Month: December 2021

Rise-Up Against Osteoarthritis

Posted on by Diogenes II

 

There are three, or four, stages to osteoarthritis: stage one, which is painful, stage two, which is very painful, and stage three, which is excruciatingly painful. These stages are classified as minor, moderate and severe. But since any form of osteoarthritis is never minor to its victim, some medical intervention has renamed these: early, moderate and advanced (stages). What osteoarthritis is though is the progressive wearing away of the cartilage between bone joints, that cushions the bones from rubbing up against each other. When this protective cartilage is eroded, the adjacent bones gradually lay bare, grinding each other and disturbing the homeostasis of bone structure, tendons, synovial fluid and synovial membrane surrounding the joints. But why so — that is the question this article is putting to task. And how to fix this will become that goal at the end of the journey!

Though it might now be common belief, osteoarthritis has nothing to do with the natural wear and tear from aging or from being overweight. What osteoarthritis really is though is a natural wear and tear from putting the wrong kinds of food and chemicals in the body! To prove this, osteoarthritis is almost never observed in wild animals. Even elderly elephants in the wild do not get this condition. But when these animals are domesticated — suddenly, there is a dramatic rise in osteoarthritis for them. This must mean that osteoarthritis — sometimes we’ll refer to as OA — is common among zoo elephants and other zoo animals. It must also mean that the most domesticated animals — cats and dogs — do also suffer from this condition. The answers to these are all yeses. But why so? It is because domesticated animals are force-fed the same unnatural foods and drink their human counterparts are also eating.

To be clear, osteoarthritis, arthritis and rheumatoid arthritis are all different things. When we think of osteoarthritis, we think of the wearing away of cartilage between bones, and the stiffness that accompanies it. When we think of arthritis, we usually think of a blanket term for pain or inflammation between the joints for any reason — even gout reason. When we think of rheumatoid arthritis, we think of a disruption of the synovial membrane and synovial fluid that lubricates the joints. Osteoarthritis usually occurs on one side of the body, whereas rheumatoid arthritis is symmetric — i.e., it usually simultaneously affects both sides of the body equally. If the damage is severe enough, then osteoarthritis can lead to symptoms of rheumatoid arthritis.

But what are these unnatural foods and chemicals that would cause this condition? The era of the care placed by mom and pop shops, like small family farms, has faded away as the populations increased. The consequences of this is that big business now uses the quickest, cheapest and most profitable methods — for themselves — to secure that the population is being satisfied (and cheated) with timely demand and supply. So now we have toxic glyphosate being spayed on crops to destroy weeds. Now we have GMO foods, like corn, soy, beets and alfalfa. Now we have high-fructose corn syrup, citric acid made from black mold and ascorbic acid being disguised as vitamin C. Now we have commercial farm animals being pumped with hormones and antibiotics. We now have fluoride and chloride being added to public water. We now have estrogen, poisonous lead and pharmaceutical waste products leached into these public waters. We now have synthetic iron being added to wheat flour, a major cause of gluten sensitivity. We now have carrageenan being added to ice-cream, synthetic food coloring and  synthetic B vitamins and other synthetics being added to the market disguised as good things. We also have homogenized A1 milk from black & white cows, causing congestion and maybe even high blood sugar. We also have rancid and destructive oils being so-called “vegetable oils”, destroying people’s digestive system. And slowly, these are all the things that are leading to the steady build-up of what this article is all about: that dreaded rise of osteoarthritis!

To be even more clear, there are two categories of OA: primary and secondary. Primary officially by science is of unknown cause. Secondary is said to be caused by some other disease, injury or deformity. In this article, there is indeed a known cause for all types of OA!

As previously mentioned, animals in the wild, eating what is natural for them, and surrounded by their natural environment — we hardly ever see osteoarthritis in them. One reason for this, is because wild animals naturally produce vitamin C — something we humans have long ago lost the ability to do. However, when these animals are domesticated, their ability to produce this vitamin is greatly reduced — they become like us. Consequently, natural vitamin C — one of the most potent substance to prevent or reverse osteoarthritis — needs to be added to our diet!

