer Incidence in Five Continents (CI5) series,* with data supplemented with more recently published data, where available. The WHO Mortality Database77. International Agency for Research on Cancer. WHO Cancer Mortality Database [accessed on November 17, 2015]. Available at: http://www-dep.iarc.fr/WHOdb/WHOdb.htm 2014.
http://www-dep.iarc.fr/WHOdb/WHOdb.htm...
was used to provide corresponding mortality trend analyses for seven countries with long-term data series available from national civil registration systems: Argentina, Brazil, Chile, Colombia, Cuba, Ecuador and Mexico.

To adjust for the effects of age in comparative analyses of incidence and mortality rates by country and over time, we utilise two measures of direct standardisation, the age-standardised rate (ASR) using the world standard population, and the cumulative risk (up to the age of 74), defined as the lifetime risk of developing or dying from cancer in the absence of competing causes of death. In presenting the time trends of incidence and mortality ASR, random fluctuations were smoothed by country, sex and cancer site using loess regression. As well as all-sites combined excluding non-skin melanoma (ICD-10 C00-97, except C44), we focus on the six most frequent forms of cancer incidence and mortality within LAC: stomach (C16), colon and rectum (including anus C18-21) lung (including trachea, C33-34), female breast (C50), cervix uteri (C53) prostate (C61).

In assessing the cancer-specific trends we focussed on the temporal patterns of incidence and/or mortality from 1974-2012, where instructive in elucidating the needs and impact of cancer control: for breast and prostate, we examined both indicators; for stomach, colorectal and lung, we examined mortality trends. For cervical cancer, we assessed incidence, in part given the problems of misclassification of corpus uterus, part unspecified, in the mortality data. Finally, we predict the all-cancer incidence in both sexes by sub-region by the future incidence based on country, sex- and age-specific incidence rates in 2012 applying to UN population projections for the year 2030.

Results

Overall cancer burden in the LAC Region

In 2012, almost 1.1 million new cancer cases were estimated to occur annually in the LAC region, accounting for 7.8% of cancer cases worldwide. Three-quarters of new cases in the region are seen in South America, the sub-region that also forms the majority population in the region (almost 67% of the total). Across countries, rates for both sexes vary 2.5 fold, with incidence highest in Uruguay, Barbados and Martinique and lowest in Haiti (table I). The total number of cancer deaths in 2012 was estimated at around 600000 in LAC. The highest mortality rates are seen in Uruguay, where cumulative risk of death (up to age 74) is 20% among men. Rates are lowest in Mexico and Puerto Rico, with, as a comparison, a corresponding cumulative mortality of cancer among women in the latter country of 6%. Overall cancer incidence and mortality rates are lower in Central America relative to South America and the Caribbean. Yet Nicaragua and Guatemala together with Haiti, have among the highest case fatalities in the region, as indicated through the elevated M:I ratios of 0.70, 0.74 and 0.75, respectively; these compare with a ratio of 0.38 in the U.S. (table I).

Table I
Estimated population, human development index and number of cancer cases, deaths and age-standardized incidence and mortality rates (per 100 000) in the LAC countries

Sex-specific differences

In the region as a whole, sex-specific all-cancer incidence rates were similar (table I). Rates were consistently higher among males in all countries of the Caribbean (with the exception of Barbados and Haiti), while incidence rates among men in Martinique were more than double those of women. Conversely, incidence rates in Central America were consistently higher among females, other than for Belize and Panama. In terms of the mortality, rates tended to be greater in males in most countries, although there were exceptions in Bolivia, El Salvador and Guatemala, where female rates were greater (table I).

Patterns and trends in the most common cancers

Figure 1 displays the five most frequent cancers (for incidence and mortality) in both sexes worldwide and in the three LAC sub-regions. These neoplasms account for 58, 50 and 45% all of incident cancers in the Caribbean, South America and Central America, respectively. In accordance with the global profile, the most common types in both South America and the Caribbean include cancers of the breast, prostate, colorectum and lung, with the latter neoplasm the leading cause of cancer death (figure 2). Males in Uruguay and Cuba had the highest risk of dying from lung cancer before the age of 75 in the region (5.7 and 4.8% respectively), higher or equivalent to the risk observed in Spanish and U.S. males (figure 3). In women, the cumulative risk of lung cancer only exceeds 1% in a handful of countries, but is by far highest in Cuba, where the risk of 2.6% is approaching risk among Spanish women.

