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| The word “fasting” is derived from the Anglo Saxon language and means “firm” or “fixed,” the word being “faest,” and during these early periods the practice of abstaining from food during certain periods was referred to as fasting. Therefore, it was related to a person firmly withholding food. | | The word “fasting” is derived from the Anglo Saxon language and means “firm” or “fixed,” the word being “faest,” and during these early periods the practice of abstaining from food during certain periods was referred to as fasting. Therefore, it was related to a person firmly withholding food. |
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− | From our standpoint, fasting refers to abstinence from food in the total sense. Com- monly, and in many religious organizations, fasting refers to abstinence from certain pre- scribed foods. | + | From our standpoint, fasting refers to abstinence from food in the total sense. Commonly, and in many religious organizations, fasting refers to abstinence from certain prescribed foods. |
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| In certain quarters, the common language usage is to refer to certain specific foods, and a person may be said to be on a “juice fast” when they are subsisting on juices. In actual fact, these are juice diets. | | In certain quarters, the common language usage is to refer to certain specific foods, and a person may be said to be on a “juice fast” when they are subsisting on juices. In actual fact, these are juice diets. |
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− | Fasting in the broad sense may be regarded as negative nutrition compelling the or- ganism to subsist on nourishment that it has stored within itself. | + | Fasting in the broad sense may be regarded as negative nutrition compelling the organism to subsist on nourishment that it has stored within itself. |
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| For the purposes of this course, fasting means the voluntary and complete abstinence from all food except water while nutritional reserves remain adequate to sustain life and normal function. | | For the purposes of this course, fasting means the voluntary and complete abstinence from all food except water while nutritional reserves remain adequate to sustain life and normal function. |
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| # Breakdownofbodyfat,therebyleadingtorapidweightloss.Thisisbeneficialbecause excess body fat increases the risk of heart disease, strokes, cancer, diabetes, arthritis, and many other diseases. Fasting is the “fastest” way to lose weight. | | # Breakdownofbodyfat,therebyleadingtorapidweightloss.Thisisbeneficialbecause excess body fat increases the risk of heart disease, strokes, cancer, diabetes, arthritis, and many other diseases. Fasting is the “fastest” way to lose weight. |
− | # Diversion of energy from digestive processes to other tissues where needed for repair and rejuvenation. Dr. Shelton explains that “if you have the water running in your bath- tub and somebody turns on the water in the kitchen sink, the rate of flow into the bathtub is immediately diminished. When the water in the kitchen is cut off, the rate of flow into the bathtub is immediately increased.” When digestion is suspended for a period of time by fasting, far less blood flows to the digestive organs. This blood is then free to flow to other tissues in the body, bring- ing with it essential oxygen and other nutrients which are needed for healing. This extra blood also serves as the vehicle in which wastes can be carried away. | + | # Diversion of energy from digestive processes to other tissues where needed for repair and rejuvenation. Dr. Shelton explains that “if you have the water running in your bath- tub and somebody turns on the water in the kitchen sink, the rate of flow into the bathtub is immediately diminished. When the water in the kitchen is cut off, the rate of flow into the bathtub is immediately increased.” When digestion is suspended for a period of time by fasting, far less blood flows to the digestive organs. This blood is then free to flow to other tissues in the body, bringing with it essential oxygen and other nutrients which are needed for healing. This extra blood also serves as the vehicle in which wastes can be carried away. |
− | # Physiologicalrestissecured.Weallknowtheimportanceofrestafterahardday’swork. At night, we fall into bed exhausted. If we do not secure a good night’s rest, we will function poorly the following day. Our internal organs need rest also, yet we almost nev- er give them rest since we eat every few hours every day. By fasting, an opportunity for complete rest is given, and the internal organs thereby are able to rebuild their strength. | + | # Physiologicalrestissecured.Weallknowtheimportanceofrestafterahardday’swork. At night, we fall into bed exhausted. If we do not secure a good night’s rest, we will function poorly the following day. Our internal organs need rest also, yet we almost never give them rest since we eat every few hours every day. By fasting, an opportunity for complete rest is given, and the internal organs thereby are able to rebuild their strength. |