We must understand that modern society is a stressful environment to the human spirit — and also to that of the cartilage between bone joints. When we are stressed, this increases acidity throughout the body, and especially throughout the joints, that collects it like pond scum. This acidity is what it sounds like: acid eating our internal tissues away! There are three types of noteworthy cartilage in the body: elastic (constituting the shape of the ears and nose), hyaline (which is very smooth and translucent) and fibrocartilage (which contains rough fibrous bundles). The cartilage we are concerned about in this article is the hyaline type, found between bone joints. This is further subset as articular cartilage because, it covers articulating surfaces. This is the cartilage that is nourished by the ultra-filtrated blood liquid, known as synovial fluid, that nourishes both the internal environment of the joints and the cartilage itself. If the synovial fluid is toxic because of toxic blood, then this toxicity is spelled a.c.i.d.i.t.y to cartilage. This is why it is so important to be nourishing the blood properly to prevent this acidic cascade from happening.

There are natural ways to reduce pain from osteoarthritis and in actually building back cartilage that has been lost. These natural ways do not include NSAIDs, Tylenol or any other synthetic drugs. In fact, while these drugs are taking away the pain or inflammation, they are actually destroying cartilage and bone structure even more. In extreme cases, some have opted for surgery, to deal with the debilitating effects of cartilage loss and bone spurs that has developed.

Of the best natural products to reverse the course of OA is a patented pine bark extract called pycnogenol. Pycnogenol in an amazing way is able to recycle bioavailable vitamin C — the same vitamin C that reduces both mental and physical stress, and that helps build back cartilage. In fact, one double-blind, placebo study found pycnogenol effective by 56 percent in reducing symptoms of OA!

Along with pycnogenol is another great herb-berry: amla. This berry contains moderate vitamin C, and polyphenols to stabilize that vitamin C. Studies have shown amla to have direct protective effect on cartilage health.

The herb turmeric is also good at fighting OA pain and inflammation. Turmeric helps thin the blood. In fact, a great herb combination would be turmeric and ginger mixed with coconut oil. These all increase each other’s bioavailability.

Silica is needed to repair damages caused by osteoarthritis. But since this mineral needs stomach acid to be bioavailable to the body, it is best to use a form containing orthosilicic acid, such as that found in bamboo extract or a product called Florasil. Adding a teaspoon of unfiltered apple cider vinegar occasionally, will also increase stomach acid and silica absorbability.

Sulfur will also repair damages done by OA. Sulfur is legendary at removing toxins from cells and joints, and simultaneously adding the nutrients they need. But it must also be in a pure, absorbable form: 99.9% pure, organic, sulfur crystals (MSM).

Boron and magnesium malate taken together will add synergy and biovailability to each other, reducing inflammation and repairing bone and cartilage structure. 

You may also add IP-6/inositol to remove toxic iron accumulation from the joints. OA attracts acidity and acidity attracts iron. IP-6 will help break that bond.

Unfortunately, I am not a fan of glucosamine sulfate or chondroitin — popular supplements on the market for OA. Often, popularity of certain things may be a dead-givaway of their potential dangers. Many glucosamine/chondroitin supplements are fake and or full of toxins. My recommendations for osteoarthritis are what I’ve already listed above. You can also use topical bentonite cream or balm of Gilead ointment to alleviate pain caused by OA.

Optimize Your Testosterone Levels

Posted on by Diogenes II

 

Testosterone is a hormone — not a male or female hormone — but just a hormone, that simply happens to be produced some 20 times more in men’s testes than in women’s ovaries. It is also a steroid hormone, which means that it’s fat-soluble — allowing it to penetrate and enter directly into cells, as opposed to non-steroid hormones — which sit on the outside of cells. Testosterone is also an anabolic steroid, which means it builds things and supplies things (like protein) for muscle building and (collagen) for bone building. It is also a sex hormone — which means it makes people competitive, aggressive and sometimes unreasonably sensitive. In this article, I will discuss the pathway that decreases testosterone, and the ways to optimize this hormone.

Many articles point out the analysis that testosterone is produced — or rather, manufactured — in the testes of men, and ovaries of women, and adrenal glands of both sexes. But this hormone is greatly affected by the conditions of one particular organ — the largest internal organ: i.e., the liver. Low testosterone levels do not simply indicate that you need to increase your testosterone levels — it indicates that there is some type of malfunction somewhere — highly suspectably initiated in the liver.

But how is testosterone created?

Our body metabolizes cholesterol from the food we eat and from the synthesis of cholesteryl ester that the liver produces. Cholesterol makes hormones, including the hormone pregnenolone. Metabolized pregnenolone is turned into Dehydroepiandrosterone (DHEA) and progesterone. DHEA and progesterone are converted into many other hormones, including testosterone. As previously mentioned, testosterone cannot simply be classified as a male hormone because testosterone can and often do turn into estradiol — a form of estrogen (the so called female hormone). In the bone and brain, testosterone is easily converted to estradiol, by the aromatase enzyme. In the central nervous system, it is this estradiol that serves as the most important feedback signal to the hypothalamus. In many animals, it is this estradiol that masculinizes the brain of the male fetus.

