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Insulin, Leptin, and Blood Sugar – Why Diabetic Medication Fails

by Byron Richards

(NaturalNews) Type II diabetes is a difficult metabolic problem. It is a national embarrassment that so many of our young people are becoming type II diabetic. It is a national disgrace that millions of type II diabetic patients are being injured with commonly used diabetic medications that are known to make their metabolic situation worse.

An overwhelming body of science demonstrates that insulin resistance leads to obesity and vice versa. Once this problem sets in a person heads down a path of ever-worsening metabolic control as diabetes-related issues, cholesterol problems, and heart disease risk factors pile up. If nothing is done, very poor health and early death are certain.

However, the Big Pharma blood-sugar remedies turn out to be really bad for health – and actually complicate rather than improve the patient's health. Even when the drugs aren't directly damaging in a major way, they fail to address the actual reasons for diabetes and typically have the net result of making the factors causing diabetes worse. I know that may seem hard to believe – but it is true, and I will explain it shortly.

On December 17, 2008 the New England Journal of Medicine put the nail in the coffin on another dismal year for the theory of drugs to treat disease, reporting that aggressive use of blood-sugar-lowering medication to prevent heart disease was a complete failure. Its not that lowering blood sugar in this patient population didn't do anything: it made the patients heavier and more hypoglycemic. This newer study followed equally dismal results from the ACCORD trial (Action to Control Cardiovascular Risk in Diabetes), which earlier in 2008 found a 22% increased rate of death in diabetic patients who were aggressively treated with medications.

Some of the newer diabetes medications like Avandia are quite deadly and likely to injure in multiple ways (such as doubling the risk for bone fractures). Scientists at the FDA were so concerned this drug would cause heart failure that they wanted a black box warning on it from the start. However, Von Eschenbach and his band of FDA management goons forced FDA scientists to not warn anyone! As Avandia-treated bodies starting showing up on the doorsteps of morgues around the country, Congress started asking questions. Eventually scientists reported a 43% increase in the risk for heart failure from Avandia; however, the FDA had this data from the start and didn't tell anyone. The FDA allowed Avandia sales to reach 3.2 billion per year – while killing and injuring a lot of patients. Even when the high-profile type II diabetic Tim Russert keeled over dead from a heart attack, nobody in the media seemed interested to know if he was taking Avandia.

At the same time that the FDA was helping to create a market for deadly Avandia sales, they sent out twenty-four warning letters to small dietary supplement companies telling them that their promotion of various products to lower blood sugar, correct insulin resistance, or improve diabetes is against the law. Against whose law? Certainly not the first amendment.

The Blood Sugar Con Job
The FDA and Big Pharma get away with this nonsense because they set the standard for drug effectiveness on a surrogate endpoint or biomarker, in this case the blood sugar level. Their logic is that if blood sugar levels are better than health must be better. This means that any drug that takes a toxic sledgehammer to blood sugar levels, knocking them down, is just fine in the eyes of the FDA even though the drug leaves a trail of damage around the body – even killing the person!

On a lesser scale, but using similar logic, doctors think that any medication that helps lower blood sugar is doing the patient a favor. Never do they ask the most obvious question: If you are lowering blood sugar with a drug where is the sugar going? The answer is: most often to stored fat. Or the sugar is simply forced into cells and kills them because the cells couldn't use the sugar.

What is a diabetes patient to do? And how does anyone whose blood sugar is beginning to rise get the problem under control? Answering these questions requires that you understand something about the subject, as it is rather obvious most doctors, even those who treat diabetes patients as their primary business, don't have adequate practical knowledge to fix the great majority of people coming to them for help.

Blood Sugar 101
First off, your blood is not a very sweet beverage. Normal fasting blood sugar is slightly less than one teaspoon of sugar in your five or so quarts of blood. What happens when you drink a sugar-sweetened Coke that contains ten teaspoons of sugar?

When you eat any food, even fat, your insulin level will rise. Higher amounts of refined carbohydrates or simple sugars will raise your insulin faster and in higher amounts. The greater the fiber content of your diet, the slower insulin is raised and the more controlled the process. When you eat a large meal, regardless of the type of calories, it causes a large and difficult to manage surge in insulin.