| # Fasttoeliminatewastes.AgainquotingDr.Shelton:“Nothingknowntomanequalsthe fast as a means of increasing the elimination of waste from the blood and tissues. Only a brief period elapses after food is withheld until the organs of elimination increase their activities and a real physiological housecleaning is instituted.” | | # Fasttoeliminatewastes.AgainquotingDr.Shelton:“Nothingknowntomanequalsthe fast as a means of increasing the elimination of waste from the blood and tissues. Only a brief period elapses after food is withheld until the organs of elimination increase their activities and a real physiological housecleaning is instituted.” |
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| === Cholesterol Deposits Break Down === | | === Cholesterol Deposits Break Down === |
− | In regard to elimination of wastes, consider the situation with cholesterol. Most of the cholesterol stored within the body is lining the blood vessels, setting the stage for a heart attack or stroke. While fasting, a person is obviously ingesting no cholesterol in food. Therefore, there is no added dietary cholesterol entering the bloodstream. Yet, blood tests show that the level of cholesterol commonly goes up during the first 7-10 days of a fast, then decreases afterwards. Where is this cholesterol coming from? Sci- entists believe the source is deposits of cholesterol in the blood vessels. The body, in an | + | In regard to elimination of wastes, consider the situation with cholesterol. Most of the cholesterol stored within the body is lining the blood vessels, setting the stage for a heart attack or stroke. While fasting, a person is obviously ingesting no cholesterol in food. Therefore, there is no added dietary cholesterol entering the bloodstream. Yet, blood tests show that the level of cholesterol commonly goes up during the first 7-10 days of a fast, then decreases afterwards. Where is this cholesterol coming from? Scientists believe the source is deposits of cholesterol in the blood vessels. The body, in an |
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| effort to cleanse its blood vessels, breaks down the deposits of cholesterol in the blood vessels and liberates it. This cholesterol is either used (to build new cell membranes, to form adrenal hormones, or other such functions) or eliminated by the liver in the bile. This is an excellent example of the body’s accelerated elimination during a fast. | | effort to cleanse its blood vessels, breaks down the deposits of cholesterol in the blood vessels and liberates it. This cholesterol is either used (to build new cell membranes, to form adrenal hormones, or other such functions) or eliminated by the liver in the bile. This is an excellent example of the body’s accelerated elimination during a fast. |
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| === Fibrinolysis === | | === Fibrinolysis === |
− | Another body function that increases during a fast is fibrinolysis. Clots in the blood- stream are usually covered by a meshwork much like a spider’s web called fibrin. These clots are extremely dangerous: if one lodges in a small blood vessel in the lungs, the blood supply to that part of the lung will be obstructed and part of the lung may die. The clot is called a pulmonary (for lung) embolism (traveling clot). The process is called pulmonary infarction (death of part of the lung). | + | Another body function that increases during a fast is fibrinolysis. Clots in the bloodstream are usually covered by a meshwork much like a spider’s web called fibrin. These clots are extremely dangerous: if one lodges in a small blood vessel in the lungs, the blood supply to that part of the lung will be obstructed and part of the lung may die. The clot is called a pulmonary (for lung) embolism (traveling clot). The process is called pulmonary infarction (death of part of the lung). |
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| While fasting, the body’s ability to dissolve clots is greatly increased. This process, called fibrinolysis, does not permit such problems as pulmonary embolism and is part of the body’s effort at healing such problems as thrombophlebitis (inflamed veins, usually in the legs, where clots often form and break loose to travel to the lungs). | | While fasting, the body’s ability to dissolve clots is greatly increased. This process, called fibrinolysis, does not permit such problems as pulmonary embolism and is part of the body’s effort at healing such problems as thrombophlebitis (inflamed veins, usually in the legs, where clots often form and break loose to travel to the lungs). |
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| === Autolysis is Accelerated === | | === Autolysis is Accelerated === |