Interestingly, testosterone distribution throughout the body appears surprisingly stingy. Most scientific articles you read will say that about 98 percent of testosterone is strongly or weakly bound to proteins, and about 2 percent is free testosterone, ready for immediate use. Unfortunately, much of what they know about the binding up of testosterone by proteins is pure speculation, based off of hypotheses, and not facts. There are many proteins that are responsible for storing and carrying testosterone, the main ones being sex hormone-binding globulin (SHBG), human serum albumin (HSA), and to a lesser extent, corticosteroid-binding globulin (CBG) and orosomucoid. And then we have after these, “free testosterone”. But the “binding up” or distribution of testosterone by protein is greatly influenced by age. If SHBG — which has a strong bind — is being bound to testosterone at a rate of 65 percent, then that person must be somewhere around 65 years old — or young and ill. If the SHBG is 49 percent, then you ought to expect that person to be somewhere around 49 years old! So SHBG percentage increases with age.

In fact, after about age 30, men naturally or unnaturally lose testosterone levels by 1 or 2 percent each year thereafter — so by the time he reaches the age of 60, that man would expect a testosterone loss anywhere from 30 to 60 percent. The increase of SHBG is an indicative sign of increased toxic heavy metals and a decrease in liver function. So protein-binding increase, like that of SHBG, should be an indicator of increased age, or increased disease! Furthermore, when there is increased heavy metals and liver dysfunction, that opens the way for testosterone to turn into estradiol. This explains why so many men experience dramatically increased estrogen levels and lowered testosterone levels after age 50.

And there is that mighty co-relation between cholesterol and testosterone. In fact, cholesterol is the raw material of testosterone; and a defect in cholesterol directly affects testosterone. If your cholesterol numbers are uncomfortably high, then your testosterone numbers may show uncomfortably low. Being that that raw material — cholesterol — is made in the liver, and testosterone is made from cholesterol — alas — a testosterone problem is most likely coming from a liver problem! And if your cholesterol numbers are, conversely, uncomfortably low, then this low may be too low for the necessary production of adequate testosterone.

Low testosterone levels may also be indicative — a sign — that the liver is storing too high amounts of free iron. This is not a good thing. The liver does not like to store high, free iron because, this damages said organ. It may surely prove wise to get [one’s] ferritin levels tested. Any level over 60 is indicative of too much free iron being stored in and dispersed by the liver. This nowadays is a major cause of decreased testosterone levels in both men and women.

Generally speaking, men between the ages of 40 to 60 should seek a total testosterone number of over 500; and optimally, over 650. Premenopausal women should aim for around 35, and postmenopausal, around 30 or higher. Testosterone increase may enhance sex-drive for both men and women. Noteworthy, the most accurate testosterone test results is obtained at around 8 am in the morning.

So to optimize your testosterone levels, consider rejuvenating the liver therefore. An ayurvedic herb called kutki will help do that. It is no coincidence that kutki also reduces high LDL and its cholesterol and that that herb reduces oxidation of LDL and cholesterol. Other herbs that may be helpful for the liver are burdock root and artichoke extract.

There are also other herbs that will optimize testosterone and the liver, namely fenugreek and ashwagandha. It is well known that both fenugreek and ashwagandha indirectly provide the raw nutrients that boost and optimize testosterone levels in both sexes — male and female. Ashwagandha, used short term, increases sperm volume in men, muscle size, bone strength and sleep quality in both sexes — critical assets needed for testosterone optimization. Fenugreek increases libido. Fenugreek may also manage glucose levels in the blood and increase insulin sensitivity. This increased insulin sensitivity works in favor with testosterone production.

And there are minerals that optimize testosterone levels — namely zinc, selenium, boron, and magnesium. For example, zinc prevents the aromatase enzyme that turns testosterone into estrogen from that process,  thereby by default, helping to accelerate testosterone and sperm production in the testes. Magnesium and boron help activate free testosterone. It is important that you obtain the right type of mineral, preferably in the natural food-base form, rather than the synthetic. For zinc, try Nutrigold Zinc Gold, for selenium, try Food Research Selenium E, for boron, try Vibrant Health Super Natural Boron, and for magnesium, try malate, taurate, glycinate and/or citrate.