Figure I
The five most frequent cancers in the world and the LAC sub-regions: incidence and mortality, both sexes

Figure 2
Leading causes of cancer incidence and mortality among males and females by country, LAC region

Figure 3
Cumulative risk of mortality for six common cancers by country and sex, LAC region

Trends in lung cancer convey very different temporal patterns in men and women (figures 4a and 4b). Mortality rates in men largely reveal decreasing trends, rates having peaked in most countries in the 1990s, with rapid declines in Argentina, Chile, Mexico and Costa Rica mirroring those in U.S. males, while rates in Cuban males are the one exception, where the rising rates have now surpassed rates among U.S men. In women, the lung cancer mortality rates are rising in most countries, excluding Mexico and Costa Rica, where declines are similar to those in men, or stable or recently declining in Colombia and Chile. The surge in rates among Cuban women mimic those in Spanish women, with the exception that rates in Cuba began to rise 10 years later and at level consistently three-fold higher relative to Spain.

Figure 4
Trends in lung cancer mortality rates, males (4A ) and females (4B ) (ASR per 100 000)

Breast cancer is the leading cause of cancer incidence and mortality in women in the majority of countries in the region, but cervical cancer is more common in a number of South and Central American countries including Bolivia and Nicaragua, the two countries with the highest mortality rates in the region. In terms of breast cancer, the highest risk of mortality from the disease is observed in several Caribbean countries as well as Uruguay and Argentina, where cumulative risk of death exceeds that seen among U.S. females (figure 3). Breast cancer incidence has risen 50% in two decades where there is national, or more commonly, regional registry data available (figure 5a). Incidence rates in Costa Rica and Ecuador are still half those observed among U.S. women however, despite rapidly increasing rates, while breast cancer incidence in Brazil appears to have peaked and recently declined. The magnitude and direction of breast cancer mortality trends are quite variable (figure 5b). In Argentina and Chile, declines are evident and similar, but less rapid than those observed in Spain and the U.S. Breast cancer mortality trends have become stable recently in Mexico and Colombia, but are rising in Brazil and Cuba, the latter country exceeding breast cancer mortality in the U.S.

Figure 5
Trends in female breast cancer incidence (5A ) and mortality rates (5B ) (ASR per 100 000)

Among males, prostate cancer is the most frequently diagnosed cancer in all countries with the exception of Guatemala, where stomach is most common; prostate cancer is also the most common cause of death in the majority of countries (figure 2). Elevated cumulative risks of prostate cancer death were mainly observed in countries in the Caribbean, and in the countries of Trinidad and Tobago, Guyana and Barbados, risk of death is four times higher than seen in the U.S. (figure 3). Looking at the temporal patterns, incidence rates have rapidly risen to similar levels in Costa Rica, Ecuador and Colombia, similar to those in Spain, while a five-fold increase in incidence is observed in Brazil between the early-1990s and the mid-2000s (figure 6a). Mortality rates are much lower but convey considerable temporal heterogeneity: rates have been declining in the last one to two decades in Chile, Argentina, Costa Rica and Mexico, but are rapidly increasing in Brazil and Cuba, although rates in the latter country are double those of the former (figure 6b).

Figure 6
Trends in prostate cancer incidence (6A ) and mortality rates (6B ) (ASR per 100 000)

An illustrative marker of development and extent of westernization, colorectal cancer now ranks as a top five cancer in all three sub-regions, and is the second and third leading cause of cancer death in South America and the Caribbean, respectively (figure 1). Indeed, cumulative risk of death from colorectal cancer among males is around 2% in Uruguay and Argentina in the former region, and in Barbados and Trinidad and Tobago in the latter. A similar profile is seen in women, although it is Cuba along with Barbados that have the highest risks, around 1.5%. Trends in colorectal mortality (figure 7a and 7b) are similar to incidence (data not shown) where populations correspond: there are rapid increases in most LAC countries in both sexes, particularly in Brazil, Chile and Mexico, while rates are stable or increasing in high-risk Cuba (with rates surpassing the U.S. in the early-1990s). Rates are more stable among women in Argentina and possibly declining of recent in among Costa Rican males.

Figure 7
Trends in colorectal cancer mortality rates, males (7A ) and females (7B ) (ASR per 100 000)

Infection-related cancers are also frequent cancer forms in LAC: cervical and stomach cancer rank among the top five cancers in terms of incidence and mortality, respectively, in each of the three regions (figure 1). In Central America, stomach cancer is the leading cause of cancer death, while liver cancer ranks third. The highest risks for stomach cancer among males can be observed in Chile and Guatemala, where rates are 2.5-fold those in U.S. males. In females, the cumulative risk of stomach cancer in Guatemala is by far the highest in LAC, and unlike the vast majority of countries, rates are equivalent to those in men. As with incidence, mortality rates in both males and females have been uniformly declining in the last decades, with the sharpest decrease observed in Costa Rica, where historically rates have been among the highest in the regio (figures 8a and 8b).

