Tag Archives: Obesity

Cure diabetes in a matter of weeks

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Both the incidence and growth rate of insulin-resistant diabetes have reached epidemic proportions in many countries. It is most remarkable in the US with probably close to 30 million by now, and thus about 10% of the population (1, 2). Globally, the numbers are even more impressive: 370 million with diabetes predicted to grow to 550 by 2030 (3). This entails that as a disease, type-II diabetes (90% of diabetics) is one of the fastest growing causes of death, now in close competition with the well-established leaders, cardio-vascular disease and cancer, that each account for 25% of deaths in more or less all industrialised countries.

Insulin-resistant diabetes is very similar to both vascular disease (cardio and cerebro) and cancer, as well as intestinal, kidney, pancreatic and liver disease, arthritis, Parkinson’s and Alzheimer’s, in the sense that it is also a degenerative disease that develops over a lifetime, or at least over several decades. It is, however, quite different from all other chronic degenerative diseases because it is, in a way, the ultimate degenerative disease, in which the occurrence of all others increases markedly, and in some cases two to four times (4).  That’s not 10 or 15%, this is 200 to 400% more!

For this reason alone, it seems clear that all these degenerative conditions are intimitely related, and that furthermore, understanding insulin-resistant diabetes will most definitely give us keen insights into the genesis of degenerative diseases in general.

What boggles the mind is that, in a very real sense, we understand precisely and in exquisite detail how and why insulin-resitant diabetes develops, how and why it is related to all other degenerative diseases, and consequently, both how to prevent diabetes and all disease conditions for which it is a proxy, and why what is needed to achieve this actually works (5, 6).

In fact, type-II diabetes can be cured; not just controlled or managed, but cured; not just partially or temporarily, but completely and permanently. And this, in a matter of weeks.

This may seem simply impossible to the millions of suffering diabetics that live with their disease for years and more often decades, but it is the plain and simple truth, which has been demonstrated by more than one, but unfortunately rather few exceptional health care practitioners, already several decades ago by Robert Atkins (7), and more recently by Ron Rosedale and Joseph Mercola, for example (89), in a remarkably repeatable, predictable and immensely successful manner on most probably tens of thousands of people by now.

About insulin and glucose (or should it be glucose and insulin)

Insulin is a master hormone one of whose important roles is to regulate uptake of macronutrients (carbs, proteins and fats) by facilitating their crossing the cellular membrane through channels guarded by insulin receptors, from the bloodstream into the cell, either for usage or storage. It is for this role that insulin is mostly known.

However, arguably insulin’s most important and critical role is the regulation of cellular reproduction and lifespan, a role which is, as amazing as it may seem, common to all animals that have been studied from this perspective, from microscopic worms to the largest animals.

As such, insulin is a master and commander for regulating reproduction and growth in immature and therefore growing individuals, and regulating lifespan and ageing in mature and therefore full-grown adults (10).

Insulin is absolutely essential to life because in its absence cells can neither use glucose—a most basic cellular fuel, nor reproduce correctly—making growth impossible. It is, however, needed in only very small amounts. Why? Because insulin is very damaging to tissues and especially blood vessels, something that has been well known for a long time (look at this short review on the role of insulin in atherosclerosis from Nov 1981—that’s 32 years ago!, and you’ll see what I mean.)

Insulin is secreted by the beta cells of the pancreas in response to glucose concentration inside of these. As blood passes through the pancreas, these special cells that produce and store insulin, sense how much glucose there is by taking it in, and release insulin into circulation proportionally. This release is pulsed (while eating, for example) with a period of between 5 and 10 minutes, but only in response to blood sugar concentration, meaning that insulin is released only if blood sugar rises above the individual’s threshold, which depends on the metabolic and hormonal state of that individual.

However, it is important to note that pretty much no matter what the metabolic or hormonal states may be, eating fat and having fatty acids circulating in the bloodstream does not stimulate the release of insulin, while eating protein, in particular the animo acids arginine and leucine, does, albeit a lot less than glucose. This is because insulin is generally needed for cells to take in and use amino acids.