And there are vitamins that optimize testosterone levels — namely vitamin D, E and K — the fat soluble vitamins. It seems as no surprise that testosterone has an affinity to fat soluble vitamins, since testosterone is a fat-soluble hormone.

Still another supplement to consider in boosting testosterone is a natural form of vitamin C. As I’ve stated, one of the binding proteins of testosterone is, corticosteroid-binding globulin. Corticosteroid is a constituent of the hormone cortisol.  An unbalanced rise in cortisol decreases testosterone production. Taking natural vitamin C reduces that rise in cortisol. There is an herb-berry called amla — very popular in ayurveda — that contains both natural vitamin C, polyphenols, and copper. These nutrients work in synergy to help build back a better liver, intestines, lymphatic system and colon — things that are all needed to optimize one’s testosterone levels.

Then we also cannot forget about the B vitamins. The [stress] hormone ADRENALINE turns [on] cortisone (inactive) into cortisol (active). But the body is suppose to turn cortisol back into cortisone to prevent long term damage, with an enzyme called 11beta-Hydroxysteroid. But for this enzyme to work, we need dietary niacin to turn the [NADP] cycle into ATP — and that’s also why so many men AND women are low on testosterone! The bottom-line here is, we need daily and adequate amount of B vitamins!

And finally, to deal with free, unbound iron building in the liver, try IP-6/Inositol (on an empty stomach) for a few months. Keep in mind that IP-6 chelates not only iron — but also other minerals (and vitamins) like calcium and zinc. So be sure to increase these with food-base supplements, or nutrition.

Though they are becoming increasingly popular, I still cannot recommend either pine pollen or the herb tribulus terrestris for testosterone issues. Pine pollen contains natural testosterone, which may — over time — atrophy the testes, ovaries and other organs from producing testosterone naturally. You do not want to add testosterone to your body — you want to harness and encourage the organs that produce it, to optimize it. Therefore, tribulus terrestris comes with too many side effects, and will not directly optimize or boost your testosterone levels; and is best to avoid, unless you are using it for specific other reasons.

So to optimize your testosterone levels, consider fixing the liver with:

  • Kutki (Burdock root or artichoke extract may work as well)

And, to nutritionally build back the body, try: 

  • Fenugreek
  • Ashwagandha
  • Zinc: Food Research Zinc Complex 
  • Selenium: Food Research Selenium E 
  • Vitamin E: Food Research Selenium E 
  • Boron: Vibrant Health Super Natural Boron
  • MagnesiumDaVinci Laboratories TRI-MAG 300
  • Vitamin D: Sunlight, salmon, lichens
  • Vitamin K2: Jarrow Formulas MK-7
  • Vitamin C: Amla
  • Vitamin BFOOD RESEARCH B Stress Complex
  • IP-6/Inositol

Conquer High Cholesterol

Posted on by Diogenes II

 

We cannot deny the truth that even more than half of all people who suffer heart attacks have “normal” or lower cholesterol levels; or the truth that most elderly people live longer and healthier lives with higher cholesterol levels; or the fact that every cell plasma membrane in our body is made up of cholesterol and that most cholesterol in the body is purposely produced by the liver to help build hormones (including all steroid hormones), vitamin D metabolism, and bile acid production. And we simply cannot deny the truth that much of the human brain is actually made up of cholesterol and that low cholesterol is indicative of depression and memory loss. With all that said though, too much of the “wrong” type of cholesterol, especially when it’s oxidized, is believed to be a major contributor to plaque formation in the arteries, leading to a dreaded condition known as atherosclerosis. This article was a great challenge for me, especially in finding the way to put things in simple terms — but here, I will discuss all the basics of cholesterol in the body, its protein carriers and exactly what we should do to normalize and utilize cholesterol in our body.

Defined as a waxy, whitish-yellow and fat-like substance, cholesterol exists in two forms in the body — and only two: free cholesterol and cholesteryl ester. Free cholesterol is exactly what it sounds like: cholesterol that is in its free state; coming from the fats in our diet, devoid of any enzymatic reaction or protein attached to it. This free cholesterol acts as an antioxidant, fighting cancer, infection and inflammation. Cholesteryl ester — the second form — is what happens to free cholesterol when it is processed in the body from all the enzymatic activities and protein attachments, to make it acclimated and useful to the body’s metabolism. The proteins that carry cholesterol come in many groups. They are officially called lipoproteins because, they contain both lipids (fats) and protein that hold and carry cholesterol. These lipoproteins are classified into: (a) Chylomicrons, (b) Chylomicron remnant, (c) vLDL, (d) IDL, (e) LDL, (f) HDL, (g) Lp(a).