Figure 8
Trends in stomach cancer mortality rates, males (8A ) and females (8B ) (ASR per 100 000)

For cervical cancer, the highest cumulative risks of mortality in Guyana, Bolivia and Nicaragua of 2.5, 2.4, and 2.0% respectively are seven to eight times greater than the corresponding estimates for Spain and the U.S. (figure 3). Incidence rates have been rapidly falling in the last decades in most countries where data is available, with the most prominent declines seen in women in Costa Rica (figure 9).

Figure 9
Trends in cervical cancer incidence rates (ASR per 100 000)

Burden projections to 2030

Figure 10 portrays the increasing cancer burden expected in the LAC region over the next decades. Incidence will rise from the 1.1 million new cases, as estimated in 2012, to over 1.6 million by 2030 (a 66% increase), assuming rates remain unchanged and allowing for the joint demographic effects of population ageing and population growth in the region. Based on these assumptions, the increase will be 50.2, 66.3 and 73.6% for The Caribbean, South America and Central America, respectively.

Figure 10:
Projections of the cancer incidence burden in LAC by sub-region 2012 and 2030

Discussion

The burden, patterns and trends of cancer in the LAC region reflect the major and ongoing sociodemographic transitions in the region: while prostate cancer and breast cancer are the leading causes of cancer in the majority of countries, stomach cancer and cervical cancer continue to be the most important cancers in lesser developed countries within the region. Overall, cancer incidence rates in LAC are relatively low compared with western countries, but cancer mortality rates are relatively high, as are M/I ratios, a proxy of case-fatality, as has been reported previously.44. Goss PE, Lee BL, Badovinac-Crnjevic T, Strasser-Weippl K, Chavarri-Guerra Y, St LJ, et al. Planning cancer control in Latin America and the Caribbean. Lancet Oncol 2013;14(5):391-436.,88. Curado MP, de Souza DL. Cancer burden in latin america and the Caribbean. Ann Glob Health 2014;80(5):370-377. Contributing factors include the case-mix linked to the extent of epidemiological transition in different countries, but also inferior outcomes, including advanced stage at diagnosis and limited access to and uptake of, effective treatment,44. Goss PE, Lee BL, Badovinac-Crnjevic T, Strasser-Weippl K, Chavarri-Guerra Y, St LJ, et al. Planning cancer control in Latin America and the Caribbean. Lancet Oncol 2013;14(5):391-436.,99. de VE, Uribe C, Pardo C, Lemmens V, Van de Poel E, Forman D. Gastric cancer survival and affiliation to health insurance in a middle-income setting. Cancer Epidemiol 2015;39(1):91-96.,1010. Justo N, Wilking N, Jonsson B, Luciani S, Cazap E. A review of breast cancer care and outcomes in Latin America. Oncologist 2013;18(3):248-256. linked to the capacity of health systems to implement effective early detection and cancer management strategies. Population-based cancer survival information is essential to elucidate the quality, host, tumour and health care-related factors that operate and influence survival proportions. Unfortunately there is at present only limited comparable statistics on cancer survival being generated within the region. Longer-standing population based cancer registries like Costa Rica have participated in several global studies,1111. Coleman MP, Quaresma M, Berrino F, Lutz JM, De AR, Capocaccia R, et al. Cancer survival in five continents: a worldwide population-based study (CONCORD). Lancet Oncol 2008;9(8):730-756.,1212. Sankaranarayanan R, Swaminathan R, Brenner H, Chen K, Chia KS, Chen JG, et al. Cancer survival in Africa, Asia, and Central America: a population-based study. Lancet Oncol 2010;11(2):165-173. and more recently five LAC countries were able to participate in the latest available global comparison showing, as an example, moderate improvements in breast cancer survival between 1995-99 and 2005-09.1313. Allemani C, Weir HK, Carreira H, Harewood R, Spika D, Wang XS, et al. Global surveillance of cancer survival 1995-2009: analysis of individual data for 25,676,887 patients from 279 population-based registries in 67 countries (CONCORD-2). Lancet 2015;385(9972):977-1010.

