artichoke-leaf-extract

Artichoke leaf extract capsules

Did you know that better heart health and lower cardiovascular risk can be had with two natural products that you can buy right over the counter? Well it’s true! Artichoke extract and pantethine are what we are talking about, and it can help you cut your risk of heart disease without dangerous side effects.

Interested? Well then read on…

Millions of people use the popular statin drugs to lower cholesterol but heart disease still continues to be the number one killer of Americans. Statins lower LDL cholesterol and inflammation while raising hdl but they have serious side effects that can dramatically lower the quality of life and put you at risk for serious health complications. One area where statins fall short is raising HDL levels. They don’t elevate HDL enough to significantly improve your HDL LDL ratio.

Statins can also raise your risk for rhabdomyolysis: (muscle breakdown), kidney damage, and even diabetes. This is due to it’s interference in the biochemical pathways which bio-synthesize both cholesterol and coenzyme Q10, which your body needs to help create energy from the foods you eat in order to power the cells of the heart.

Thus statins not only commonly cause muscle pain and weakness, but can also ironically increase the risk for cardiomyopathy which is muscle damage to the heart!

While there are certain people for whom the risk of statins is justified by their effectiveness, the vast majority of people would likely be better off with natural alternatives, and there are two good ones we have access to, pantethine and artichoke extract. These two supplements or “nutraceuticals” as they are sometimes called, can lower LDL AND raise HDL safely and naturally without the risks of serious side effects.

Enter Artichoke Extract…

An extract from artichoke leaves can raise your levels of HDL, while pantethine which is an analog of vitamin b-5 can lower LDL without causing deficiency of coenzyme q10 (as statins do). The use of these two compounds together has been shown to reduce by up to 11% the risk of heart disease. Pretty powerful stuff for two natural substances!

Artichokes which are actually considered to be in the “thistle’ family contain powerful substances called flavonoids that can lower LDL levels and increase HDL. The flavonoids act as antioxidants, preventing the oxidation of LDL particles in your arteries. In addition artichoke extract can increase your levels of bile acids, which help remove cholesterol from the body.

The clinical results with artichoke extract were based upon an intake of 1,800 mg/day of dry artichoke leaf extract for 6 weeks. This resulted in an 18.5% reduction in total cholesterol, with an improvement in the HDL/LDL ratio. It was also shown to cause an average of over 36% increase in endothelial function (the layer of cells that line the arteries) which also helps to prevent heart disease.

Next Up – Pantethine…

Pantethine lowers LDL levels without reducing coenzyme q10. It does this by inceasing the breakdown rate of serum cholesterol and reducing the rate of cholesterol synthesis. Pantethineis an energy molecule that helps increase fat burning in the body.

It also improves the ratio of HDL to total cholesterol which has a protective effect on your artery walls, reducing plaque formation and lesions in the aorta and coronary arteries.

A four month study was undertaken where the dosage of pantethine was 600mg/day for the first eight weeks and then a higher dose of 900 mg/day for the second eight weeks. This resulted in a modest decrease of LDL with a slight increase in coenzyme q10, unlike statin drugs.

When you consider that every reduction of 1% in LDL levels equals a 1% reduction in heart disease risk, pantethine significantly reduces the risk of heart attack by 11%. This is a very significant result and more reason to include pantethine in your supplement regimen.

In Summary…

All of us are at risk for heart disease as we age, and the primary issue in that risk is elevations in inflammatory LDL particles and low HDL levels. Many of the
patients put on statin drugs stop taking them because of the severity of the side effects, leaving them vulnerable to risk of heart disease once more. However the
combination of pantethine and artichoke extract can help lower LDL and raise protective HDL without the side effects that characterize statin use.

People who are at low risk may be able to achieve effective protection just by using these natural compounds rather than statins drugs. For people who have
extremely high LDL and/or very low HDL, a combination of low dose statins AND natural compounds like pantethine and artichoke extract may be the ideal
combination to avoid side effects AND effectively decrease the risk of heart disease.

As always, any therapy whether drug based OR natural that is intended to protect against heart disease should be managed by your doctor, possibly with the help of
a nutritionist or other wellness professional who is well versed in natural healing therapies, nutrients, and nutraceuticals.

Medical References:

Atherosclerosis. 1984 Jan;50(1):73-83.
Controlled evaluation of pantethine, a natural hypolipidemic compound, in patients with different forms of hyperlipoproteinemia.
Gaddi A, Descovich GC, Noseda G, Fragiacomo C, Colombo L, Craveri A, Montanari G, Sirtori CR.

Plant Foods Hum Nutr. 2015 Aug 27. [Epub ahead of print]
Pharmacological Studies of Artichoke Leaf Extract and Their Health Benefits.
Salem MB1, Affes H, Ksouda K, Dhouibi R, Sahnoun Z, Hammami S, Zeghal KM.
Int J Food Sci Nutr. 2013 Feb;64(1):7-15. doi: 10.3109/09637486.2012.700920. Epub 2012 Jun 29.
Beneficial effects of artichoke leaf extract supplementation on increasing HDL-cholesterol in subjects with primary mild hypercholesterolaemia: a double-blind, randomized, placebo-controlled trial.
Rondanelli M1, Giacosa A, Opizzi A, Faliva MA, Sala P, Perna S, Riva A, Morazzoni P, Bombardelli E.

