Benefits of Cocoa highlighted at The National Academies

Holds tremendous potential to impact public health and improve the socioeconomic and ecological landscape of the countries where it's grown.

10/02/06 The cocoa plant (Theobroma cacao) holds tremendous potential to impact public health and improve the socioeconomic and ecological landscape of the countries where it's grown, according to leading world scientists who convened at the National Academies to examine the latest scientific advances in cocoa research.

Building on the first-ever cocoa science symposium held at The National Academies in 2004, the symposium brought together a multi-disciplinary international group of scientists from the public and private sectors to review the most recent scientific advances related to cocoa - from its potential to improve public health to its role in preserving the tropical ecosystems where cocoa is grown.

Symposium co-chair Helmut Sies, MD, Professor at Heinrich-Heine University in Germany added, "Based on the exciting research findings presented today and published recently in leading scientific journals, we are witnessing an explosion of cocoa science that has the potential to change the lives of people in terms of their health and their ability to impact the environment."

Norman Hollenberg, MD, PhD, Professor of Medicine at Harvard Medical School, presented epidemiological findings that suggest flavanol-rich foods, such as specific cocoas, could provide an unexpectedly large benefit in the management of the two most common causes of death in today's world: cardiovascular disease and cancer.

A long-time collaborator with Mars, Hollenberg studied two populations of Kuna Indians. The indigenous Kuna Indians living on a chain of islands near Panama still drink large quantities of a homemade, flavanol-rich cocoa every day. In contrast, the Kuna Indians who migrated from the islands and live in and around Panama City consume little cocoa, and the cocoa they do consume is commercially processed and relatively low in flavanols.

In data obtained from death certificates, Hollenberg found that the Kuna Indians living on the islands had significantly lower rates of heart disease and cancer. The relative risk of death from heart disease on the Panama mainland was 1,280 percent higher than on the islands, and death from cancer was 630 percent higher.

"Our results indicate that a flavanol-rich diet may provide an extraordinary benefit in the reduction of the two deadliest diseases in today's world," said Hollenberg, who has been working with the Kuna Indians for more than 10 years. "Though preliminary, the data collected thus far are striking in terms of both risk reduction and potential public health significance. Further research is clearly warranted to conclusively define the relationship between consumption of dietary flavanols and incidence of cardiovascular disease and cancer in this population, as well as others."

Previous research by Harvard's Hollenberg and scientists from UKA Aachen and Heinrich-Heine University in Germany, the University of California, Davis and Mars, Incorporated published in the Proceedings of the National Academy of Sciences (PNAS), January 24, 2006, found that the island-dwelling Kuna Indians had significantly higher levels of flavanols in their bloodstream, as well as higher levels of nitric oxide metabolites - a marker for normal blood vessel function and healthy blood flow. In addition, this study was the first to provide direct evidence that a specific nutrient in cocoa, the flavanol (-)epicatechin, can help improve blood vessel relaxation, which is an important factor in cardiovascular health.

Hagen Schroeter, PhD, faculty member at UC, Davis, and Christian Heiss, MD, at UC, San Francisco, co-authors on the study published in PNAS, presented additional new data at the symposium demonstrating that the cardiovascular benefits observed following consumption of a flavanol-rich cocoa are not merely dependent on so-called antioxidant effects. "The concept that the benefits derived from cocoa consumption are solely related to antioxidant properties represent a view that is not accurate," said Schroeter. "Furthermore, most of the flavanols present in plasma have been altered by the body following consumption, and are known to have even less antioxidant potential than their parent flavanols. Therefore, the specific flavanol content and composition of cocoa, and the cardiovascular activities they exhibit beyond their antioxidant effects, are far more interesting and important to public health researchers."

New data presented at the meeting resulting from a research collaboration between Mars, Incorporated and the Shanghai Institute of Materia Medica of the Chinese Academy of Sciences further emphasizes the interesting bioactivity that cocoa flavanols can exhibit. "Working with cocoa scientists from Mars, Incorporated, we were able to demonstrate in model systems that certain cocoa flavanols have the potential to inhibit biochemical pathways that can cause inflammation, which is a process that can contribute to cardiovascular disease and other health issues," said Dr. Dongmei Chen, one of the study's co-authors.