In term of cancer incidence and mortality, the estimated burden was rather similar in most countries in both sexes, although the Caribbean has a distinct pattern of higher rates, particularly among males. For mortality this may be due in part to the elevated breast and prostate cancer rates among black populations in the sub-region, combined with outcome disparities and an increased risk of death for both cancers, as reported in other settings.1414. Aizer AA, Wilhite TJ, Chen MH, Graham PL, Choueiri TK, Hoffman KE, et al. Lack of reduction in racial disparities in cancer-specific mortality over a 20-year period. Cancer 2014;120(10):1532-1539.

15. Faisal FA, Sundi D, Cooper JL, Humphreys EB, Partin AW, Han M, et al. Racial disparities in oncologic outcomes after radical prostatectomy: long-term follow-up. Urology 2014;84(6):1434-1441.

16. Mahal BA, Aizer AA, Ziehr DR, Hyatt AS, Sammon JD, Schmid M, et al. Trends in disparate treatment of African American men with localized prostate cancer across National Comprehensive Cancer Network risk groups. Urology 2014;84(2):386-392.

17. Iqbal J, Ginsburg O, Rochon PA, Sun P, Narod SA. Differences in breast cancer stage at diagnosis and cancer-specific survival by race and ethnicity in the United States. JAMA 2015;313(2):165-173.

18. Wheeler SB, Reeder-Hayes KE, Carey LA. Disparities in breast cancer treatment and outcomes: biological, social, and health system determinants and opportunities for research. Oncologist 2013;18(9):986-993.
-1919. Zeng C, Wen W, Morgans AK, Pao W, Shu XO, Zheng W. Disparities by Race, Age, and Sex in the Improvement of Survival for Major Cancers: Results From the National Cancer Institute Surveillance, Epidemiology, and End Results (SEER) Program in the United States, 1990 to 2010. JAMA Oncol 2015;1(1):88-96.

Lung cancer was the first cause of death in two of the sub-regions but warrants cautious interpretation on considering the relatively low rates of lung cancer incidence and the fact that mortality should closely follow incidence given the consistently poor prognosis from this cancer. The underlying inferior quality of death certificates cannot be excluded as a possible explanatory artefact. A recent study has shown that general accuracy of vital statistics has worsened in Argentina, Colombia and México during the period 2000-2011,2020. Ribotta B, Escanés G. Codigos "poco utiles" en los registros de defuncion en Argentina, Chile, Colombia y Mexico (2000-2011) ["Garbage codes" in death records in Argentina, Chile, Colombia and Mexico (2000-2011)] [accessed July 21, 2015]. Available from: http://cienciasdelasaluduvcom/revistas/index.php/mss/article/viewFile/124/130 2014.
http://cienciasdelasaluduvcom/revistas/i...
but is countered by one Colombian study that reported the reasonable quality of death certification for cancer deaths.2121. Cendales R, Pardo C. [Colombian death certificate quality, 2002-2006]. Rev Salud Publica (Bogota) 2011;13(2):229-238. The declining lung cancer mortality rates observed among males in the seven countries with mortality data, accompanied by rising rates among females, probably reflects the historical and gender-specific smoking profiles, with smoking prevalence among men earlier and falling versus a later and rising smoking uptake among women. Unfortunately, there is no comparable long-term information for smoking trends in most countries, though presently all countries in the region have signed the WHO Framework Convention on Tobacco Control (WHO FCTC) and have advanced recommended measures.2222. World Health Organization. WHO report on the global tobacco epidemic 2013, Appendix V: Status of the WHO Framework Convention on Tobacco Control [accessed April 27, 2015]. Available at: http://www.who.int/tobacco/global_report/2013/appendix_vpdf?ua=1 2013.
http://www.who.int/tobacco/global_report...
,2323. World Health Organization. WHO report on the global tobacco epidemic 2013, Appendix I: Regional summary of MPOWER measures [accessed April 15, 2015]. Available at: http://www.who.int/tobacco/global_report/2013/en/ 2014.
http://www.who.int/tobacco/global_report...