An insulin molecule that has delivered a nutrient to a cell can be degraded by the cell, or it can be released back into the bloodstream. A circulating insulin molecule will be cleared by either the liver or the kidneys within about one hour from the time of release by the pancreas.

Exposure to most substances, including lethal poisons such as arsenic and cyanide, naturally and systematically decreases sensitivity, or from the reverse perspective, increases resistance to it (as demonstrated by generations of Roman emperors and their relatives). This applies to cells, tissues and organs, and happens in the same way for biochemical molecule like messenger hormones, for the one that concerns us here, insulin. Thus, as cells are more  frequently and repeatedly exposed to insulin, they lose sensitivity and grow resistant to it.

Insulin primarily acts on muscle and liver cells where glucose is stored as glycogen, and on fat cells where both glucose and fats are stored as … fat, of course. Muscle cells grow resistant first, then liver cells and in the end, fat cells. Fortunately or unfortunately, endothelial cells (those that line the blood vessels), do not become resistant to insulin, and this is why they continue to store glucose as fat, suffer severely from glycation, and proliferate until the arteries are completely occluded and blocked by atherosclerotic plaques.

What happens when a large portion of the muscle and liver cells, and enough of the fat cells have become insulin-resistant? Glucose cannot be cleared from the bloodstream: it thus grows in concentration which then stays dangerously high. This is type-II, adult onset, or most appropriately called, insulin-resistant diabetes.

Unnaturally high glucose concentrations lead to, among other things, increased blood pressure, extremely high rates of glycation (typically permanent and fatal damage) of protein and fat molecules on cells throughout the body, heightened stimulation of hundreds of inflammatory pathways, and strongly exaggerated formation of highly damaging free radicals, which, all in all, is not so good. This is why insulin is secreted from the pancreas so quickly when glucose is high in the first place: to avoid all this damage and furiously accelerated ageing of all tissues throughout the body.

The five points to remember

  1. Insulin is a master hormone that regulates nutrient storage, as well as cellular reproduction, ageing and therefore lifespan.
  2. Insulin is vital to life, but in excess concentrations it is highly damaging to all tissues, especially blood vessels.
  3. If blood sugar is high, insulin is secreted to facilitate the uptake of the glucose into cells, but at the same time, because it is present, also promotes the storage of amino and fatty acids (protein and fat); if blood sugar is low, insulin is not secreted.
  4. Chronically high blood glucose is remarkably damaging to the organism through several mechanisms that are all strongly associated with degenerative disease conditions in general.
  5. Chronically high blood glucose concentration leads to chronically high insulin concentration; chronic exposure to insulin leads to desensitisation of muscle, liver and fat cells, and, in the end, to type-II or insulin-resistant diabetes.

And in this succinct summary, in these five points to remember, we have the keys to understanding not only how diabetes develops and manifests, to understand not only the relationship between diabetes and other degenerative diseases, but also to understand how to prevent and cure diabetes as well as degenerative conditions in general.

And I’m suppose to say …

But you already know what I’m going to say:

Because the basic, the underlying, the fundamental cause of insulin-resistant diabetes is chronic over-exposure to insulin, it means that to prevent—but also reverse and cure it—what we need is to not have chronic over-exposure to insulin. And this means to have the very least, the minimal exposure to insulin, at all times, day after day.

The good news, which is indeed very good news, is, on the one hand, that it is utterly simple to do and accomplish, and on the other, that almost independently of how prone we are to insulin resistance (genetically and/or hormonally) or how insulin-resistant we actually are right now, insulin sensitivity can be recovered quite quickly. And here, “quite quickly” means in a matter of days, which is truly remarkable in light of the fact that our state of insulin resistance grows over decades, day after day, and year after year. It is rather amazing, miraculous even, that the body can respond in this way so incredibly quickly.

