Search Term: " Dyslipidemia "
Dyslipidemia Causes + 5 Tips to Manage It Naturally
January 02, 2018 08:59 AM
Dyslipidemia causes 5 plus tips to manage it naturally. This is a group of disorders characterized by changes in plasma lipids or lipoproteins. This included two that they are familiar with. The two are cholesterol and triglycerides. The goal for people over 20 is to have cholesterol levels that are under 200 milligrams per deciliter. There are an estimated 99 million Americans that are dealing with blood cholesterol levels higher than what is considered the healthy range.
"However, in my opinion, one of the things you should focus on most is avoiding processed foods that increase cholesterol due to how they cause inflammation."
Read more: https://draxe.com/dyslipidemia/
Niacin and Cholesterol -- abstracts states blocks cholesterol absorption ...
May 21, 2005 11:20 AM
The Era of Statins - Is There Still a Place for Other Classes of Lipid-Lowering Drugs? Wascher, Thomas C. Department of Internal Medicine, Diabetes and Metabolism Unit, and Diabetic Angiopathy Research Group, Medical University of Graz, Graz, Austria. HeartDrug (2005), 5(1), 34-38. CODEN: HEARCO ISSN: 1422-9528. Journal; General Review written in English. CAN 142:384798 AN 2005:64730 CAPLUS
A review. Plenty of evidence suggests statins as the first-line therapy for the treatment of lipid disorders. However, further therapeutic options available in the treatment of lipid disorders are fibrates, niacin and cholesterol absorption inhibitors. In the present study, current treatment modalities of lipid disorders are reviewed, and their use was scrutinized based on the available evidence.
Niacin and cholesterol: role in cardiovascular disease (review). Ganji, Shobha H.; Kamanna, Vaijinath S.; Kashyap, Moti L. Atherosclerosis Research Center, Department of Veterans Affairs Healthcare System, Long Beach, CA, USA. Journal of Nutritional Biochemistry (2003), 14(6), 298-305. CODEN: JNBIEL ISSN: 0955-2863. Journal; General Review written in English. CAN 139:291534 AN 2003:542279 CAPLUS
A review. Niacin has been widely used as a pharmacol. agent to regulate abnormalities in blood plasma lipid and lipoprotein metab. and in the treatment of atherosclerotic cardiovascular disease. Although the use of niacin in the treatment of Dyslipidemia has been reported as early as 1955, only recent studies have examd. the cellular and mol. mechanism of action of niacin on lipid and lipoprotein metab. The beneficial effects of niacin in decreasing triglyceride and apolipoprotein-B contg. lipoprotein (VLDL and LDL) levels are mainly due to decreased fatty acid mobilization from adipose tissue triglyceride stores and inhibition of hepatocyte diacylglycerol acyltransferase and triglyceride synthesis, leading to increased intracellular apolipoprotein-B degrdn. and subsequent decreased secretion of VLDL and LDL particles. The mechanism of action of niacin to raise HDL levels involves decreasing the fractional catabolic rate of HDL-apolipoprotein A-I without affecting its biosynthetic rates. Niacin selectively increases blood plasma levels of Lp-AI (HDL subfraction without apolipoprotein A-II), a cardioprotective subfraction of HDL in patients with low HDL levels. Using human hepatocytes (Hep G2 cells) as an in vitro model, recent studies indicate that niacin selectively inhibits the uptake/removal of HDL-apolipoprotein A-I (but not HDL-cholesterol ester) by hepatocytes, thereby increasing the capacity of retained HDL-apolipoprotein A-I to augment cholesterol efflux through reverse cholesterol transport pathway. The data provide evidence extending the role of niacin as a lipid-lowering drug beyond its dietary role as a vitamin.
Effects of a novel formulation of essential oils on glucose–insulinmetabolism in diabetic
May 18, 2005 09:20 AM
Background: Insulin resistance and its most severe form type 2 diabetes mellitus are rapidly increasing throughout the world. It is generally recognized that natural products with a long history of safety can increase insulin sensitivity.
Aims: The present investigation examined the ability of various combinations of essential oils such as fenugreek, cinnamon, cumin, oregano, etc. to enhance insulin sensitivity. As a first approximation, we examined the effects of these natural products on Zucker fatty rats (ZFRs), a model of obesity and insulin resistance, and spontaneously hypertensive rats (SHRs), a model of genetic hypertension. Material and Methods: Water or essential oils were given orally via droplets, and insulin sensitivity was estimated by systolic blood pressure (SBP) changes and circulating glucose and/or insulin concentrations.