Chylomicrons are unprocessed lipids that come from our diet — the food and fats we eat. They mostly consist of triglycerides. vLDL is the lipoprotein that is produced specifically in the liver, from processed chylomicron remnants. They are still full of triglycerides. LDL is what is produced from enzymatic processes when the triglycerides are removed from IDL and vLDL particles. These LDL mostly contain cholesterol — the same cholesterol that is sometimes oxidized in our arteries, and starting the formation of plaque. HDL — made in the liver and intestine — is the aged-form of LDL, that has been reduced in size and is densely packed mostly with protein. This is the lipoprotein that goes through arteries easily and picks up triglycerides and cholesterol from the various parts of the body and blood, sending them back to the liver to be recycled or excreted out of the body via bile. Lp(a) is basically the same as LDL but has an additional protein called apolipoprotein(a) attached to it. A very sticky lipoprotein, and associated with very atherogenic activity, Lp(a) has a strong genetic factor, and mostly affects people of African ancestry. All of these lipoproteins can be damaging to our arteries, including the so called “good” cholesterol carried by HDL.

To be clear, lipoproteins like LDL and HDL are not cholesterol! They are what they sound like: lipid/fat attached to proteins. (These are lipid/fat that bind to a special protein called apolipoprotein.) LDL and HDL are lipoprotein particles that hold and transport cholesterol. Calling LDL or HDL  “cholesterol” is like calling an elevator transporting people an, “elevator people”. It is an “elevator transporting people”, just like “LDL cholesterol” is really, “LDL transporting cholesterol”. If there is no cholesterol in the LDL, then it is still an LDL particle regardless, with or without cholesterol — same as an elevator is still an elevator whether or not it is transporting anyone. When you hear of arteries being clogged with LDL cholesterol, oftentimes, these LDL are detached from the cholesterol — forming separate oxidized LDL as well as oxidized cholesterol. LDL and cholesterol only become plaque when they are oxidized. This formation is what leads to what we know as arteriosclerosis or hardening of the arteries.

All lipoproteins can be damaging to the arteries. For example, LDL comes primarily in two patterns: Pattern A — which is large and buoyant; and Pattern B  — which is small, hard and dense. It is this Pattern B that is the “bad cholesterol” associated with plaque formation. MGmin-LDL is another particular form of LDL that is quite sticky, and capable of easily forming plaques in the arteries. HDL comes also in two main forms: A1 — which is considered the desirable form; and A1/A11 — which may serve no discernable purpose in helping the arteries. And further, HDL that carries the apolipoportein C-III is actually quite damaging to the arteries. So HDL type also does matter! (So consider, then, getting the advanced lipid profile, to distinguish these differing patterns of lipoproteins and cholesterol however.)

But what is plaque — and how is it formed. And why is it formed?

When our arteries are damaged by the foods we eat, the toxins we inhale or absorb through our skin, then these toxins damage the inner layers of the blood vessel walls. These toxins bruise the arteries that supply nutrients to the organs because arteries are much more susceptible to injury more so than veins are. When the endothelial layers of these arteries are damaged, then a signal is given, and small oxidized LDL cholesterol comes in to patch up these damages. Then another signal is given for macrophage cells sent by the immune system to engulf these oxidized LDL — the development of what we call foam cells. Then fibrin comes in to clot the area. Then calcium along with other cellular debris byproduct come in to harden and stabilize the region. This is a survival mechanism initiated by the body to prevent a sudden heart attack! But as this progression goes on unimpeded, the arteries begin to narrow, and blood flow becomes jeopardized.

But what should our cholesterol numbers be then? When you get a lipid test, you want your LDL to range anywhere between 130 – 150, 139 being the sweet spot least associated with heart disease, for those not on medication. Your HDL should not be below 40, for below 40 is the start of potential heart disease. And if you are female, that HDL should not be below 50. In fact you may want HDL ideally between 55 and 65. Lp(a) level — which currently is hardly ever tested — should normally be less than 10 mg/dL. ApoB (a.k.a. ApoB100) is the main structural protein of LP(a), which in high levels, is associated with a greater risk for strokes and heart attacks. Normal levels range between 50 to 80 mg/dL. You also want your triglycerides to be below 150, and even more preferably below 100.