Now, type-II diabetes is nothing other than extreme insulin-resistance. Naturally, the longer we are diabetic, the more insulin-resistant we become. But unbeknownst to most (almost all MDs the world over included), if your fasting blood glucose is higher than 75-80 mg/dl or your insulin higher than 5 (mU/L or microU/ml), then the muscle and liver cells are insulin resistant. And the higher the insulin, the more resistant they are. In fact, if you have any amount of excess body fat, your cells are insulin resistant. And the more body fat, especially abdominal but also everywhere else, the more insulin resistant they are.

Because insulin sensitivity is lost gradually over our lifetime through daily exposure, some consider that everyone is becoming diabetic more or less quickly, and that eventually, if we live long enough, we all become diabetic. But this is only true in a world where virtually everyone suffers from chronic over-exposure to glucose and insulin. It is not true in a world in which we eat and drink to promote optimal health.

In practice, because basically everyone is more or less (but more than less) insulin-resistant, concentrations around 10 mU/L are considered normal. But when I wrote earlier that insulin is vital but needed in very small amounts, I really meant very small amounts: like optimally between 1 and 3, and definitely less than 5 mU/L (or microU/mL; and the conversion from traditional to SI units is 1 mU/L = 7 pmol/L).

So how do we do it?

You already know what I’m going to say:

Because insulin is secreted in response and in proportion to glucose concentration, when it is low, insulin is not secreted. Therefore, insulin sensitivity is regained by completely eliminating insulin-stimulating carbohydrates. This means zero simple sugars without distinction between white sugar, honey or fruit; zero starchy carbs without distinction between refined or whole grains, wheat or rice, bread or pasta, potatoes or sweet potatoes; and zero dairy, which triggers insulin secretion even when sugar content is low. It also means minimal protein, just enough to cover the basic metabolic needs (0.5-0.75 g/kg of lean mass per day). Consequently, it means that almost all calories come from fat—coconut oil, coconut cream, animal fats from organic fish and meats, olive oil and avocados, as well as nuts and seeds—and that the bulk of what we eat in volume comes from fibrous and leafy vegetables.

And what happens? In 24 hours, blood glucose and insulin have dropped significantly, and the metabolism begins to shift from sugar-burning to fat-burning. In 48 hours, the shift has taken place, and the body begins to burn off body fat stores, while it starts the journey towards regaining insulin sensitivity. In a matter of days during the first couple of weeks, the body has released a couple to a few kilos of water and has burnt a couple to a few kilos of fat. We feel much lighter, much thinner, much more flexible and agile, and naturally, much better. In four weeks, blood sugar and insulin levels are now stable in the lower normal range. All of the consequences and side effects brought on by the condition of insulin-resisitant diabetes decrease in severity and amplitude with each passing day, and eventually disappear completely. In eight weeks, the metabolism has fully adapted to fat-burning as the primary source of energy, and we feel great. (See 11 for more technical details.)

The result is that within a matter of weeks, we are diabetic no longer: we have regained insulin sensitivity, and have thus cured our insulin-resistant diabetes. Over time, a few months or maybe a few years, feeling better with each passing day, there remain very few if any traces of our diabetes, and we live as if we never were diabetic. Amazing, isn’t it? So simple. So easy. So straight-forward. And yet, still so rare.

And what about the relationship between diabetes and heart disease, diabetes and stroke, diabetes and cancer, diabetes and Alzheimer’s? Why do diabetics suffer the various health problems that they do, like high blood pressure, water retention, blindness, kidney disease, and how do those come about? What of the lifespan-regulating functions of insulin, how does that work? All these interesting and important questions and issues will have to wait for another day. This article is already long enough.

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Healthy and lucid from childhood to old age

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So you’ve been around for 70 years, and you’re still well enough to read this. Have you actually made it past 75, 80 or even 85? This is really great! Through a combination of different factors, various reasons, personal habits and choices, you have made this far.

Maybe because of your genetic makeup: Your parents and grand-parents all lived well into their 80’s or 90’s by following a kind of innate, traditional wisdom based on the understanding that we really are what we eat, in a very real sense, and you’ve done more or less the same, following in their footsteps.

