Archive for Fat
Health benefits of nuts and seeds
Posted by: | CommentsFrom the Johns Hopkins University Medicine reports, the following is a summary on the benefits most informed “health nuts” (pun intended) already know. For those who don’t, its time to join the bandwagon.
Nuts contain monounsaturated fats, which help lower low-density lipoprotein (LDL, or “bad”) cholesterol and may raise high-density lipoprotein (HDL, or “good”) cholesterol when substituted for saturated fats in the diet. Several major studies have found that eating nuts significantly reduces the risk of coronary heart disease — by 25–50% in both men and women. The Nurses’ Health Study, found that regularly eating nuts and peanut butter reduces the chance of developing type 2 diabetes by 21–27%.
Nuts are rich in vitamins, minerals, and other phytochemicals beneficial to your health. For example, walnuts contain a type of omega-3 fat similar to fish oil, and almonds contain calcium and vitamin E. Nuts are also excellent sources of protein and fiber.
Despite nuts and seeds being calorie dense (160–200 calories per oz), research shows that people who eat nuts tend to weigh less than those who don’t eat nuts. Possible explanations: Nut eaters may follow a healthier diet (lower in calories and saturated fat) than people who abstain from nuts, and those who are overweight may shun nuts because of their high-calorie content.
Because nuts are filling due to their high protein and fiber content, snacking on them tend to curb appetite afterwards and help decrease caloric intake naturally. Furthermore, because protein requires more energy to digest than fats or carbohydrates, more calories are used in the process.
I know some high-level vegan strength athletes who are serious eaters of nuts and seeds, using them as the mainstays to supply the extra calories and protein requirements that their gruelling training regimen requires.
So as not to overeat on nuts and seeds, I usually measure what I choose to eat, grind them on my coffee/spice grinder, and spread them over my salads or steamed vegetables, or mix them with my stews or soups. That way I don’t get tempted to eat the whole bag ! Remember, these are very high caloric foods, and should be approached carefully and mindfully.
Plant-based omega-3
Posted by: | CommentsA study from from King’s College London has found that relatively small amounts of omega-3 fatty acids from algae (even as little as 0.7 grams of DHA) can lower pressure and reduce the risk of cardiovascular disease. Unlike fish oil, has the advantage of being both sustainable and acceptable to vegetarians.
The omega-3 fatty acid docosahexaenoic acid (DHA) was extracted from the marine algae crypthecodinium cohnii. Results showed that the daily intake of 0.7g DHA lowered diastolic pressure by 3mm of Hg. This reduction can prevent thousands of heart attacks and strokes.
Previous studies using fish oil required more than 2-3g of omega-3 fatty acids to lower pressure. Fish oil generally contains more eicosapentaenoic acid (EPA) than DHA. This study shows that even relatively small amounts of DHA can effectively improve cell membrane function and lower pressure. Omega-3 fatty acids are considered essential fatty acids. They are manufactured by the body and must be obtained from fish and certain plant sources. Many studies show that omega-3 fatty acids reduce inflammation, help prevent certain chronic diseases (e.g., heart disease, arthritis) and play a critical role in brain function.
‘Our findings provide further evidence that relatively small amounts of this form of omega-3 helps promote a healthy heart,’ said T. Sanders, Head of King’s College London’s Nutritional Sciences Research Division. ‘There are long-term worries about the sustainability of fish stocks and our results suggest that a sustainable vegetable source synthesised by algae may be useful for preventing cardiovascular disease. Importantly, this form of DHA is acceptable to people who do not eat fish, for example vegetarians.’
Omega mind
Posted by: | CommentsOmega-3 polyunsaturated fatty acids can affect mood, personality and behavior, according to a study by University of Pittsburgh School of Medicine.
In a study of 106 healthy volunteers, researchers found that participants who had lower levels of omega-3 polyunsaturated fatty acids were more likely to report mild or moderate symptoms of depression, a more negative outlook and be more impulsive. Conversely, those with higher levels of omega-3s were found to be more agreeable.
Going nuts
Posted by: | Comments“Many people have avoided nuts because of their high fat content, but the fat in nuts, including peanuts, is mainly unsaturated, and walnuts in particular are a good source of omega-3 fatty acids. Controlled feeding studies show that nuts improve blood cholesterol ratios, and epidemiological studies indicate that they lower the risk of heart disease and diabetes. Also, people who eat nuts are actually less likely to be obese; perhaps because nuts are more satisfying to the appetite, eating them seems to have the effect of significantly reducing the intake of other foods.”
- Walter C. Willett and Meir J. Stampfer, professors of epidemiology and nutrition at the Harvard School of Public Health.
Benefits of fish oil
Posted by: | CommentsAdvice from the Mayo Clinic:
“For heart disease prevention, near-maximum benefit comes from eating two 3-ounce servings of cold water fish a week. More than that doesn’t appear to offer any additional preventive benefit. (It’s advisable to avoid farmed fish (e.g., farmed salmon) because of its inferior nutrients and potential chemical contamination. Wild salmon is always a better choice.)
Higher amounts of two kinds of omega-3, docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), may benefit some people with established heart disease or high triglyceride levels and can have an anti-inflammatory effect for people with rheumatoid arthritis. In addition, DHA is being studied to see if it can slow the progression of Alzheimer’s disease.