But what exactly causes our arteries to bruise in the first place that would cause the need for cholesterol and LDL plaque formation? It is the oxidized fats and oil that we consume — oxycholesterol — that is rancid from the beginning, that causes chaos. It is the chronic lack of certain nutrients in our diet. It is the excess sugar and the insulin resistance that builds in our blood. It is the high animal protein diet that we consume that our pancreas and lymphatic system cannot handle, and that creates high homocysteine levels. And it is the heavy metals and other toxins, like glyphosate and fluoride that we put in our system. These are the causes that wreak havoc on our blood vessel walls.

Personally though, my cholesterol levels were very high over a year ago, especially my LDL section of cholesterol. So I went on a quest, to eat healthy, reduce sugar and reduce excess animal protein, and to avoid all the toxic chemicals and heavy metals found in food and drinks, and even in the air. Then one year later, I rechecked my cholesterol numbers. They were almost exactly the same! My cholesterol numbers did not improve even though I was supposedly doing all the right things! What gives!?

Fixing high cholesterol can be very tricky, and involves specific planning and  following a specific protocol. First, you must find the things that remove excess cholesterol. Then you must find the things to heal the wounded blood vessels. Then you must find the things that prevent the blood vessels from wounding in the first place.

Removing high cholesterol from your blood should never be your primary goal — which is actually the only goal of most cholesterol-lowering drugs. That is why those on these drugs never fix their heart disease problem. In fact, lowering cholesterol for these people is like taking a bandaid off of a wound that never heals! If you remove cholesterol from the arteries, then you must replace that cholesterol with what the arteries need to become healthy again. Furthermore, these medications do not remove the undesirable Pattern B LDL and its cholesterol — but they remove the very needed Pattern A LDL and its cholesterol, creating a worse situation.

So, what will remove the bad type of LDL and bad type of any lipoprotein or cholesterol, what will heal the arteries, and what will prevent this cascade from reoccurring again are the real questions!

To stop the body from producing excess bad cholesterol, black garlic, grapefruit pectin and (a limited small amount of) plant sterols will do that! To heal the damaged arteries, an ayurvedic herb called amla will do that, along with an absorbable form of magnesium, like malate, glycinate, taurate or citrate. To prevent excess bad cholesterol from building in the blood, an ayurvedic herb called kutki will do that — opening up the bile ducts, thus preventing cholesterol and bile from getting stuck in the liver, gallbladder and, consequently, the blood.

So fixing high cholesterol is an at least four steps:

1. Removing bad cholesterol through black garlic, grapefruit pectin and a small amount of plant sterols. Black garlic contains compounds that directly impact the well-being of blood vessel walls. I do not recommend regular garlic or raw garlic, which can actually damage the blood vessels even more. Also, plant sterols containing beta-sitosterol, beta-sitostanol, stigmasterol, and avenasterol will also lower cholesterol numbers. But this must be done on a limited basis — safely about twice per week — else plant sterols may have an opposite effect, increasing heart disease symptoms. The best natural source of plant sterols is probably sea buckthorn berry oil, which may be used more frequently.

2. Using amla because it contains natural vitamin C and copper, which are the nutrients needed to fix damaged blood vessels. In fact, an unusual rise in LDL or decrease in HDL is a sure indicator that natural vitamin C and copper needs to be increased in the diet! Acerola may work as well — at doses of about 500 mg per day.

3. Adding an absorbable form of magnesium, such as magnesium taurate, will actually mature LDL into HDL. In other words, magnesium increases the good HDL particles carrying cholesterol back to the liver for excretion!

4. Adding the bitter herb kutki stimulates bile flow. This bile flow frees trapped cholesterol from building up in the blood. It also prevents the liver from over-producing too much cholesterol. Kutki also prevents cholesterol from becoming oxidized. Other herbs that may help include artichoke extract and burdock root.

Update: Recently, I’ve found an ayurvedic herb that shows power in healing many heart ailments. It may even lower oxidized LDL and its cholesterol. That herb is called Arjuna (Terminalia arjuna).

I cannot recommend red yeast rice or niacin for cholesterol problems. Some red yeast rice products contain mycotoxins, such as citrinin, which is damaging to the liver. Niacin in high doses can create a situation of insulin resistance — the very thing someone with high cholesterol is trying to avoid. And though niacin may raise HDL numbers, it may be the ineffective form of HDL that’s being raised!

Even the plant sterols that I do recommend, should be short term — 3 months — twice per week, since plant sterols are poorly understood, and can cause a condition known as sitosterolemia in people with genetic defects.