Maybe because you have always been moderate in your eating habits: You’ve never been overweight; you’ve never eaten much sweets or deserts; you’ve never eaten much preserved meats and canned foods; you’ve never drank much alcohol; you’ve never drank sweetened soft drinks, juice or milk—mostly just water, always paying attention not to drink too much coffee or strongly caffeinated tea.

Maybe you have made it this far because you have also been moderately active throughout your life, never exercising too much or too intensely, but always quite regularly: Walking; doing light exercises for your joints (rotations of the arms for your shoulders, stretches for your neck and back, and exercises for your knees); riding a bike a couple times a week in the good season, not getting off the bike but instead riding up those hills; maybe you went skiing a week or two most years; went for long walks or even hikes in the mountains during holidays; or did a little swimming in the sea or in lakes when the occasion presented itself.

The golden middleas my grand-father called it: everything is moderation. And he almost made it to 90 years of age! But no matter what the reason is, it is truly wonderful that you have indeed made it this far. Then again, you might be young or middle aged, but interested—maybe somewhat, maybe highly, but nonetheless interested—in being healthy and lucid for as long as possible, and hopefully well into your old age.

Either way, young or old, you live in this modern world like most of us. You live in a city, you drive a car, you work in an office, you fly or flew often on business trips, maybe even several times per week. You eat meat and fish; bread, potatoes, rice and pasta; fruits and vegetables, all from the supermarket.  And so you have, throughout your life, been continuously exposed to increasing amounts of chemicals, heavy metals and various other toxins in our environment, most of which have been accumulating in your tissues. You live in the modern world like most of us, and so you have taken medication on various occasions during your life: antibiotics a few times, maybe some pain killers, maybe some sleeping pills, maybe simple anti-histamines when you had a cold. Maybe you are and have even been taking medication on a daily basis for some “minor” but “chronic” condition.

You live in this modern world and so you have been told to drink plenty of fluids and that salt is bad and should be avoided. You’ve been told that fat in general, but especially saturated fats and cholesterol, are bad because they cause heart disease: they cause your arteries to clog up with fatty plaques that eventually block them to give you a heart attack. You’ve been told to avoid them as much as you can, and instead to consume polyunsaturated vegetable oils, plenty of whole grains and cereal products, legumes, plenty of fruits and vegetables, and so you have done that: you have decreased or almost eliminated your intake of butter, eggs, fatty cheese, fatty yoghurt, red meat—never ever eating the fatty trimmings, and also of the fatty skin on chicken or fish.

Consequently, you have increased your intake of morning cereal—but only sugar-free whole grain cereal like muesli; increased your intake of bread—but usually whole grain bread; increased your intake of rice—but usually brown rice; increased your intake of pasta—but usually also whole grain pasta; and increased you intake of potatoes—but never fried, only baked, steamed or boiled potatoes.

Maybe your total lipoprotein levels are around 220 or 240 mg/dl, and you have been told that this is too high, and for this reason you have tried to further reduce your fat intake, and are even taking statins or other cholesterol-lowering drugs, every day, just like hundreds of millions of other people in this modern world.

Unfortunately, you have not been told that you should be drinking water; not fluids in general, and that there are many reasons water, ageing and disease are intimately connected—the lack of water, that is. In addition to that, you have not been told that it is not enough to drink some water sometimes: it is essential to drink water before meals. Unfortunately, you have not been told that sodium is one of the most important minerals for health: why else would the kidneys, without which we cannot live for more than a few days, go to such great lengths to prevent its excretion in the urine, and keep it in the blood if it wasn’t? But even more unfortunately, you have not been told that minerals in general, are essential for health, and that unrefined sea salt contains all naturally occurring trace minerals is proportions that closely match those of several of our bodily fluids. And that furthermore, proper bodily function depends intimately on the balance of the minerals available, and that our salt-phobic and calcium-phillic society has led to most of us becoming completely over-calcified while growing more and more deficient in the rest of the trace minerals, and in particular magnesium. The link between generalised magnesium deficiency and minerals, ageing and disease are now everywhere painfully obvious.