Insulin is a taxicab for calories. Its goal is to take blood sugar, as its passenger, to various locations in your body that want it. It helps if you are active, as some of the sugar is more likely to be wanted by cells in your body, including your many muscle cells.

Blood sugar is fuel, like gasoline is to a car. Your brain must have a regular supply or your head conks out. Thus, following a meal your insulin taxis are busy transporting sugar through your circulation and out to your cells, hoping to find cells that need some sugar.

In a healthy person, insulin drops off a whopping sixty percent of the sugar at your liver – which acts as a warehouse, converting the blood sugar to glycogen for storage.

Insulin is released by your pancreas in two phases. The first phase is from insulin that is already made and stored in your pancreas, which is just waiting for some food to come along. This is your first wave of taxis coming to pick up the first set of blood-sugar passengers. The release of this insulin triggers your pancreas's beta cells to start making more insulin to deal with the rest of the meal.

As you are eating, some of the insulin transports blood sugar to your white adipose tissue or stored fat. The blood sugar is taken up by fat cells, activating their metabolism, in turn producing the hormone leptin. Leptin now enters your blood and begins traveling up to your brain. The more you eat, the more insulin you make, and the more leptin you make.

When leptin levels get high enough, meaning you have eaten enough, then leptin permeates into your brain and tells your subconscious brain you are full. At the same time the higher levels of leptin are also telling your pancreas that you are full, which turns off the beta cell production of insulin, as no more taxis are needed.

If you ate the right amount of food for your physical activity level then blood sugar always has some place healthy to go, insulin rises and falls in a controlled manner, as does leptin.

When insulin has too many blood sugar passengers and cells don't need any sugar, then insulin stimulates the production of triglycerides (which can become stored fat). This is how you gain weight. Unfortunately, as triglycerides elevate in your blood they get in the way of leptin getting into your brain. This keeps you eating more than you need to because you don't have a full signal yet, a problem called leptin resistance. This encourages even further insulin-driven triglyceride formation, making it more likely you will gain weight.

If you stop eating so much and start exercising more, then this simple-case issue can improve and will often bounce back to normal function – thus the basic idea of eating less and exercising more to lose weight.

If you continually eat too much and are gaining weight, then cells get tired of seeing insulin taxis driving up. In fact, they shutter their windows and lock their doors, insulin becomes persona non grata. The reason for this rejection of insulin is rather simple – if the cells took in blood sugar when they can't use it, because they already have enough, then the extra sugar will caramelize and kill the cell. Rejecting insulin is a self defense measure. This is the mechanism behind basic insulin resistance at the cellular level.

If this problem keeps going, blood sugar levels continue to rise, insulin resistance gets worse, leptin resistance gets worse, cholesterol levels go up, blood pressure goes up, triglyceride levels go up, and inflammation really starts heating up. Eventually this leads to type II diabetes, along with many risk factors for heart disease, and then heart and kidney disease lock into place.

The problem for any kind of blood sugar medication is that it only addresses one of many mechanisms that aren't working right, while creating its own side effect complications. At best, it is a temporary solution with a narrow scope of benefit – and does not address the true source of the problem.

Furthermore, when more drugs are added in an effort to more comprehensively address the multiple aspects of the problem, then side effects really pile up in a hurry and injure the patient. This means the risk of multiple drug treatment far outweighs the benefits, even though one or two drugs can't get the job done.

More often, the medication either forces sugar into cells – killing or injuring them or it transfers the sugar into fat, making leptin problems worse that in turn make insulin problems almost impossible to solve. The shortcoming of these medications is openly acknowledged in the scientific literature, yet this is what passes for standard medical care. It is a disgrace.

Basic Diet Adjustments for Insulin Improvement
The absolute worst possible dietary pattern of eating for a type II diabetic IS THE STANDARD DIET ADVICE GIVEN BY DIETICIANS AND DOCTORS ACROSS THIS COUNTRY FOR ALMOST ALL TYPE II DIABETIC PATIENTS, helping to lock in a national epidemic of type II diabetes. They routinely tell individuals to snack in order to maintain their blood sugar levels and to "stoke" their metabolism with fuel.

