Fat, Not Glucose, is the Preferred Fuel for Your Body

Dietary FatWhile we may consider ourselves to be at the pinnacle of human development, our modern food manufacturing processes have utterly failed at improving health and increasing longevity.

During the Paleolithic period, many thousands of years ago, our ancestors ate primarily vegetables, fruit, nuts, roots and meat—and a wide variety of it. This diet was high in fats and protein, and low in grain- and sugar-derived carbohydrates.

The average person’s diet today, on the other hand, is the complete opposite, and the average person’s health is a testament of what happens when you adhere to a faulty diet. Humans today suffer more chronic and debilitating diseases than ever before.

And there can be little doubt that our food choices play a major role in this development. Quite simply, you were not designed to eat large amounts of refined sugar, high fructose corn syrup, cereal, bread, potatoes and pasteurized milk products.

As Mark Sisson states in the featured article1:

“If you want to live a better life and eat the best foods nature provided for health and fitness, then it’s time to ditch the old paradigms and climb on to the primal approach to eating better.”

Is Glucose Really Your Body’s Preferred Fuel?

The notion that glucose is the preferred fuel for your body is a pervasive one. Everyone from diabetics to top athletes are advised to make sure they eat “enough” carbs to keep their systems from crashing. This is unfortunate, as this misguided advice is at the very heart of many of our current health failures.

As Mark so succinctly spells out in his article, FAT is actually the preferred fuel of human metabolism, and this can be traced back to our evolutionary roots.

Historically speaking, carbohydrate intake has always been quite low. Likewise, the diseases we now know are associated with insulin resistance—which is primarily caused by excess consumption of refined carbs—have been quite rare.

The evidence is both clear and overwhelming: Carbohydrate intake is the primary factor that determines your body’s fat ratio, and processed grains and sugars (particularly fructose) are the primary culprits behind our skyrocketing obesity and diabetes rates.

“It follows logically that if you can limit carb intake to a range of which is absolutely necessary (and even up to 50 grams a day over) and make the difference up with tasty fats and protein, you can literally reprogram your genes back to the evolutionary-based factory setting you had at birth – the setting that offered you the opportunity to start life as a truly efficient fat-burning organism and to continue to do so for the rest of your life as long as you send the right signals to your genes,” Mark writes.

Why the Low-Carb/High-Fat Diet Works for Weight Loss

Switching from a carb-based diet to a fat- and protein-based diet will help rebalance your body’s chemistry, and a natural side effect of this is weight loss, and/or improved weight management once you’re at an ideal weight. One explanation for this is that you don’t really get fat from eating too much and exercising too little. Nor do you get fat from eating fat. One researcher that has clearly established this is Dr. Richard Johnson, whose latest book, The Fat Switch, dispels many of the most pervasive myths relating to diet and obesity.

Dr. Johnson discovered the method that animals use to gain fat prior to times of food scarcity, which turned out to be a powerful adaptive benefit. His research showed that fructose activates a key enzyme, fructokinase, which in turn activates another enzyme that causes cells to accumulate fat. When this enzyme is blocked, fat cannot be stored in the cell. Interestingly, this is the exact same “switch” animals use to fatten up in the fall and to burn fat during the winter. Fructose is the dietary ingredient that turns on this “switch,” causing cells to accumulate fat, both in animals and in humans.

In essence, overeating and excess weight could be viewed as a symptom of an improper diet. It’s not necessarily the result of eating too many calories, per se, but rather getting your calories from the wrong sources. In simple terms, when you consume too many sugars and carbs, you set off a cascade of chemical reactions in your body that makes you hungry and craving for sweets:

  1. First, fructose is metabolized differently from glucose, with the majority being turned directly into fat because fructose stimulates a powerful “fat switch.”
  2. This rapidly leads to weight gain and abdominal obesity (“beer belly”), decreased HDL, increased LDL, elevated triglycerides, elevated blood sugar, and high blood pressure—i.e., classic metabolic syndrome.
  3. Dietary carbohydrates, especially fructose, are also the primary source of a substance called glycerol-3-phosphate (g-3-p), which causes fat to become fixed in fat tissue.
  4. At the same time, high carb intake raises your insulin levels, which prevents fat from being released.
  5. Fructose further tricks your body into gaining weight by turning off your body’s appetite-control system. Fructose does not suppress ghrelin (the “hunger hormone”) and doesn’t stimulate leptin (the “satiety hormone”), which together result in feeling hungry all the time, even though you’ve eaten. As a result, you overeat and develop insulin resistance, which is not only an underlying factor of type 2 diabetes, heart disease, and a long list of other chronic diseases.