Two infection-related cancers -stomach and cervical cancer- still represent a major part of the cancer burden in the region. The observed decreasing stomach cancer mortality rates both among males and females are consistent with worldwide findings,2424. Ferro A, Peleteiro B, Malvezzi M, Bosetti C, Bertuccio P, Levi F, et al. Worldwide trends in gastric cancer mortality (1980-2011), with predictions to 2015, and incidence by subtype. Eur J Cancer 2014;50(7):1330-1344. but rates remain double those observed in the U.S., ranking highest in Central America. Stomach cancer incidence rates in the region are also among the highest in the world, with elevated risks particularly associated to high mountainous regions,2525. Torres J, Correa P, Ferreccio C, Hernandez-Suarez G, Herrero R, Cavazza-Porro M, et al. Gastric cancer incidence and mortality is associated with altitude in the mountainous regions of Pacific Latin America. Cancer Causes Control 2013;24(2):249-256. the only distinct feature in the region compared to the other established risk factors.2626. Bonequi P, Meneses-Gonzalez F, Correa P, Rabkin CS, Camargo MC. Risk factors for gastric cancer in Latin America: a meta-analysis. Cancer Causes Control 2013;24(2):217-231. Although stomach cancer survival is reported as below 30%,1313. Allemani C, Weir HK, Carreira H, Harewood R, Spika D, Wang XS, et al. Global surveillance of cancer survival 1995-2009: analysis of individual data for 25,676,887 patients from 279 population-based registries in 67 countries (CONCORD-2). Lancet 2015;385(9972):977-1010. timely access to effective early diagnosis and treatment have proven effective in some Asian countries, and efforts to introduce such approaches while reducing disparities in the quality of care are needed to improve survival in some countries.99. de VE, Uribe C, Pardo C, Lemmens V, Van de Poel E, Forman D. Gastric cancer survival and affiliation to health insurance in a middle-income setting. Cancer Epidemiol 2015;39(1):91-96.

Marked declines in cervical cancer incidence in selected regional cancer registries in LAC were evident yet rates are still elevated relative to the U.S. or Spain, lending support to the proposal to integrate HPV vaccination and organized screening programmes.2727. Franco EL, Tsu V, Herrero R, Lazcano-Ponce E, Hildesheim A, Munoz N, et al. Integration of human papillomavirus vaccination and cervical cancer screening in Latin America and the Caribbean. Vaccine 2008;26 Suppl 11:L88-L95. There has been political support to the HPV vaccine in the region and by 2014, with 18 countries in Central America and South America already offered HPV vaccine through public immunization programs.2828. Herrero R, Gonzalez P, Markowitz LE. Present status of human papillomavirus vaccine development and implementation. Lancet Oncol 2015;16(5):e206-e216. Impact is expected to be seen only in the long term - mathematical models indicate that a 50% reduction in invasive cervical cancer will take four decades based on vaccination of 70% of 12-year-old girls based on current vaccines. Short-term reductions can however be gained by a focus on timely diagnosis and curative treatment via cost-effective organised screening programmes.

Cancers of the female breast, prostate and colorectum are major causes of cancer in the LAC region: breast and prostate cancer represent the leading cancers, in terms of both incidence and mortality in men and women respectively, in the majority of countries. The upwards trends in each cancer type are partly markers of a transitioning social and economic development in most countries, and from a broad epidemiological perspective, a changing prevalence and distribution of reproductive, dietary, and hormonal risk factors, as societies become more prosperous and industrialized, possibly enforced or reinforced by concomitant changes in the built environment. Enhanced levels of diagnostic testing and screening in some LAC countries are probably also drivers of the respective increment in prostate and breast cancer incidence, given precursor lesions are not the target of the intervention.2929. Bray F, Jemal A, Grey N, Ferlay J, Forman D. Global cancer transitions according to the Human Development Index (2008-2030): a population-based study. Lancet Oncol 2012;13(8):790-801.

Of greatest concern are the rising mortality trends of these cancers in selected LAC countries, in stark contrast to the U.S., for example, where increased early detection, and multiple modest improvements in treatment of each of these three cancers have led to substantial progress in reducing all-cancer mortality rates.3030. Jemal A, Ward E, Thun M. Declining death rates reflect progress against cancer. PLoS One 2010;5(3):e9584. The increasing trends in colorectal mortality (mirroring incidence), most markedly in Brazil, Chile and Mexico may pertain to changes in diet (e.g. intake of fruit and vegetables, fibre, red and processed meat, alcohol consumption), physical activity and overweight and obesity. Obesity is an increasing problem in Latin America and is the leading overall risk factor for disease in South America.44. Goss PE, Lee BL, Badovinac-Crnjevic T, Strasser-Weippl K, Chavarri-Guerra Y, St LJ, et al. Planning cancer control in Latin America and the Caribbean. Lancet Oncol 2013;14(5):391-436. The lack of recent mortality declines indicates a limited availability of programmes of earlier diagnosis (detection and removal of precancerous polyps via screening) as well as curative treatment, when one contrasts the country-specific trends in LAC with the downwards trends in the U.S.3030. Jemal A, Ward E, Thun M. Declining death rates reflect progress against cancer. PLoS One 2010;5(3):e9584.

