Love Nuts? Your APOA5 Gene May Not

GB HealthWatch, a nutritional genomics company, is offering unlimited access to their comprehensive web portal and online tools in an effort to help the public better understand how an individual’s genetic makeup can interact with suboptimal food choices and lead to detrimental health conditions, such as type 2 diabetes, high blood pressure and high blood lipids.

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Certain APOA5 genes cause higher triglycerides with high consumption of nuts and seeds. This is because many nuts and seeds contain high omega-6 fatty acids and little to no omega-3.
People with certain APOA5 gene variants can lower risk for high triglycerides by avoiding omega-6 rich nuts.

San Diego, CA (PRWEB) May 07, 2013

GB HealthWatch, a nutritional genomics company, is offering unlimited access to their comprehensive web portal and online tools in an effort to help the public better understand how an individual’s genetic makeup can interact with suboptimal food choices and lead to detrimental health conditions, such as type 2 diabetes, high blood pressure and high blood lipids. One example of gene-diet-disease interaction is that people with certain APOA5 gene variants can develop high blood triglycerides, a major risk factor for cardiovascular disease, if their diet contains too much omega-6 fatty acids. Many nuts and seeds are rich in omega-6 fatty acids and should be limited by people carrying these gene variants to help minimize risk.

Nuts are typically viewed as a nutrient-packed health food. They are a great snack for many, but loving nuts can lead to health problems in people with certain genetic makeups. About 30% of Asians and Hispanics, 20% of Africans, and 8% of Caucasians carry a risk variant of the APOA5 gene that makes them more sensitive to the amount of omega-6 fatty acids in their diet. Epidemiological studies have shown that when omega-6 intake is over 6% of total calories, these people are more likely to have higher triglyceride levels. When omega-6 intake is less than 6% in the diet, triglyceride levels are usually comparable to normal.

Many nuts and seeds are very rich in omega-6 fatty acids. And high triglycerides are a major risk factor for cardiovascular disease. People with APOA5 gene risk variants need to watch out for high omega-6 foods in order to minimize their risk for this health problem. It is important to learn which foods are major sources of omega-6 and also which foods provide omega-3, a fatty acid that counteracts the effects of omega-6. One cup of peanuts or a half cup of sunflower seeds can easily boost omega-6 intake over the dangerous 6% total calorie level. Other nuts, like walnuts, contain less omega-6 and more omega-3 fatty acids, making them a healthier alternative. Many staple food oils such as corn, soybean and cottonseed oils also contain very high omega-6. Olive oil and canola oil are healthier alternatives because they provide less omega-6 and more omega-3. Increasing consumption of omega-3 rich foods such as deep sea fish, seaweed, and omega-3 supplements while limiting omega-6 intake can be an effective dietary intervention for reducing the risk for high blood triglycerides.

GB Healthwatch is now offering free access to its online Diet and Nutrition Evaluator to help people eat right for their genes. People can use the Diet and Nutrition Evaluator to get an accurate assessment of omega-6 fatty acid intake and omega-6:omega-3 ratio, along with intake of over 30 other nutrients in your diet. The tool, personalized for users based on age and gender, also provides practical guidelines on how to adjust the diet to better meet nutritional recommendations. Top food sources to satisfy nutrient needs are provided as well. GB Healthwatch website is also a rich source of educational materials about how gene-diet interplay is associated with today’s common chronic diseases.

About GB HealthWatch
GB HealthWatch is a nutritional genomics company. We study gene-diet-disease interactions. Our mission is to help prevent common chronic diseases through targeted, gene-based nutritional and dietary intervention. We aim to inform people about the scientific basis of chronic diseases, support them with nutrition management products and services and empower them to take control and live better lives. What questions do you have about the gene-diet relationship? We invite you to visit http://www.gbhealthwatch.com and explore.