In normal health, when you haven't eaten for three hours, insulin levels return to a baseline. Now your pancreas makes a different hormone called glucagon. This hormone tells your liver to release the sugar it has stored (glycogen) to sustain your blood sugar levels, and as it does this it turns on your liver's fat burning system. Thus, under the influence of glucagon your liver simultaneously uses sugar and fat to sustain your blood sugar – a true fat burning time that helps to clear up stagnating levels of triglycerides in your blood.

If you snack on anything surpassing thirty calories you will raise insulin, which automatically turns off glucagon, causes fat burning to stop, and blunts the use of sugar that has been stored in your liver. However, since you haven't used the stored sugar in your liver, then insulin can't put more sugar back in your liver as it normally would, meaning it will readily turn blood sugar into fat (even if you snacked on something with no fat).

You are supposed to get a snack between meals – but it is supposed to come from your liver, not from eating.

The worst things for leptin and insulin are eating between meals, eating large meals, eating low fiber, eating high refined sugar or refined carbohydrates, not eating enough quality protein, and not exercising.

If you eat anything after dinner you make matters even worse, because now you reduce the optimal access into your stored fat during sleep, a prime opportunity to burn fat.

When this system is abused and weight is gained, then fat begins to accumulate in excess in your liver. The fat clogs your liver's metabolism and reduces the ability of sugar to store in your liver following a meal. This is liver insulin resistance caused by fatty build up. This means that you are much more likely to become hypoglycemic or low blood sugar between meals – as you don't have enough sugar in your warehouse to use for blood sugar between meals.

This same fatty liver problem also gets in the way of how glucagon would burn fat between meals, causing glucagon to synthesize sugar in an inappropriate and out-of-control manner, making blood sugar go high even though you haven't eaten. This is why diabetics wake up with very high fasting blood sugar levels. These are complicated metabolic problems that are more difficult to fix than simple case insulin resistance.

Furthermore, your pancreas starts to tune out leptin, meaning that leptin resistance is occurring at the level of beta cells and the beta cells aren't getting the leptin message to stop making insulin in a timely manner. This causes extra insulin to be made, which excessively lowers blood sugar by turning sugar to fat, while simultaneously inducing hypoglycemia or low blood sugar symptoms. This makes a person want to eat again two to three hours after the previous meal, in turn making the whole problem worse.

And it's about this time, with metabolism clogged and broken, that a young overweight person goes to the doctor and finds out he or she is type II diabetic.

If the problem continues, then inflammation begins to damage the insulin-secreting beta cells. Not only are these beta cells now leptin resistant, causing them to overproduce insulin and get tired out, but they are getting damaged and their numbers are declining – meaning now they can't make insulin either. This sends a person down a path of a mixture of type I and type II diabetes – with an autoimmune component sometimes thrown in for good measure, a problem that is seen progressively more often in today's older type II diabetics.

The Complexity of Insulin and Leptin Problems
Well, if you thought that was hard to understand, then realize that the previous description was the rather simple explanation of the problem (and worth reading over again until you understand it). The metabolic problems of a diabetic patient are actually far more complex. To prevent yourself from becoming diabetic or to get over the problem, it is very important to understand even more information.

As your fat cells expand and cram into each other, a highly inflammatory state occurs within your white adipose tissue. These inflammatory signals aggravate and lock in the various problems discussed in previous sections. Another hormone made in fat, adiponectin, is a major player in this equation.

In health, leptin and adiponectin elevate in harmony, side by side. When leptin resistance occurs, which is common anytime someone starts gaining weight, then adiponectin levels begin to fall. The fall in adiponectin is caused by the inflammation in white adipose tissue. Interestingly, adiponectin is a primary anti-inflammatory hormone within white adipose tissue. Thus, the inflammation of progressive weight gain eventually overwhelms adiponectin, at which point serious problems really set in.