For breast cancer, the rapid declines in mortality observed in Spain and the U.S. are partially matched only in Argentina and Chile, while rates are stable in Mexico and Colombia, and rising in Brazil and Cuba. Chile, on the other hand, has demonstrated advances in early breast cancer diagnosis, with early stage breast cancer cases increasing from 43% in 1999 to 70% of all diagnosed cases by 2003,3131. Prieto MT. Situación epidemiológica del cáncer de mama en Chile 1994-2003. Rev Med Clin Condes 2006;(17):142-148. while mammography screening was initiated into the primary care programme in 2001. In other South American countries including Peru, Colombia, and Mexico about half of all breast cancer cases have been reported as detected in advanced stages.1010. Justo N, Wilking N, Jonsson B, Luciani S, Cazap E. A review of breast cancer care and outcomes in Latin America. Oncologist 2013;18(3):248-256.

Recent declines in prostate cancer mortality rates in Chile, Argentina, Costa Rica and Mexico would suggest improvements in the management of the disease including the introduction of curative therapy as early as the late-1990s, while the rapid increases in incidence in the registry catchment areas are indicative of an increased use of PSA testing, although largely unknown risk factor changes may also contribute. Others have reported, given the relatively high mortality rates, limited early detection in the region, with many patients diagnosed with advanced disease.3232. Pow-Sang M, Destefano V, Astigueta JC, Castillo O, Gaona JL, Santaella F, et al. Prostate cancer in Latin America. Actas Urol Esp 2009;33(10):1057-1061. Most alarming then are the upwards trends in Brazil and Cuba, with rates rising similarly to those of incidence in the former country. Changes in the diagnosis and certification of prostate cancer have also been postulated as an explanation for the mortality inclines, particularly among the elderly.3333. Chatenoud L, Bertuccio P, Bosetti C, Malvezzi M, Levi F, Negri E, et al. Trends in mortality from major cancers in the Americas: 1980-2010. Ann Oncol 2014;25(9):1843-1853.

The present article provides a comprehensive overview of the descriptive epidemiology of cancer in 31 countries of the region presented by sub regions and compared to the world, the U.S and Spain to provide a global perspective. Attention must be drawn to the fact that given the lack of availability of incidence data, the major source of information were the GLOBOCAN estimates. High quality cancer registration in the LAC region for the period 2003-2007 covers less than 10% of the population while in North America the equivalent coverage is 83% and in Europe 32%.3434. Forman D, Bray F, Brewster D, Gombe Mbalawa Ch, Kohler B, Piñeros M, et al. Cancer Incidence in Five Continents, Vol. X. IARC Scientific Publications No. 164. Lyon: International Agency for Research on Cancer, 2014. Though important advances in cancer registration have been achieved in Latin America, much is still to be done to fill the cancer surveillance gaps and significant improvements in quality, coverage and use of data are needed. A complete situation analysis of cancer registration, alongside considerations for improving cancer surveillance in the region are presented elsewhere (Piñeros M et al., submitted 2015). Sustained cancer registration will provide the basis for robust survival data, of limited availability from cancer registries at present, and essential to monitor health system policies and equity in cancer diagnosis and treatment at the population level. The Global Initiative on Cancer Registry Development (GICR), coordinated by the International Agency for Research on Cancer (IARC) represents an international effort to reduce disparities in cancer information in low and middle income-countries. The IARC Regional Hub in Latin America and the GICR partners look forward to provide the needed technical support, training, advocacy and networking supported by national and regional experts in cancer surveillance.

Conclusions

Cancer patterns and trends in the LAC region reflect the significant sociodemographic changes that the countries in Latin America and the Caribbean are undergoing. The continuing coexistence of infection-related cancers and the emergence of "westernized" cancers in the cancer profile together with the projected increase in burden impose great challenges to national health care systems to respond accordingly, particularly in the lesser developed countries in the region. Major efforts are also required to improve cancer surveillance in the region as the evidence base for planning and evaluating cancer control interventions.

Acknowledgements

The authors would like to thank all cancer registries in the region without whom these analyses and their interpretation would be impossible. We also thank Mathieu Laversanne, Section of Cancer Surveillance, IARC, for his invaluable aid in providing the statistical analyses and graphics.