The MTHFR gene is a hidden culprit in heart disease and explains much in the reasons why cholesterol numbers don’t tell you what your real risk for heart disease is. Understanding how this gene defect affects your good cholesterol levels and how to treat it is essential to protecting yourself from heart attacks.

MTHFR geneWhat is the MTHFR Gene?

This gene is responsible for operating what are called “methylation pathways” that involve your body’s ability to convert certain substances into their reduced or active form. If this gene is defective in your body, these vitally important methylation processes cannot be completed properly, and certain substances (vitamins and amino acids) can’t be absorbed by your body and you develop deficiencies.

Some of these substances are:

  • vitamin b-12
  • folic acid
  • cystiene

In the case of b-12 and folic acid, these substances are converted to their active forms of methylfolate and methylcobalamin. These active forms are what your body can actually use, and so if you can’t convert them properly, you end up with a deficiency.

Cystiene is converted to the toxic amino acid homocysteine and then to methionine. If your methylation pathways are not working properly due to the MTHFR gene defect, then you end up with an accumulation of homocystiene which is highly inflammatory and causes damage to your arteries.

How is Your Good Cholesterol Level Affected?

HDL-C also called the “good cholesterol,” can be effectively lowered by a certain type of MTHFR gene defect called: C677T polymorphism.  Since HDL is protective and lowers your risk of heart disease, this gene defect can raise your risk by lowering your good cholesterol level.

There are several variants of this gene defect, and they affect cardiovascular risk in different ways, but it’s important to be aware of their impact so that you can protect yourself. Remember that 50% of heart attacks occur in people who have what’s considered normal cholesterol levels.

The affect of the MTHFR gene is seen by many researchers as the missing piece of the puzzle in trying to determine why this is so. With this information you can go about protecting yourself by applying this new knowledge and lowering your risk not only for heart disease, but also for other chronic diseases that are caused by inflammation.

What Other Problems Can This Lead To?

A defect in the MTHFR gene can also result in increase risk for the following diseases:

  • Cancer
  • Stroke
  • Fibromyalgia
  • Polyneuropathy

How Do You Know if You Have it?

This is a very important question, because once you detect this, then you can guard against it’s effects. The most simple test you can do is to eat asparagus and note if your urine has a strong odor in the hours following your meal.

If this odor is present when you urinate, (you can’t miss it), then you can be sure that you do in fact have a defect (called a polymorphism) in the way your MTHFR gene operates. There are also lab tests that your doctor can do to detect this problem.
It may be necessary to have formal lab tests done so that this problem can be medically verified. It’s also important because your doctor has to order it for your insurance to cover it. The best and most responsible advice I can give you is to go through your doctor and get tested for this.

Fortunately there are ways to treat this problem, that will work and help to protect your health, but of course the first step is to determine whether you have it or not, and your doctor can order the tests to confirm it.

What Can I Do?

A defect in the MTHFR gene results in failure to operate certain methylation pathways and convert amino acids properly. However, forms of critical b-vitamins, vitamin B-12, and Folic acid, in their “active” forms, which means they do not have to be converted or methylated, CAN be absorbed by your body and help ensure these critical chemical reactions happen as they are supposed to.

Thus instead of taking folic acid, you would take “methyl-folate.” Instead of taking vitamin B-12 (cyanocobalamin) you would take “methylcobalamin.”

There are other substances that can help. They are called “methyl donors” because they donate or provide what’s called a “methyl group” to help the chemical reaction complete properly. There are foods that contain “methyl donors,” such as garlic, onions, avocadoes, ect.

There are also nutritional supplements such as trimethylglycine, and SAMe, as well as special formulations that contain combinations of these methyl donors to help provide what your body needs to do these conversions properly.

None of these substances are drugs, nor are they prohibitively expensive. However, most mainstream doctors do not know about them, nor about defects in the MTHFR gene, and so you may have to search for a physician that is up on the latest genetic research, that can help you safely manage this problem.

The website I recommend is:

http://mthfr.net/

which is a website run by Dr. Benjamin Lynch. There is a wealth of information on this website regarding methylation issues and the MTHFR gene. If you have this gene defect, I would highly recommend that you visit this website and educate yourself.

You can also click on this video:

to learn more about this topic, and start arming yourself with powerful information that will allow you to protect yourself against heart disease, cancer, strokes, Alzheimers, and other effects of methylation problems.

My reasons for delving into this topic is that it fills in the missing information that cholesterol numbers leave out. The effects of this gene defect on your good cholesterol level is probably one of the main reasons for the increased risk of heart disease.

Defects in the MTHFR gene are one of the most significant drivers of chronic disease, and by knowing if you carry this defect, you can takes very strong steps to protect your health and to live better and longer.

references:

Cardiovasc Diabetol. 2012 Oct 8;11:123. doi: 10.1186/1475-2840-11-123.
Several genetic polymorphisms interact with overweight/obesity to influence serum lipid levels.

J Atheroscler Thromb. 2009;16(6):815-20. Epub 2010 Jan 9.
Association of C677T polymorphism in MTHFR gene, high homocysteine and low HDL cholesterol plasma values in heterozygous familial hypercholesterolemia.

J Hum Genet. 2001;46(9):506-10.
An association of 5,10-methylenetetrahydrofolate reductase (MTHFR) gene polymorphism and common carotid atherosclerosis.