Cashew Seed Extract an Effective Anti-Diabetic

    July 2010 � Cashew seed extract shows promise as an effective anti-diabetic, according to a new study from the University of Montreal (Canada) and the Universit� de Yaound� (Cameroun). Published in the journal Molecular Nutrition & Food Research, the investigation analyzed the reputed health benefits of cashew tree products on diabetes, notably whether cashew extracts could improve the body's response to its own insulin.

    Diabetes is caused when a person has high blood sugar because their body does not respond well to insulin and/or does not produce enough of the hormone. The illness, which affects nearly 220 million people worldwide, can provoke heart or kidney disease. The goal of the study was to examine the impact of leaves, bark, seeds and apples from cashew trees, native to northeastern Brazil and other countries of the southern hemisphere, on cells that respond to insulin.

    "Of all the extracts tested, only cashew seed extract significantly stimulated blood sugar absorption by muscle cells," says senior author Pierre S. Haddad, a pharmacology professor at the University of Montreal's Faculty of Medicine. "Extracts of other plant parts had no such effect, indicating that cashew seed extract likely contains active compounds, which can have potential anti-diabetic properties."

    Cashew tree products have long been alleged to be effective anti-inflammatory agents, counter high blood sugar and prevent insulin resistance among diabetics. "Our study validates the traditional use of cashew tree products in diabetes and points to some of its natural components that can serve to create new oral therapies," adds Dr. Haddad, who is also director of the Canadian Institutes of Health Research Team in Aboriginal Anti-Diabetic Medicines at the University of Montreal.

    About the study:

    Continue Reading Below ↓↓↓

    The article "Hydro-ethanolic extract of cashew tree (Anacardium occidentale) nut and its principal compound, anacardic acid, stimulate glucose uptake in C2C12 muscle cells," published in the journal Molecular Nutrition & Food Research, was authored by Leonard Tedong, Padma Madiraju, Louis C. Martineau, Diane Vallerand, Louis Lavoie and Pierre S. Haddad of the University of Montreal (Canada) as well as John T. Arnason, Dzeufiet D. P. Desire and Pierre Kamtchouing of the Universit� de Yaound� (Cameroun).

    Partners in Research: This study was funded by the Canadian Institutes of Health Research and the Institute of Nutraceuticals and Functional Foods.

    Source: University of Montreal