References

  • 1
    United Nations Development Programme. Human Development Report 2014 - Sustaining Human Progress: Reducing Vulnerabilities and Building Resilience [accessed April 29, 2015] Available from: http://hdr.undp.org/en/content/human-development-index-hdi 2014.
    » http://hdr.undp.org/en/content/human-development-index-hdi
  • 2
    Pan American Health Organization PAHO. Health in the Americas (2012). Washington D.C. [accessed July 10, 2015] .Available from: http://www.paho.org/saludenlasamericas/index.php?option=com_content&view=article&id=9&Itemid=14&lang=en
    » http://www.paho.org/saludenlasamericas/index.php?option=com_content&view=article&id=9&Itemid=14&lang=en
  • 3
    Saad P. Demographic trends in Latin America and The Caribbean. In: Cotlear (Ed) Population Aging, is Latin America ready? [accessed July 10, 2015]. Available from: https://openknowledge.worldbank.org/bitstream/handle/10986/2542/588420PUB0Popu11public10BOX353816B0.pdf?sequence=1 2009.
    » https://openknowledge.worldbank.org/bitstream/handle/10986/2542/588420PUB0Popu11public10BOX353816B0.pdf?sequence=1
  • 4
    Goss PE, Lee BL, Badovinac-Crnjevic T, Strasser-Weippl K, Chavarri-Guerra Y, St LJ, et al. Planning cancer control in Latin America and the Caribbean. Lancet Oncol 2013;14(5):391-436.
  • 5
    Ferlay J, Soerjomataram I, Ervik M, Dikshit R, Eser S, Mathers C, et al. GLOBOCAN 2012 v1.0, Cancer Incidence and Mortality Worldwide: IARC Cancer Base No. 11 [Internet]. 2013. [accessed on April 15, 2015].Available at: URL: http://globocan.iarc.fr
    » http://globocan.iarc.fr
  • 6
    Ferlay J, Soerjomataram I, Dikshit R, Eser S, Mathers C, Rebelo M, et al. Cancer incidence and mortality worldwide: sources, methods and major patterns in GLOBOCAN 2012. Int J Cancer 2015;136(5):E359-E386.
  • 7
    International Agency for Research on Cancer. WHO Cancer Mortality Database [accessed on November 17, 2015]. Available at: http://www-dep.iarc.fr/WHOdb/WHOdb.htm 2014.
    » http://www-dep.iarc.fr/WHOdb/WHOdb.htm
  • 8
    Curado MP, de Souza DL. Cancer burden in latin america and the Caribbean. Ann Glob Health 2014;80(5):370-377.
  • 9
    de VE, Uribe C, Pardo C, Lemmens V, Van de Poel E, Forman D. Gastric cancer survival and affiliation to health insurance in a middle-income setting. Cancer Epidemiol 2015;39(1):91-96.
  • 10
    Justo N, Wilking N, Jonsson B, Luciani S, Cazap E. A review of breast cancer care and outcomes in Latin America. Oncologist 2013;18(3):248-256.
  • 11
    Coleman MP, Quaresma M, Berrino F, Lutz JM, De AR, Capocaccia R, et al. Cancer survival in five continents: a worldwide population-based study (CONCORD). Lancet Oncol 2008;9(8):730-756.
  • 12
    Sankaranarayanan R, Swaminathan R, Brenner H, Chen K, Chia KS, Chen JG, et al. Cancer survival in Africa, Asia, and Central America: a population-based study. Lancet Oncol 2010;11(2):165-173.
  • 13
    Allemani C, Weir HK, Carreira H, Harewood R, Spika D, Wang XS, et al. Global surveillance of cancer survival 1995-2009: analysis of individual data for 25,676,887 patients from 279 population-based registries in 67 countries (CONCORD-2). Lancet 2015;385(9972):977-1010.
  • 14
    Aizer AA, Wilhite TJ, Chen MH, Graham PL, Choueiri TK, Hoffman KE, et al. Lack of reduction in racial disparities in cancer-specific mortality over a 20-year period. Cancer 2014;120(10):1532-1539.
  • 15
    Faisal FA, Sundi D, Cooper JL, Humphreys EB, Partin AW, Han M, et al. Racial disparities in oncologic outcomes after radical prostatectomy: long-term follow-up. Urology 2014;84(6):1434-1441.
  • 16
    Mahal BA, Aizer AA, Ziehr DR, Hyatt AS, Sammon JD, Schmid M, et al. Trends in disparate treatment of African American men with localized prostate cancer across National Comprehensive Cancer Network risk groups. Urology 2014;84(2):386-392.
  • 17
    Iqbal J, Ginsburg O, Rochon PA, Sun P, Narod SA. Differences in breast cancer stage at diagnosis and cancer-specific survival by race and ethnicity in the United States. JAMA 2015;313(2):165-173.