The resulting equation is simple: fructose and dietary carbohydrates (grains, which break down into sugar) lead to excess body fat, obesity and related health issues. Furthermore, no amount of exercise can compensate for this damage because if you eat excessive fructose and grains—the primary ingredients NOT found in our ancestral diet—it will activate programming to cause your body to become, and remain, fat.

How Much Glucose or Carbs Do You Really Need?

The debate about whether or not you really need glucose, and if so, how much, is by no means settled. Earlier this year, I ran a series of articles featuring the back-and-forth discussion between two well-researched experts on this topic, Dr. Jaminet and Dr. Rosedale.

Dr. Jaminet is a proponent of so-called “safe starches,” and is of the conviction that depleting your glycogen store can stress other systems to provide the glucose your body requires to perform. Dr. Rosedale, on the other hand, points out that because glucose consumption will undoubtedly spike blood glucose levels and increase insulin and leptin, promoting resistance, glucose consumption is always associated with some incremental degree of damage and/or increased risk of mortality. His diet is subsequently extremely carb-restrictive.

Yet another diet similar to Drs. Jaminet and Rosedale’s is the GAPS diet, created by Dr. Natasha Campbell-McBride, which is specifically designed to help “heal and seal” your gut. As such, it primarily consists of easily digestible, lightly cooked foods that are high in protein, fats, and fermented foods, and low in fiber and carbs.

Mark Sisson also adds valuable insight to this discussion2:

“At any one time, the total amount of glucose dissolved in the bloodstream of a healthy non-diabetic is equivalent to only a teaspoon (maybe 5 grams). Much more than that is toxic; much less than that and you pass out. That’s not much range for a so-called “preferred” fuel, is it?

Several studies have shown that under normal low MET conditions (at rest or low-to mid- levels of activity such as walking and easy work) the body only needs about 5 grams of glucose an hour. And that’s for people who aren’t yet fat-adapted or keto-adapted. The brain is the major consumer of glucose, needing maybe 120 grams a day in people who aren’t yet on a low carb eating program.

Low carb eating reduces the brain’s glucose requirements considerably, and those who are very low carb (VLC) and keto-adapted may only require about 30 grams of glucose per day to fuel the brain… Twenty of those grams can come from glycerol (a byproduct of fat metabolism) and the balance from gluconeogenesis in the liver (which can actually make up to a whopping 150 grams a day if you haven’t metabolically damaged it with NAFLD through fructose overdosing).

Bottom line, unless you are a physical laborer or are training (exercising) hard on a daily basis, once you become fat-adapted, you probably don’t ever need to consume more than 150 grams of dietary carbs – and you can probably thrive on far less. Many Pbers [Mark’s diet, Primal Blueprint] do very well (including working out) on 30-70 grams a day.” [Emphasis mine]

Key Point: Replace Carbs with Healthful Fats

As I see it, this is really a non-issue for most people as few people anywhere near Dr. Jaminet’s recommendation of cutting carbs from the standard 50 percent down to 20-30 percent of total calories. However, if you’ve already begun to seriously address your carb intake then you may want to experiment with various amounts of “safe carbs” like rice and potatoes. As Mark describes, the actual amount of carbs could vary anywhere from 30 to 150 grams a day, depending on whether your body has adapted to burning ketones and your level of exercise.

Keep in mind that when we’re talking about harmful carbs, we’re only referring to grains and sugars, NOT vegetable carbs.

When you cut grain/sugar carbs you actually need to radically increase the amount of vegetables you eat since, by volume, the grains you need to trade out are denser than vegetables. You also need to dramatically increase healthful fats such as avocados, coconut oil, egg yolks, raw grass fed organic butter, olives and nuts.

You would not want to use highly processed and genetically engineered omega-6 oils like corn, canola and soy as they will upset your omega 6/3 ratio. Of course you want to avoid all trans fats, but contrary to popular advice, saturated fats are a key component of a healthy diet that will promote weight loss.

A reasonable goal will be to have as much as 50-70 percent of your diet as healthy fat, which will radically reduce your carbohydrate intake. It can be helpful to remember that fat is far more satiating than carbs, so if you have cut down on carbs and feel ravenous, this is a sign that you have not replaced them with sufficient amounts of healthy fat. Sources of healthy fats that you’ll want to add to your diet include:

  • Olives and Olive oil (for cold dishes)
  • Coconuts, and coconut oil (for all types of cooking and baking)
  • Butter made from raw grass-fed organic milk
  • Raw Nuts, such as, almonds or pecans
  • Organic pastured egg yolks
  • Avocados
  • Pasture finished meats
  • Palm oil
  • Unheated organic nut oils

Most people will likely notice massive improvement in their health by following this approach as they are presently consuming FAR more grain and bean carbohydrates in their diet, and any reduction will be a step in the right direction. To help you get started on the right track, review my Nutritional Plan, which guides you through these dietary changes one step at a time.