Analytical data presented by Mars, Incorporated - world leaders for many years in understanding how to best measure flavanols in cocoa and other plant foods - demonstrated that antioxidant measures commonly used by many researchers and food manufacturers are not accurate when compared to validated primary measures.

Rare for science programs in today's industrial environment, Mars has been committed to cocoa science investments for more than 15 years, and this investment has resulted in world-leading innovations such as a proprietary method of processing cocoa called Cocoapro(R). This patented technology - which helps retain the naturally occurring flavanols - is used to make unique cocoa ingredients for Dove(R) Dark Chocolate and the new heart-healthy snack CocoaVia(TM). Mars identified the need for this innovation because traditional cocoa processing methods often destroy these bioactive nutrients.

Carl Keen, PhD, Chair of the Department of Nutrition at the University of California, Davis, who has also collaborated on a number of cocoa flavanol studies, chaired the session exploring the link between cocoa flavanols and cardiovascular health in which Hollenberg and Schroeter, along with Joseph Spence, PhD, USDA-ARS, presented their new findings. Keen said people often forget that cocoa is derived from a plant, and they don't realize that cocoa contains similar healthful nutrients found in fruit and vegetables. For example, the flavanol (-)epicatechin - a nutrient especially abundant in certain cocoas - is also found in certain fruit and vegetables, such as apples and grapes.

In addition to breaking research in the area of cardiovascular health, presentations highlighted new opportunities for cocoa to provide social, economic and environmental benefits to the millions of farmers who depend on this unique crop for their livelihoods. Every year, many cocoa farmers lose a third or more of this fragile crop due to pests and diseases - or simply because of a lack of appropriate training, the use of rudimentary farming techniques, or other challenges.

A large proportion of the world-leading cocoa science portfolio of Mars continues to be dedicated to improving the lives of cocoa farmers and their surrounding environments in the three main cocoa growing regions of the world - West Africa, the Americas and Southeast Asia. For decades, Mars has been at the forefront of unique public/private partnerships that create new ecological and socioeconomic opportunities for the millions of farmers throughout the tropics who depend on cocoa for their livelihood.

Partnerships with the U.S. Department of Agriculture-Agricultural Research Service (USDA-ARS), U.S. Agency for International Development (USAID), Smithsonian Tropical Research Institute and others have focused on providing science and developing programs to promote sustainable, responsible cocoa farming. Projects have helped to improve farmer incomes, enhance productivity and conserve tropical forest ecosystems.

The symposium highlighted other successful partnerships, including a program administered by Winrock International and supported by Mars that provides children in the Ivory Coast access to relevant agricultural education. The Sustainable Tree Crops Program (STCP) - a public/private partnership supported by USAID, Mars and other industry members - provides on-the-ground farmer training in West African cocoa communities. The initial outcome of this pilot program resulted in the potential to increase incomes by 20 percent. This program is now serving as a model for industry-wide initiatives to educate farmers in cocoa-growing countries.

Theobroma Cacao: The Tree of Change was convened at the National Academies in Washington, DC. The co-sponsors of the symposium include: Chinese Academy of Sciences; Mars, Incorporated; Rabobank; Royal Botanical Gardens, Kew; Smithsonian Tropical Research Institute; Sustainable Tree Crops Program/International Institute for Tropical Agriculture; Union of German Academies of Sciences and Humanities; University of California-Davis; U.S. Agency for International Development; U.S. Department of Agriculture-Agricultural Research Service; USDA Forest Service International Programs; and ICRAF, The World Agroforestry Centre.

Mars, Incorporated, headquartered in McLean, Virginia, is a privately-held company with a strong commitment to science-based research. With well over 15 years of research into the health benefits of cocoa flavanols, and decades of research invested into improving the cocoa plant and farming techniques, Mars, Incorporated has become the global leader in cocoa science.

http://home.businesswire.com/portal/site/google/index.jsp?ndmViewId=news_view&newsId=20060209005256&newsLang=en