Higher blood and dietary antioxidant nutrient levels predict reduced mortality risk over 13 year average
A report published online on September 1, 2010 in the British Journal of Nutrition revealed a protective effect for a number of antioxidant nutrients against all-cause and disease-specific mortality in older individuals over a 13 year average period. "The purpose of the present paper is to explore the predictive significance of a selection of biochemical indices for nutrients that are believed to mediate redox-modulatory (antioxidant or pro-oxidant) functions in living tissues," the authors write. "Evidence that subsequent all-cause mortality may be predicted by vitamin C intakes and/or status has been obtained in several previous studies, and similarly for carotene and selenium."
Researchers at MRC Human Nutrition Research in Cambridge and University College in London evaluated data from 1,054 participants in the British National Diet and Nutrition Survey, which enrolled men and women aged 65 and older from 1994 to 1995. Blood samples obtained upon enrollment were analyzed for plasma vitamin C, retinol, alpha-tocopherol, gamma-tocopherol, carotenoids, zinc, copper, iron, selenium and a1-antichymotrypsin, a serine protease inhibitor that is increased during inflammation. Four day dietary records were analyzed for the intake of these nutrients and energy intake. The participants were followed through September, 2008 and the causes of any deaths were documented.
Seventy-four percent of the men and 62 percent of the women enrolled in the Survey died over the course of follow-up. Increased plasma vitamin C, alpha-carotene, selenium, zinc and iron were significantly associated with a reduction in all-cause mortality, as was the dietary intake of vitamin C, carotenoids, zinc, copper and total energy. These patterns remained fundamentally similar when deaths from vascular, cancer and respiratory diseases were separately considered, however, increased dietary vitamins C and E were found to confer a significant protective effect against cancer, and dietary vitamin E protected against respiratory disease in males (while carotenoid intake was protective in women). An association of elevated plasma copper and a1-antichymotrypsin levels with increased mortality was explained by the fact that a1-antichymotrypsin and a major copper-containing plasma protein increase during inflammatory states.
"A number of baseline nutrient status indices with ‘redox-modulatory’ connotations appear to predict all cause, primary vascular disease, cancer or respiratory disease mortality in older British adults," the authors conclude. "Future studies should attempt to determine, first, which nutrients are the most frequent predictors of all-cause and specific-cause mortality in different populations, and second, whether these predictions can imply causal relationships, such that dietary or other interventions might promote disease-free longevity."
Cancer immunotherapies, including cancer vaccines, are novel investigational cancer therapies. In contrast to chemotherapy and radiotherapy regimens that are often associated with severe side effects, cancer immunotherapy stimulates the body’s immune system and natural resistance to cancer, thus offering a gentler means of cancer treatment that is less damaging to the rest of the body. Surgery is generally (but not always) performed, prior to immunotherapy, to remove most of the tumor (Hanna MG, Jr. et al 2001; Jocham D et al 2004). Vaccination or immunotherapy prompts the immune system to kill residual cancer cells that persist after surgery and could result in the cancer recurring.
The status of the patient’s immune system is the key physiological factor affecting the outcome of cancer immunotherapy. However, each individual’s immune status is in turn affected by several factors (including age, tumor-induced and surgery-associated immunosuppression, and nutritional status) that need to be assessed, and some require continuous monitoring for the successful application of immunotherapeutic regimens. Immune cells play a central role in mediating the effects of immunotherapy, and specific nutritional supplements that enhance immune cell function can be effective in preparing patients for immunotherapy or vaccination (Malmberg KJ et al 2002).
Although the direct effect of nutritional supplements on the effectiveness of cancer immunotherapy has yet to be clinically evaluated, the impact of nutrition, particularly micronutrients, on immune cell function (that is, immunonutrition) is central to the success of any cancer treatment (Calder PC et al 2002b; Chandra RK 1999). Several nutrients are able to modulate immune response and counteract inflammatory processes. Zinc, omega-3 fatty acids, and glutamine all act differently to modulate immune response, but all appear to have the potential to protect against cancer progression (Grimble RF 2001).
Immunonutrition has gained recognition as an adjuvant cancer therapy and should be an integral part of cancer immunotherapy, particularly against cancers associated with chronic inflammation (Philpott M et al 2004), as it has beneficial effects on patient outcomes, enhances the immune response, and improves the prognosis of cancer patients (Chermesh I et al 2004).
Calorie Control Weight Management Formula
Americans live in a state of denial as it relates to the effects of excess calorie ingestion.
Once we accept the danger that each surplus calorie poses to our aging body, it becomes easy to understand the need to impede the absorption and effects of ingested foods by taking Calorie Control Weight Management formula before the two heaviest meals of the day.
The new Calorie Control Weight Management Formula contains a double-dose of propolmannan (LuraLean®) used in the pilot trial of treatment-resistant individuals who shed almost 12 pounds on average after eight weeks.
This supplement should be taken in conjunction with a healthy diet and regular exercise program. Results may vary.
An avalanche of favorable studies has resulted in record numbers of Americans supplementing with vitamin D.
Overlooked by almost everyone (except Life Extension® members) is the critical importance of vitamin K. If one is concerned enough about their health to take higher dose vitamin D, it seems absurd to miss out on the proven benefits of vitamin K. For instance, vitamin D facilitates calcium absorption into the bloodstream and thus plays an important role in maintaining bone density. Less recognized is the need for vitamin K to transport calcium from the bloodstream into the bone. Vitamin K is also required by calcium-regulating proteins in the arteries. Together these two vitamins help maintain youthful calcium skeletal distribution while promoting vascular health.