Once adiponectin levels fall too much, then inflammation in fat cells really ramps up. The greater the weight gain and leptin resistance, the farther adiponectin levels fall. When adiponectin levels fall your liver's ability to process sugar and insulin dramatically worsen, and your muscles become resistant to insulin – speeding the onset of type II diabetes.

And that's not all – your brain becomes insulin resistant which is actually caused by the leptin resistance, and this problem is now found to lock in all problems of insulin resistance around your body. A great deal of research indicates that the failure of insulin and leptin to register properly in your brain, along with falling adiponectin levels, creates a highly inflammatory state of affairs that is the prime cause of worsening blood sugar regulation and eventual type II diabetes.

Diabetic medication does not address these issues, and often makes them worse over time – even if blood sugar numbers appear better for a period of time. Treating blood sugar numbers is not treating the cause of anything. It's like saying the cause of a house fire is because the Fire Department didn't show up fast enough – so now let's put a fire hydrant in everyone's house so we can put out fires faster. That is an accurate analogy of how the Big Pharma-trained medical profession manages the type II diabetic population in our country. Even worse, their monopoly and inept care is sanctioned by the FDA and FTC as law, who act as police force bullies to stamp out any competing interests.

How to Solve the Diabetes Problem
There is no quick fix for type II diabetes, or even fasting blood sugar levels that are on the rise. To be healthy, your fasting blood sugar should never be above 90. However, real health is determined by achieving this number because your body is working properly.

There is no vitamin, mineral, or miracle pill that can automatically prevent or treat diabetes. What you are trying to do is create a nutritional environment that supports your body working normally.

Individuals with simple-case insulin and leptin resistance, who cut back on junk, exercise more, make appropriate dietary adjustments, and use some basic dietary supplement support can typically bring these smaller problems in line relatively quickly.

When problems are more serious they are complicated by the fact that the liver, pancreas, white adipose tissue, circulatory system, and subconscious brain have been irritated and even damaged by inflammatory compounds. This fact alone takes time to heal – it is not a simple nutritional deficiency – it is more like a badly sprained ankle.

Additionally, the liver, muscles, and circulation are clogged with accumulating fat. This is like trying to cook a meal in a filthy kitchen, it is going to be challenging. This problem will only gradually improve as weight is lost, it never improves until the weight is lost, and it is always getting worse if weight is being gained.

The solution is to create a pattern of health, rooted in a good diet and exercise, wherein these more advanced problems can begin to correct themselves. Type II diabetes is completely reversible for almost everyone – if only diabetics knew what to do.

Dietary Basics to Correct Type II Diabetes
Dietary fiber, especially soluble fiber, is critical for the repair of blood sugar problems. Soluble fiber is vital for slowing the rate at which sugar enters your blood, thus enabling your insulin system to function with less stress. It also helps you maintain healthier levels of triglycerides and cholesterol. Individuals struggling with blood sugar issues need 35 to 50 grams of fiber per day, much of it as soluble fiber (a higher level than the 25 grams the government recommends for general health). Higher amounts are also very helpful to curb appetite and support weight loss.

A serving of fruit or vegetables or a cup of oatmeal average about 4 grams of soluble fiber per serving. Legumes have about 8 grams of soluble fiber per serving (avoid soy). It is really easy to get higher amounts of soluble fiber with high quality fiber drinks. Pysllium, oat beta glucan concentrates, arabinogalactan, and partially hydrolyzed guar gum are just a few of the many fiber options available for consumers to easily boost soluble fiber intake.

Protein is vital in the repair of blood sugar metabolism. A minimal objective for protein intake is three-fourths of your ideal weight in grams of protein per day. To improve insulin function, the key proteins that help are rich in branch chain amino acids – especially leucine. Unlike any other amino acids, leucine directly communicates to insulin, instructing it to work efficiently in muscle. This not only helps preserve your muscle mass as you lose weight, it helps your muscles use glucose as fuel, in turn supporting healthy insulin function. Whey protein also helps leptin enter your brain more efficiently, supporting normal insulin function in your nervous system.