Results: We have found that the ability to alter SBP in rat models is the most sensitive early index of insulin sensitivity. The combined essential oils lowered circulating glucose levels and SBP in both ZFRs and SHRs, suggesting that these natural products are enhancing insulin sensitivity. The second series of studies examined two additional combinations of essential oils along with the original formula. The major differences were in the types and proportions of individual oils contributing to a given formula.
Conclusions: Although all the three formulae decreased SBP in ZFRs, one of the formulae was more effective than the others in lowering circulating glucose in the glucose tolerance testing. Accordingly, some essential oils may be added to the long list of natural products that can affect insulin sensitivity. Keywords: diabetes mellitus, essential oils, insulin resistance, insulin sensitivity, insulin sensitivity, natural products Received 11 August 2003; returned for revision 25 September 2003; revised version accepted 16 March 2004 Introduction The prevalence of insulin resistance and its most severe form type 2 diabetes mellitus is rapidly increasing in the USA – even throughout the world [1–3]. The recent increase is attributed, at least to some extent, to the greater occurrence of overweight and obesity that is due mainly to an augmented intake of calories and refined carbohydrates, lesser consumption of fibres and a more sedentary lifestyle [4–6]. Obviously, reversal of these situations should ameliorate the problem. Unfortunately, more is often needed than simply advising lifestyle changes that frequently fail in order to combat insulin resistance and its accompanying perturbations (cardiovascular diseases, obesity, Dyslipidemias, diabetes mellitus and premature ageing) [7,8]. Experience shows that the afflicted not infrequently require aids to help with the maintenance of a healthful lifestyle. Correspondence: Harry G. Preuss, D, Georgetown University Medical Center, Department of Physiology and Biophysics, Basic Science Building, Room 231B, 4000 Reservoir Road, N.W., Washington, DC 20057, USA. O R I G I N A L ART I C L E doi: 10.1111/j.1463–1326.2004.00386.x # 2004 Blackwell Publishing Ltd Diabetes, Obesity and Metabolism, 7, 2005, 193–199 193
Cinnamon Extract and Blood sugar 60ct
Cinnamon Extract and Blood Sugar 120ct
Under-Reported (and Underappreciated) Cholesterol control.
May 12, 2005 10:00 AM
Under-Reported (and Underappreciated) Solutions for Cholesterol and Triglyceride Controlby Richard Conant, L.Ac., C.N.
Fat and human existence are inseparable. Setting aside the fear and loathing over fat in the body that pervades our culture, we understand that fat is our friend. We cannot live without fat.
The human body contains many different kinds of fats and fat-like molecules. Collectively known as "lipids" these fatty substances include fatty acids, lipoproteins, phospholipids, glycolipids, triglycerides, steroid hormones and the infamous, dreaded cholesterol.
Lipids (fats) are found everywhere in the body, performing a variety of vital functions. The brain is a fat-rich organ. Brain neurons and all other nerve cells are protected by a myelin sheath, made largely out of fatty material. Cell membranes consist almost entirely of phospholipids (lipids that contain phosphorus) arranged in a sandwich-like double layer embedded with proteins. Sex hormones are lipids, belonging to the group of complex lipid molecules known as "steroids." Vitamin D is a lipid.
The body stores and transports fatty acids in the form of triglycerides. A triglyceride contains three fatty acid molecules, which have a chain-like structure, linked to glycerol. (There are also mono- and di-glycerides, which have one and two fatty acid chains, respectively, attached to glycerol.)
Like many other things necessary to life, fat is a two-edged sword. Fat insulates us from the cold, cushions and protects our vital organs and serves as a storehouse for energy. Yet, when present in excess to the point of obesity, fat threatens health, happiness, self-esteem, social standing and longevity. The same is true of other lipids, most notably triglycerides and cholesterol. Transported throughout the body in the bloodstream, these essential lipids become a health liability when the blood contains too much of them.
Keeping fat in it its proper place, not eliminating or drastically reducing it, is the goal we should seek. In the blood, lipids must be maintained at healthy levels and ratios. When they are, an important foundation of good health is established.
How do we keep the blood lipids we need——triglycerides and the various forms of cholesterol——balanced at healthy levels? Diet and exercise are indispensable, these basics must come first. Along with the recommended dietary practices, a number of nutritional approaches offer help for maintaining healthy blood lipids. We will now give several of these a closer look.