Unfortunately—and indeed very sadly—you have not been told that cholesterol is absolutely vital for life and good health: that it forms the membrane of every single cell in your body and in that of every animal, that your entire nervous system and especially your brain are built using cholesterol and depend intimately on the availability of plenty of cholesterol, that your hormonal system relies completely on cholesterol for building hormones, and that your best defences against infectious and inflammatory pathogens are in fact the lipoproteins carrying around the precious cholesterol throughout your body. You have not been told that cholesterol is so important that it is manufactured continuously by our liver to keep up with the body’s needs, and that therefore, the cholesterol we eat does not in any ways raise lipoprotein concentrations. You have not been told that in addition to cholesterol, fat is also essential for building hormones, essential for absorbing minerals from the intestines into our bloodstream, essential for the binding of these minerals into the bones and teeth, essential for energy production in every cell of our body.

Furthermore, you have not been told that saturated fats like those found in animal products and coconut oil are molecularly stable, whereas unsaturated and particularly polyunsaturated oils such as those that make up all vegetable oils are molecularly unstable, some more than others, for the double bonds between carbon atoms in the chain that forms the fat molecule are weak and readily broken to permit some other unstable molecule seeking a free electron to attach in order to make the final molecular configuration stable. But that those unstable compounds are actually scavenging around for any electron to bind to, and unfortunately most of the time if not always, these free-radicals will attach themselves to healthy tissue without proper enzymatic action to guide them in the proper place and position, thus damaging our tissues.

In fact, you have not been told that all large studies that have been conducted to evaluate the “health-promoting” properties of polyunsaturated fats have not only failed to do so, but instead have shown that the more polyunsaturated oils we consume, the more atherosclerotic plaques develop in our arteries, and therefore the more likely we are to suffer a heart attack or stroke. And that on the contrary, the more saturated fats we consume, the less plaques we have, and consequently, the less likely we are to have a heart attack or a stroke (see any of the books about cholesterol in Further readings).

You have not been told, that for millions of years our species has evolved consuming most of its calories in the form of saturated fats from meat and animal products—in some cases exclusively from these, from coconut and palm oil (where these grow), and to a much lesser extent from polyunsaturated fats, and this only in whole foods such as fish, nuts and seeds—never concentrated into vegetable oils.

Unfortunately—and indeed very sadly—you have not been told that we were never meant to eat simple or starchy carbohydrates: that eating such carbohydrates always triggers the pancreas to secrete insulin in order to clear the bloodstream of the damaging glucose in circulation, that chronically elevated glucose levels lead to chronically elevated insulin levels that in turn lead to insulin resistance—first in our muscles, then in our liver, and finally in our fat cells—which leads to type II diabetes, to heart disease from the buildup of plaque in the coronary arteries and vessels, and to Alzheimer’s and cognitive degradation from the buildup of plaque in the cerebral arteries and vessels.

Unfortunately—and indeed very sadly—you have not been told and have not considered that all the multitude of chemicals and heavy metals that we are exposed to in the medications we take, in the air we breathe, in the water we drink, in the food we eat, in the soaps and shampoos we use, and in the household products we employ to keep our house sparkling clean and bacteria-free, accumulate in our bodies. They accumulate in our fat cells, in our tissues, in our organs, in our brains. They burden, disrupt and damage our digestive system, our immune system, our hormonal system, our organs, tissues and cells. Sometimes they reach such concentrations that we become gravely ill, but none of the doctors we visit in seeking a solution and relief understand why. Most often, however, we don’t get gravely ill but instead start developing different kinds of little problems: we get colds more often and take longer to recover, we get mild but regular digestive upsets that we can’t explain and that seem to get worse with time, we get headaches and have trouble sleeping, we feel depressed, tired, alone, helpless, not acutely but enough to disturb us enough that we notice it.