Recent Research Confirms Benefits of Low-Carb/High-Fat Diet

Conventional advice has focused on low-fat diets for weight loss and heart disease prevention, but again and again, studies demonstrate that this advice is diametrically opposed to reality… In one such study, researchers at Johns Hopkins University School of Medicine’s Heart and Vascular Institute compared the effects of two diets on vascular health; one low in fat, the other low in carbs. The study in question was presented at this year’s meeting of the American College of Sports Medicine in Denver, on June 33.

The study included a total of 46 men and women weighing on average 218 pounds. The six-month long weight loss program consisted of moderate aerobic exercise and strength training, and one of two diets, either:

 

  • Low-carb, high-fat: Less than 30 percent of calories from carbs (pastas, breads and sugary fruits), and up to 40 percent from fats (meat, dairy products, and nuts)
  • Low-fat, high-carb diet: Less than 30 percent of calories from fat, and 55 percent from carbs

The low-carb group on average shed 10 pounds in 45 days, while the low-fat group took 70 days to lose the same amount of weight. In terms of vascular health, the low-carb, high-fat dieters showed no harmful vascular changes, which is the primary reason for why so many are afraid of high-fat diets.

According to the lead investigator, professor of medicine and director of clinical and research exercise physiology, Kerry Stewart, Ed.D:

“Our study should help allay the concerns that many people who need to lose weight have about choosing a low-carb diet instead of a low-fat one, and provide re-assurance that both types of diet are effective at weight loss and that a low-carb approach does not seem to pose any immediate risk to vascular health. More people should be considering a low-carb diet as a good option.”

Stewart also believes that the emphasis on low-fat diets has likely contributed to the obesity epidemic in the US by promoting overconsumption of sugars and grains. I couldn’t agree more. The simple reason for this is that grains and sugars raise your insulin levels, which causes insulin resistance and, ultimately, weight gain, diabetes, and heart disease.

Listen to Your Body

The evidence is quite clear that chronically raising your blood glucose through consumption of grains and sugars will increase your insulin resistance, which in turn will increase insulin and leptin resistance. And avoiding insulin and leptin resistance is perhaps the single most important factors if you seek optimal health and longevity.

That said, the degree to which you choose to reduce carbs however is, ultimately, up to you. And certain individual biochemical differences can make one diet more beneficial for you than others. The key point is to be aware that consuming sugar, grains and starches will promote insulin resistance to some degree or other, depending on the amount you consume.

As always, remember to listen to your body as it will give you feedback if what you are doing is right for your unique biochemistry and genetics. So listen to that feedback and adjust your program accordingly.

Hydration for Athletes

Water
Possibly the most under-emphasized aspect of sports nutrition, hydration can make or break an athlete’s performance. While fuel depletion during exercise can impair performance, inadequate water not only impairs exercise capacity, but can create life threatening disturbances in fluid balances and core temperature. With as little as 1% of body weight lost in fluid, athletes can experience thirst, fatigue, and weakness. (1) Thirst drives a person to drink, but it can actually lag behind the body’s need. When too much water is lost from the body and not replaced, dehydration develops. Dehydration refers to an imbalance in fluid dynamics when fluid intake does not replenish water lost. On the flip side, water intoxication occurs with excessive water intake or kidney disorders that can reduce urine output. In healthy individuals, dehydration is more common than water intoxication, but appropriate water balance is crucial to optimal performance and ultimately survival.

  • Water and Body Fluids

Water constitutes about 60 percent of an adults weight and it is the medium in which all life processes occur, including:* Carrying nutrients and waste products through the body* Maintaining the structure of large molecules* Acting as a solvent for minerals (i.e., sodium and potassium) and other small molecules* Acting as a lubricant and cushion* Maintaining blood volume* Helping the body regulate temperature.  Every cell in the body contains fluid specific for that cell called intracellular fluid, and around it is extracellular fluid. These fluids continually lose and replace their components, but the composition of each compartment remains remarkably constant. Because an imbalance can be devastating, the body continually adjusts water intake and excretion as needed. This type of balance is referred to as homeostasis. The body must excrete a minimum of about 500ml (about 2 cups) of water each day as urine to eliminate waste products that the body makes through metabolism. Above this amount, the body adjusts by excreting excesses to balance intake. In addition to water lost in the urine, the body also loses water from the lungs as vapor and the skin as sweat. The amount of fluid lost depends on the environment (heat and humidity), and physical conditions such as activity. On average, the body loses about 2.5 liter/day. Fluid maintains blood volume, which influences blood pressure. The homeostatic balance of fluids and solutes in the body is carefully regulated by the kidneys with assistance from several hormones including antidiuretic hormone (ADH) and aldosterone. The primary solutes that are involved in maintaining fluid balance are sodium, potassium, proteins, and glucose. Adequate intakes of water and electrolytes maintain hydration levels and regulate fluid shifts between the intra- and extra-cellular compartments. To maintain water balance, intake from liquids, foods, and metabolism must equal losses from the kidneys, skin, lungs, and GI tract.