In 1990, an herb used for centuries in the Far East was introduced to U.S. consumers. This herb, called "gum guggul," is proving to be one of the most effective natural cholesterol-lowering agents ever discovered. It also brings triglycerides down and raises HDL, the "good" cholesterol. The changes are substantial; gum guggul single-handedly normalizes the entire blood lipid profile, even in people with high starting levels of cholesterol and triglycerides.
Gum guggul, also called simply "guggul," is a gummy resin tapped from the Commiphora tree. A cousin of myrrh gum, guggul has been used by Ayurvedic herbalists of India for at least 3,000 years; texts dating from around 1,000 B.C. mention the herb. Guggul was traditionally given for rheumatism and poor health caused by excess consumption of fatty foods. One ancient Sanskrit text describes in detail what happens in the body when blood fats are out of balance, due to sedentary lifestyle and overeating. The name of this condition has been translated as "coating and obstruction of channels."
Intrigued by the obvious similarity between "coating and obstruction of channels" and arteries clogged by fatty plaque, Indian researchers initiated a series of experimental and clinical studies in the 1960's to see if gum guggul would lower excess blood lipids.1 Both human and animal studies consistently showed cholesterol and triglyceride reductions.
Detailed pharmacological studies showed that guggul's lipid-lowering effects are produced by compounds in the resin called "guggulsterones."2 An Indian pharmaceutical firm then patented a standardized extract of gum guggul under the trade name "Gugulipid." The product contains a uniform 2.5 percent guggulsterones, which is higher than guggul resin in its natural state.
Because Gugulipid guarantees the necessary intake of guggulsterones needed for blood fat reduction, it has become the product used in clinical research. Phase I efficacy safety trials and Phase II efficacy trials have yielded more positive data.3,4,5 Most of the studies on gum guggul have used relatively small numbers of subjects; this tends to make mainstream medical scientists reluctant about natural remedies. A large, well-publicized double-blind Gugulipid trial on 400 to 500 people would go a long way toward giving this herb the credibility it deserves.
Another effective natural solution for blood fat control that should be better known is a relative of pantothenic acid (vitamin B5). Pantethine is the active form of pantothenic acid in the body. Pantethine forms CoA, an essential co-enzyme for utilization of fat. CoA transports "active acetate," an important byproduct of fat metabolism that provides fuel for generating cellular energy. By promoting the burning of fats for energy, pantethine helps keep triglyceride levels down.6 Pantethine also helps regulate cholesterol production, by facilitating the conversion of fat into other lipid-based molecules needed in the body.6
Japanese researchers began studying the effect of pantethine on blood fats nearly twenty years ago. They reported their promising results at the Seventh International Symposium on Drugs Affecting Lipid Metabolism, held in Milan, Italy in 1980.7 Few in the medical or scientific communities took notice. Italian researchers followed up with several small clinical trials that confirmed the preliminary reports.6,8,9 An excellent cholesterol and triglyceride lowering agent that is safe and free of side-effects, pantethine remains, for the most part, ignored by mainstream science, although its usage is growing in alternative medicine circles. Pantethine it will no doubt prove to be one of the most important supplements for maintaining healthy blood fat levels.
When taken in high enough doses, niacin (vitamin B3) substantially lowers cholesterol. This has been known to medical science for many years.10 studies on niacin as a cholesterol-lowering agent go back to the 1950's. There was a fair amount of initial enthusiasm for niacin because it improves, unlike most lipid-lowering drugs, all parameters of the blood lipid profile. Niacin reduces total cholesterol, LDL cholesterol and triglycerides. It also raises HDL cholesterol quite well. Interest in niacin has faded, in part because the necessary dose, 1200 milligrams a day or more, can cause flushing and gastrointestinal disturbances. Very high doses may be harmful to the liver if taken for too long.
There is a solution to the side-effect problem with niacin which, again, has failed to gain widespread attention. Inositol hexanicotinate is a flush-free form of niacin composed of six niacin molecules bonded to one molecule of inositol, another B-complex nutrient. Absorbed as an intact structure, inositol hexanicotinate is metabolized slowly, releasing free niacin into the bloodstream over a period of hours following ingestion.11 Inositol hexanicotinate has all the benefits of niacin for controlling blood fats. The flushing effect of ordinary niacin, which metabolizes much more rapidly, does not occur. Taking as much as four grams per day has not been reported to raise liver enzymes or cause other side-effects, but prudence dictates that people with liver problems should avoid very high doses of inositol hexanicotinate, or any form of niacin.12
We often think of vitamin E as synonymous with d-alpha tocopherol. Vitamin E is actually a whole family of compounds that includes various tocopherols and a group of lesser known but highly beneficial substances called "tocotrienols." All have vitamin E activity. Tocotrienols are similar in chemical structure to tocopherols, but they have important differences which give them unique and highly beneficial properties for human health.