Finally, and maybe most importantly, you have not been told how truly essential vitamin B12 really is, but how, for a variety of different reasons, blood concentrations B12 decrease with age, and eventually dwindle to very low levels. That B12 is essential most crucially to preserve the myelin sheath that covers all of our nerves healthy, and thus crucially important for everything that takes place throughout the nervous system, which means, everything in the body and brain. Levels of B12 should never go below 450 pg/ml, and ideally should be maintained at 800 pg/ml throughout life, from childhood to old age hood.

Can we do anything about all this?

The most fundamental point to understand is that everything about your health depends on the state of health of your digestive system. All absorption of nutrients and elimination of waste happens in the digestive system. Since our health depends on proper absorption and efficient elimination, the digestive system should be our first as well as our main concern.

The first step is to rebuild and establish a healthy intestinal flora of beneficial bacteria (breakdown and absorption), and at the same time begin to detoxify the body and clean out the intestines (elimination). This is done by taking high quality probiotics to supply beneficial bacteria on a daily basis, high quality chlorella to both supply a lot of micronutrients and pull out heavy metals, and water-soluble fibre like psyllium husks to clean out the intestines by pushing out toxins and waste products. If you are not already taking these, read Probiotics, chlorella and psyllium husks.

The second step is by far the most important, and in fact, crucial dietary change necessary to achieve optimal metabolic health. It is to eliminate simple and starchy carbohydrates from you diet, and replace them with more raw vegetables—especially green and leafy salads and colourful vegetables such as red and yellow peppers, more nuts and seeds—especially raw and soaked, more good and efficiently absorbed protein—especially eggs, fish and raw cheeses, and much more saturated fats—especially coconut oil (at least 3 tablespoons per day) and butter. Doing this is  essential for the systemic detoxification, rebuilding and then maintaining a healthy digestive system. Everything should be organic: you obviously don’t want to be adding to your toxic load while trying to detoxify.

And the third step is to supplement our now-excellent, health-promoting diet with a few essential and very important nutrients that are, for most of us, difficult to obtain. The only such supplements that I believe to be essential, and that my family and I take daily, are: Vitamin B12 and vitamin D3—the most important supplements to take for overall health, but in which we are almost all deficient; Krill oil—a high-quality, animal-based omega-3 fat with its own natural anti-oxidants, highly absorbable, and particularly important for proper brain function; Ubiquinol—the reduced and thus useable form of coenzyme Q10, critical for cellular energy production, and a powerful lipid-soluble anti-oxidant that protects our cells from oxidative damage, but both of whose synthesis as CoQ10 and conversion from CoQ10 to ubiquinol drop dramatically after about age 30-40; Vitamin K2—essential for healthy bones but very hard to get other than from fermented foods, which we typically eat little of.

In addition to these, we usually always take Astaxanthin and turmeric—very powerful antioxidants with amazing general and specific anti-ageing health benefits, and also sometimes take a whole-foods-multi—basically dehydrated vegetables and berries made into a powder and compressed into a pill for extra micronutrients. (You can read about all of these supplements on Wikipedia or any other page you will find by doing an internet search.)

I tend to buy our supplements from Dr Joseph Mercola, (whose website also provides a lot of info about these and other supplements, as well as about a multitude of other health-related issues and conditions), because I trust that his are among if not the best on the market: there’s really no point in buying cheap supplements at the pharmacy, and risking doing yourself more harm than good, as would happen with a rancid omega-3 supplement, or a synthetic Vitamin D, for example.

Staying healthy and lucid is, in reality, quite easy and simple. Unfortunately, most of us, including, and maybe especially our medical doctors, just don’t know how. And so, medical diagnostic and high-tech treatment technologies continue to improve and develop, and medical expenditures continue to rise throughout the modern world, but we are sicker than ever: more obesity, more diabetes, more strokes, more heart attacks, more cancers, more Alzheimer’s, more leaky guts, more ulcers, more liver failures, more kidney failures, and on and on. There is more disease, more pain, more suffering and more premature deaths. And all of it is completely unnecessary and avoidable by such simple and inexpensive means as those outlined herein. The only critical point is that only you can do it; nobody else can do it for you.