The highest sources of leucine-containing foods are animal and dairy sources. Cottage cheese and red meat top the list; other sources include milk, cheese, eggs, pork, fish, chicken, legumes, peanuts, nuts, and seeds. If you avoid red meat and dairy products, it is harder it is to get leucine-containing foods in higher amounts – though not impossible. Using whey protein makes it easy. I always recommend individuals stay away from processed soy protein (like soy protein drinks), as it is anti-thyroid in higher amounts.

The key foods to eliminate are refined carbohydrates, refined sugar, and high fructose corn syrup. Complex carbohydrates and fruit should be eaten at meals, several servings of each per day. Saturated fat and cholesterol-containing foods do not need to be avoided – just don't eat them in excess. A bite or two of dessert is permissible at a dinner meal, but never between meals or as a snack. Avoid adding any sweetener to food, whether natural or artificial, as they skew your taste buds to be addicted to food in larger amounts than you truly need. Soda drinks should be completely avoided. Coffee or tea in moderation. Eat organic whenever possible. Raw foods and vegetable juicing is great – go easy on the carrots and apples/fruit.
The Five Rules of the Leptin Diet

As I have explained in my books, Mastering Leptin and The Leptin Diet, there are five basic rules for eating that help correct leptin and insulin problems. They are:

Rule 1: Never eat after dinner.
Rule 2: Eat three meals a day (do not snack).
Rule 3: Do not eat large meals.
Rule 4: Eat a breakfast containing protein.
Rule 5: Reduce the amount of carbohydrates eaten.

While these rules are fairly simple, they are backed by considerable cutting-edge science. They help you extract more energy from less food. They form the foundation for a healthy style of eating that you can follow for a lifetime without any feeling of deprivation.

Some individuals who are type II diabetic may struggle a bit to go five hours between meals or make it through the night. This does not mean the rules are wrong, it simply means that liver and pancreatic fitness need to be restored. You can eat four smaller meals four hours apart to get started, or gradually implement rules until you can do them all. As you improve, work towards the three meals a day. You will be surprised how easy and effective it actually is. Numerous type II diabetic patients have made dramatic improvement by following the Leptin Diet.

How Dietary Supplements Can Help Correct Type II Diabetes
Many people will be able to correct type II diabetes simply by increasing exercise, following the Five Rules of The Leptin Diet, and improving the quality of food they are eating. Because type II diabetic patients have significant issues with inflammatory tissue damage and fat that is accumulating in all the wrong places, dietary supplements generally make the process of improvement easier. For some people they make the process possible. Choose a level of supplement support that makes sense to you. Add to it, or adjust it, so as to help yourself stay on track. It is the consistency of your entire program over a number of months that is your path to getting better.

The following list of supplement ingredients is by no means complete, as many other nutrients positively influence blood sugar and insulin. These are nutrients I have used in clinical nutrition practice with outstanding results. My point is to illustrate the many options and ways nutrition can help support healthy blood sugar metabolism.

Nutrients that have a positive influence on blood sugar and insulin:

DHA fish oil – It is now clear that patients with higher levels of DHA have lower amounts of insulin resistance. DHA is known to reduce the inflammation associated with blood sugar and insulin problems. It is also clear that DHA directly boosts the production of adiponectin by white adipose tissue, a hormone that may be key to the prevention of type II diabetes.

Cinnamon – Cinnamon is known to improve insulin resistance by activating gene-related metabolic signaling. It individuals with metabolic syndrome it has been shown to have improved fasting blood glucose, systolic blood pressure, percentage body fat and increased lean body mass. Cinnamon directly inhibits excess sugar from caramelizing body cells and tissues (AGEs –advanced glycation end products).

Banaba leaf – The active component in banaba leaf, corosolic acid, has been shown to support weight loss while lowering levels of blood sugar, insulin, and triglycerides. This helped prevent fatty build up in the liver while raising the very important level of diabetes-preventing adiponectin. Banaba is a traditional remedy for diabetes in the Philippines – and new studies are showing it to have a powerfully helpful influence on white adipose tissue – a mechanism unlike any drug.