  • 18
    Wheeler SB, Reeder-Hayes KE, Carey LA. Disparities in breast cancer treatment and outcomes: biological, social, and health system determinants and opportunities for research. Oncologist 2013;18(9):986-993.
  • 19
    Zeng C, Wen W, Morgans AK, Pao W, Shu XO, Zheng W. Disparities by Race, Age, and Sex in the Improvement of Survival for Major Cancers: Results From the National Cancer Institute Surveillance, Epidemiology, and End Results (SEER) Program in the United States, 1990 to 2010. JAMA Oncol 2015;1(1):88-96.
  • 20
    Ribotta B, Escanés G. Codigos "poco utiles" en los registros de defuncion en Argentina, Chile, Colombia y Mexico (2000-2011) ["Garbage codes" in death records in Argentina, Chile, Colombia and Mexico (2000-2011)] [accessed July 21, 2015]. Available from: http://cienciasdelasaluduvcom/revistas/index.php/mss/article/viewFile/124/130 2014.
    » http://cienciasdelasaluduvcom/revistas/index.php/mss/article/viewFile/124/130
  • 21
    Cendales R, Pardo C. [Colombian death certificate quality, 2002-2006]. Rev Salud Publica (Bogota) 2011;13(2):229-238.
  • 22
    World Health Organization. WHO report on the global tobacco epidemic 2013, Appendix V: Status of the WHO Framework Convention on Tobacco Control [accessed April 27, 2015]. Available at: http://www.who.int/tobacco/global_report/2013/appendix_vpdf?ua=1 2013.
    » http://www.who.int/tobacco/global_report/2013/appendix_vpdf?ua=1
  • 23
    World Health Organization. WHO report on the global tobacco epidemic 2013, Appendix I: Regional summary of MPOWER measures [accessed April 15, 2015]. Available at: http://www.who.int/tobacco/global_report/2013/en/ 2014.
    » http://www.who.int/tobacco/global_report/2013/en/
  • 24
    Ferro A, Peleteiro B, Malvezzi M, Bosetti C, Bertuccio P, Levi F, et al. Worldwide trends in gastric cancer mortality (1980-2011), with predictions to 2015, and incidence by subtype. Eur J Cancer 2014;50(7):1330-1344.
  • 25
    Torres J, Correa P, Ferreccio C, Hernandez-Suarez G, Herrero R, Cavazza-Porro M, et al. Gastric cancer incidence and mortality is associated with altitude in the mountainous regions of Pacific Latin America. Cancer Causes Control 2013;24(2):249-256.
  • 26
    Bonequi P, Meneses-Gonzalez F, Correa P, Rabkin CS, Camargo MC. Risk factors for gastric cancer in Latin America: a meta-analysis. Cancer Causes Control 2013;24(2):217-231.
  • 27
    Franco EL, Tsu V, Herrero R, Lazcano-Ponce E, Hildesheim A, Munoz N, et al. Integration of human papillomavirus vaccination and cervical cancer screening in Latin America and the Caribbean. Vaccine 2008;26 Suppl 11:L88-L95.
  • 28
    Herrero R, Gonzalez P, Markowitz LE. Present status of human papillomavirus vaccine development and implementation. Lancet Oncol 2015;16(5):e206-e216.
  • 29
    Bray F, Jemal A, Grey N, Ferlay J, Forman D. Global cancer transitions according to the Human Development Index (2008-2030): a population-based study. Lancet Oncol 2012;13(8):790-801.
  • 30
    Jemal A, Ward E, Thun M. Declining death rates reflect progress against cancer. PLoS One 2010;5(3):e9584.
  • 31
    Prieto MT. Situación epidemiológica del cáncer de mama en Chile 1994-2003. Rev Med Clin Condes 2006;(17):142-148.
  • 32
    Pow-Sang M, Destefano V, Astigueta JC, Castillo O, Gaona JL, Santaella F, et al. Prostate cancer in Latin America. Actas Urol Esp 2009;33(10):1057-1061.
  • 33
    Chatenoud L, Bertuccio P, Bosetti C, Malvezzi M, Levi F, Negri E, et al. Trends in mortality from major cancers in the Americas: 1980-2010. Ann Oncol 2014;25(9):1843-1853.
  • 34
    Forman D, Bray F, Brewster D, Gombe Mbalawa Ch, Kohler B, Piñeros M, et al. Cancer Incidence in Five Continents, Vol. X. IARC Scientific Publications No. 164. Lyon: International Agency for Research on Cancer, 2014.

Publication Dates

  • Publication in this collection
    Mar-Apr 2016

History

  • Received
    27 July 2015
  • Accepted
    08 Feb 2016
Instituto Nacional de Salud Pública Cuernavaca - Morelos - Mexico
E-mail: spm@insp3.insp.mx