Vitamin E is one of the most recognized antioxidants, nutrients that deactivate potentially toxic byproducts of oxygen metabolism known as free radicals. Vitamin E neutralizes peroxides, which result from the free radical oxidation of lipids, making it a key antioxidant in cell membranes. While d-alpha tocopherol has generally been regarded as the form of vitamin E with the strongest antioxidant activity, tocotrienols are even stronger.
The tocotrienol story is another example of a natural product slow to gain recognition. A Univeristy of California research team discovered that d-alpha tocotrienol is over six times more effective than d-alpha tocopherol at protecting cell membranes against free radical damage.13 In the presence of vitamin C, which recycles vitamin E-like compounds, its antioxidant activity is 40 to 60 times higher than d-alpha tocopherol. This study was published in 1991. Its safe to say few cardiac physicians know about tocotrienols, and we have yet to see 60 Minutes do a piece on "the powerful new form of vitamin E."
It would be a tremendous service to public health if they did, because the benefits of tocotrienols go far beyond their stellar antioxidant ability. Tocotrienols also lower total cholesterol and LDL, by impressive percentages. In one double-blind controlled study, tocotrienols reduced total cholesterol by 16 percent and LDL by 21 percent after twelve weeks. Another study recorded drops of 15 to 22 percent in total cholesterol along with 10 to 20 percent decreases in LDL levels.14 Now appearing on health food store shelves, tocotrienols are a health-protecting nutrients whose long overdue time has come. Derived from food oils such as palm oil and rice bran oil, tocotrienols have the same lack of toxicity as ordinary vitamin E.
1. Satyavati, G. Gugulipid: a promising hypolipidaemic agent from gum guggul (Commiphora wightii). Economic and Medicinal Plant Research 1991;5:47-82.
2. Dev, S. A modern look at an age-old Ayurvedic drug—guggulu. Science Age July 1987:13-18.
3. Nityanand, S., Srivastava, J.S., Asthana, O.P. Clinical trials with gugulipid. J. Ass. Physicians of India 1989;37(5):323-28.
4. Agarwal, R.C. et. al. Clinical trial of gugulipid—a new hypolipidemic agent of plant origin in primary hyperlipidemia. Indian J Med Res 1986;84:626-34.
5. 'Gugulipid' Drugs of the Future 1988;13(7):618-619.
6. Maggi, G.C., Donati, C., Criscuoli, G. Pantethine: A physiological lipomodulating agent, in the treatment of hyperlipidemias. Current Therapeutic Research 1982;32(3):380-86.
7. Kimura, S., Furukawa, Y., Wakasugi, J. Effects of pantethine on the serum lipoprotiens in rats fed a high cholesterol diet (Abstract) Seventh International Symposium on Drugs Affecting Lipid Metabolism, Milan, Italy, 1980.
8. Arsenio, L. Bodria, P. Effectiveness of long-term treatment with pantethine in patients with Dyslipidemia. Clinical Therapeutics 1986;8(5):537-45.
9. Avogaro, P. Bittolo Bon, G. Fusello, M. Effect of pantethine on lipids, lipoproteins and apolipoproteins in man. Current Therapeutic Research 1983;33(3):488-93.
10. Crouse, J.R. New developments in the use of niacin for treatment of hyperlipidemia: new considerations in the use of an old drug. Coronary Artery Disease 1996;7(4):321-26.
11. Welsh, A.L. Ede, M. Inositol hexanicotinate for improved nicotinic acid therapy. International Record of Food Medicine 1961;174(1):9-15.
12. "Inositol hexaniacinate" (Monograph). Alternative Medicine Review 1998;3(3):222-3.
13. Serbinova, E., et. al. Free radical recycling and intramembrane mobility in the antioxidant properties of alpha-tocopherol and alpha tocotrienol. Free Radical Biology and Medicine 1991;10:263-275.
14. Qureshi, N. Qureshi, A.A. Tocotrienols: Novel Hypercholesterolemic Agents with Antioxidant Properties. in 'Vitamin E in Health and Disease' Lester Packer and Jürgen Fuchs, Editors. 1993; New York: Marcel Dekker, Inc.
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