Coffee berry – Coffee is well known to decrease the incidence of type II diabetes. Green coffee berries contain polyphenols and chlorogenic acid, a nutrient that helps your liver metabolize sugar effectively by modulating the enzyme glucose-6-phosphatase. It has been shown to improve glucose tolerance, while reducing cholesterol and triglycerides. It has also been shown to be effective for reducing mildly elevated blood pressure.

Chromium – Chromium helps blood sugar enter cells by supporting the natural function of insulin at the cell membrane. The nutrient is commonly lacking in individuals with type II diabetes. In type II diabetic patients chromium is found to improve glucose, insulin, cholesterol and Hemoglobin A1c.

Vanadium – Vanadium is a mineral with insulin-like properties that has been found to improve the metabolism of carbohydrates and fats, even in diabetics. It helps promote better blood sugar metabolism in both muscle and liver.

Inula racemosa – Inula has been found to increase the sensitivity of insulin. In combination with Gymnema sylvestre it was found to guard against steroid induced blood sugar problems, indicating that it helps offset the effects of high stress on blood sugar metabolism.

Gymnema sylvestre – Gymnema sylvestre is widely regarded as a top herb to help combat the problem of type II diabetes. This herb has even been shown to boost the number of pancreatic beta cells – a really unique and helpful support nutrient.

Pterocarpus marsupium – Pterocarpus marsupium is a traditional remedy for diabetes from India. It has insulin-like properties and it has a regenerative effect on the beta cells of the pancreas (cells that make insulin).

Bitter melon – Bitter melon is another Eastern traditional remedy for diabetes, showing improved blood sugar and insulin function, improved lipids, protection for beta cells, and reduced oxidative stress.

Grape seed extract – Grape seed extracts also turns down inflammation in fat cells while boosting the highly protective adiponectin. They have been shown to assist blood sugar entry to cells with insulin-like activity. They also directly inhibit the advanced glycation end products (AGEs) that form in the circulatory system from excess sugar.

Resveratrol – Resveratrol activates the SIRT1 gene, turning on other genes that directly influence insulin function and fat burning, leading researchers to conclude it may be helpful for diabetics. It reduces inflammation in fat cells and boosts adiponectin, a key problem for diabetics.

R-Alpha Lipoic Acid – A nutrient that assists in carbohydrate metabolism and insulin sensitivity, while acting as an antioxidant in nerves to help diabetic neuropathy. A lack of ability to make lipoic acid during aging increases inflammation and insulin resistance. Lipoic acid also protects against the formation of AGEs.

Carnosine – Carnosine is a potent reducer of AGEs and can even reduce the glycation of LDL cholesterol, leading researchers to conclude that carnosine may have therapeutic potential in preventing diabetes-induced atherosclerosis.

It is clear that nature's toolbox offers an impressive array of nutrients that support healthy blood glucose and insulin metabolism. While no person should ever consider these as a treatment in and of themselves, they are a potent array of natural options that can be plugged in, as desired, to an overall diet, exercise, and medical treatment plan to help address the very difficult problem of type II diabetes.

Type II diabetes is at epidemic levels in America, reaching down to teenagers and young adults in startling numbers. This problem signifies that key regulatory systems have lost their natural balance – meaning that homeostasis has been compromised. Unfortunately, this locks in a path to poor quality health, the early onset of many serious disease, and early death. The medical profession, relying on Big Pharma drugs, has not been able to solve this problem and actually makes it worse on a routine basis.

In order to make progress an overall program of lifestyle improvement must be undertaken on a consistent basis. There are no shortcuts. There is little margin for error. Weight must be lost in a gradual and consistent way. Weight gain during any "treatment" means the "treatment" is an utter failure. A healthy program requires making dietary adjustments that have been explained in this article. Consistent exercise is mandatory, the more the better. Dietary supplements can be plugged into an overall program to help the program of recovery go easier – and in some cases may be the key to getting the program on track or keeping it from getting derailed. There are many options. Type II diabetes can be prevented and in many people it can be completely reversed.

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