  • The Needs of the Athlete

One of the primary functions of water for all individuals, especially athletes, is thermoregulation. A person can tolerate a drop in body temperature of 10 degrees (c), but an increase of only 5 degrees (c). Heat generated by active muscles can raise core temperature to levels that would incapacitate a person if caused by heat stress alone. (2)The body uses three mechanisms to dissipate heat:* circulation* evaporation* hormonal adjustment. The circulatory system works to deliver warm blood to the body’s shell. This produces the typical flushed face. Sweating begins within several seconds of the start of vigorous exercise and this evaporative cooling controls heat dissipation during exercise. Lastly, because sweat contains water and electrolytes, the body makes hormonal adjustments to help prevent the loss of salts and fluid. When the fluid lost in thermoregulation results in dehydration and a drop in blood volume, the end result produces circulatory failure and core temperature levels can increase to lethal levels.

  • Water Replacement

Total water intake at the reference level of 3.7 liters for adult men and 2.7 liters for adult women per day covers the expected needs of healthy, sedentary people in temperate climates. The obvious dietary sources of water are water itself and other beverages, but most foods contain some water as well. Most fruits and vegetables are almost 90% water, and many other foods like meats and cheese are approximately 50% water. The body also makes water during metabolism, when energy-yielding nutrients break down and their carbons, hydrogens, and oxygens combine to make carbon dioxide (CO2) and water (H2O).According to the Dietary Reference Intakes: The Essential Guide to Nutrient Requirements, published by the Institute of Medicine (3), most people get adequate fluids by drinking when they’re thirsty. However, the report does add that prolonged physical activity and heat exposure will increase water losses and therefore may raise daily fluid needs. Very active individuals, who are continually exposed to hot weather, often have daily total water needs of six liters or more. Both heat acclimatization as well as nutrition intervention is indicated for this population. According to the American College of Sports Medicine, general guidelines for fluid replacement are as follows: (5) Consume a nutritionally-balanced diet and drink adequate fluids during the 24-hr period before an event. Drink about 500 ml (about 17 ounces) of fluid about 2 hours before exercise to promote adequate hydration and allow time for excretion of excess ingested water.* During exercise, athletes should start drinking early and at regular intervals in an attempt to consume fluids at a rate sufficient to replace all the water lost through sweating or consume the maximal amount that can be tolerated.* It is recommended that ingested fluids be cooler than ambient temperature [between 15 degrees and 22 degrees C (59 degrees and 72 degrees F])] to enhance palatability and promote fluid replacement.* Addition of proper amounts of carbohydrates and/or electrolytes to a fluid replacement solution is recommended for exercise events of duration greater than 1 h since it does not significantly impair water delivery to the body and may enhance performance. Water loss by sweating peaks at about 3L per hour during intense exercise in heat. However, just about any degree of dehydration can impair performance. Adequate fluid replacement sustains the body’s potential for evaporative cooling. Rehydration protocols are often based on water lost as measured either by urine color, urine specific gravity, or changes in body weight.(4) If collecting urine is not feasible, sweat loss as reflected by weight loss can be used. An athlete’s pre and post workout (or event) weights are taken and whole body sweat rate can be calculated by dividing the sweat loss by the time period of collection. The following equation can be used to determine volume of fluid lost: (5) Sweat loss = (body weight before – body weight after) + amount of fluid intake – toilet loss. Alternatively, taking a simple measure of body weight each morning after emptying the bladder can show a pattern of hydration over time, provided gains or losses of fat and muscle tissue are not also taking place. Fluid balance, electrolyte homeostasis, cardiovascular function, and thermoregulatory control are intimately linked to fluid consumption and each has a major impact on health and performance. Fluid replacement helps maintain hydration and, therefore, promotes the health, safety, and optimal physical performance of individuals participating in regular physical activity. Athletes and their coaches should be aware of fluid replacement needs, and develop strategies and protocols to insure athletes drink enough to keep pace with sweat loss.