For those who don’t eat fish, a fish oil supplement or an algae supplement can provide omega-3 fatty acids. However, supplements aren’t cheap, and the amount of DHA and EPA in supplements varies widely. Except for people who have established heart disease, the evidence of heart disease prevention is stronger when one eats fish instead of taking supplements. Supplements can pose risks, too. Taking more than 3 grams of fish oil a day may increase the risk of bleeding, worsen heart rhythm problems in those who have arrhythmias or cause other side effects.”
Preloading and it’s effect on appetite
Posted by: | CommentsI was cleaning out my old files yesterday, and I found this segment that I saved a while back. It’s from Obesity Research. 2004; 12: 102S-106S. The title of the article is Biology of Eating Behavior in Obesity, by Gary J. Schwartz’s:
Dr. Roth. If I understood you correctly, a lipid load in the duodenum reduces subsequent meal size.
Dr. Schwartz. Correct.
Dr. Roth. So, I don’t mean to be flippant, but it strikes me that if you started every meal with a shrimp tail and a handful of macadamia nuts, perfect Atkins strategy, and waited 20 minutes to load your duodenum, you would reduce subsequent meal size and enhance the efficacy of the diet. These are Atkins maneuvers that would be perfectly reasonable, and now you make a scientific rationale for reducing subsequent meal size.
Dr. Schwartz. In rodents, protein and fat infusions in the duodenum are much more efficacious in reducing subsequent food intake than equally caloric loads of carbohydrate. They are also particularly good secretogogues of CCK. So mechanistically speaking, it’s not unreasonable to imagine that preconsumption, if you will, increases the availability of nutrient secretogogues of the satiety peptides that are mechanistically important in regulating the subsequent meal size.
Dr. Feinman. Do carbohydrates, more particularly sucrose, have an effect? In particular, would vagal stimulation be repressed by the presence of sucrose?
Dr. Schwartz. An individual macronutrient may have different behavioral and neural effects at different gut– brain sites. At an oral site, it has been shown that sucrose can promote the release of dopamine in the forebrain nucleus acumens, part of the neuranatomic basis of reward. Duodenal infusions of carbohydrate solutions can promote increases in vagal afferent activity, yet these infusions also reduce subsequent meal size.”
You got to admit, that’s pretty good stuff. How do you apply this bit of knowledge if you have a tendency to overeat?
One can eat a small handful of mixed nuts (e.g., 10 grams of almonds & walnuts) prior to a main meal take the edge off. I suggest drinking cup of plain hot tea with it. Then wait for 10 – 15 minutes, after which one can proceed with the rest of the meal. The calories would be minimal — about 60 calories, but it would definitely help manage one’s hunger after a long day at the office.
The effect of fat on appetite
Posted by: | CommentsThe type of food we ingest (high fat vs high carbohydrate, junk vs nutritious) has the ability to force us into eating more than we should have by actually increasing hunger signals and postponing satiety.
When ingested with salt, sugar, and refined carbs, (e.g., the typical fast food meal), self-regulation becomes very difficult. The quality of the food we eat determines the efficacy of the hunger-satiety switch. Part of the trick is consciously switching over to foods with higher nutritional density (as a function of calories). This way we give the body the ability to re/learn experience true physiological hunger, rather than be at the mercy of the toxic effects of unhealthy food.
Here’s an excerpt from “Control of Food Intake in the Obese,” by J.E. Blundell and A. Gillett, Obesity Research, Vol 9, 2001. It shows how food choice in and of itself (exclusive of its caloric level) can lead to weight gain.
“Adjustments to the signaling of hunger and satiety will affect the pattern of food consumption in weight-gaining or obese individuals; this will be manifested through an increase in the size or frequency of eating episodes. However, energy intake could also be raised through the consumption of high energy-yielding foods. There is considerable evidence that high-fat diets lead to positive energy (and fat) balances, which, in the absence of a capacity for fat oxidation, will lead to weight gain. There is a much greater prevalence of obesity among habitual high-fat than low-fat consumers when the quality of the data are improved by omitting implausible self-reports of food intake. In addition, obese women show a strong preference for sweet high-fat foods, which is matched by high consumption of foods with a combination of high-sugar and high-fat content. Moreover, in contrast to normal-weight subjects, obese individuals select more high energy dense and fewer low energy dense foods. The proposition that a positive energy balance is brought about by the energy density of foods rather than by the fat content is not supported unequivocally by evidence. There is considerable evidence that people do not maintain a uniform weight of food intake when the energy density changes. Moreover, the highest energy densities can only be achieved by the inclusion of large amounts of fat (the macronutrient with the highest energy density). There is also evidence that fat itself may weaken the regulation of food intake. Subjects given a high-fat diet for 3 weeks strated higher hunger levels at the end than at the beginning of the period. This finding resonates with the finding that although higher carbohydrate meals raise leptin levels, high-fat meals actually reduce 24-hour plasma leptin concentrations. Consequently, a high-fat intake contributes to a positive energy balance directly by increasing the amount of energy consumed (perhaps through passive overconsumption) and also by increasing the drive to eat through increased hunger levels. It follows that individuals who possess the trait of high hunger levels and the trait of high-fat food preference would possess a considerable risk of achieving a positive energy balance. It is possible that these traits are linked through the mediation of leptin.”