− | Also during fasting, the process of autolysis is accelerated. Each cell in the body contains the seeds of its own destruction. When the need presents, itself, the cell will release its own self-destructive enzymes and self-destruct. This is autolysis. As stated earlier, the body will break down and burn nonessential substances first for energy while fasting. One source of nonessential material is diseased tissue such as benign tumors (fi- broid tumors of the uterus are a good example). During the fast, the process of autolysis leads to the breakdown of this type of tissue which has hampered normal functioning. | + | Also during fasting, the process of autolysis is accelerated. Each cell in the body contains the seeds of its own destruction. When the need presents, itself, the cell will release its own self-destructive enzymes and self-destruct. This is autolysis. As stated earlier, the body will break down and burn nonessential substances first for energy while fasting. One source of nonessential material is diseased tissue such as benign tumors (fibroid tumors of the uterus are a good example). During the fast, the process of autolysis leads to the breakdown of this type of tissue which has hampered normal functioning. |
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| === Increased Diuresis === | | === Increased Diuresis === |
− | An important body activity during a fast is greatly increased diuresis. Diuresis is the excretion by the kidneys of salt and water. Medical doctors give diuretic drugs to high blood pressure patients in order to decrease the amount of salt and water in the body, which will then result in lower blood pressure. Diuretic drugs, however, damage body tissues. While fasting, the body spontaneously and automatically eliminates salt and wa- ter without damaging body tissues. This diuresis is of tremendous health benefit. | + | An important body activity during a fast is greatly increased diuresis. Diuresis is the excretion by the kidneys of salt and water. Medical doctors give diuretic drugs to high blood pressure patients in order to decrease the amount of salt and water in the body, which will then result in lower blood pressure. Diuretic drugs, however, damage body tissues. While fasting, the body spontaneously and automatically eliminates salt and water without damaging body tissues. This diuresis is of tremendous health benefit. |
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| === Phagocytosis Is Accelerated === | | === Phagocytosis Is Accelerated === |
− | The list could go on forever. While fasting, the ability of the body’s defensive army of white blood cells to destroy virulent bacteria and digest waste material is accelerat- ed. An experiment compared the ability of these cells to destroy virulent bacteria when taken from the bloodstream of someone who had been eating, versus cells from some- one who had been eating, versus cells from someone who had fasted for a few days. The white blood cells from the fasting person were significantly more effective at killing vir- ulent bacteria. | + | The list could go on forever. While fasting, the ability of the body’s defensive army of white blood cells to destroy virulent bacteria and digest waste material is accelerated. An experiment compared the ability of these cells to destroy virulent bacteria when taken from the bloodstream of someone who had been eating, versus cells from someone who had been eating, versus cells from someone who had fasted for a few days. The white blood cells from the fasting person were significantly more effective at killing virulent bacteria. |
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| == Juice Dieting Vs. Fasting == | | == Juice Dieting Vs. Fasting == |
| There are some people who advocate juice dieting over true fasting, saying that it is safer and healthier. We can dismiss the safety claim, since true fasting is safe if done the proper way under experienced supervision. We can also dismiss the claims regarding health. (While it is true that much less energy is expended when a person is on a juice diet than when they are eating solid food, however, when no food is taken at all (solid or liquid), the conservation of energy is greatest and the healing potential is therefore also | | There are some people who advocate juice dieting over true fasting, saying that it is safer and healthier. We can dismiss the safety claim, since true fasting is safe if done the proper way under experienced supervision. We can also dismiss the claims regarding health. (While it is true that much less energy is expended when a person is on a juice diet than when they are eating solid food, however, when no food is taken at all (solid or liquid), the conservation of energy is greatest and the healing potential is therefore also |
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− | greatest.—ed.). Therefore, we have objective evidence that there are more health bene- fits from water fasting than from juice dieting. | + | greatest.—ed.). Therefore, we have objective evidence that there are more health benefits from water fasting than from juice dieting. |
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| The general conclusion is that while fasting, the body’s healing and repairing and rejuvenating and eliminating powers have more energy and resources to do their work effectively, efficiently, and rapidly. | | The general conclusion is that while fasting, the body’s healing and repairing and rejuvenating and eliminating powers have more energy and resources to do their work effectively, efficiently, and rapidly. |
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| == What A Fast Cannot do == | | == What A Fast Cannot do == |
− | But can a fast do everything? Can a fast heal any health problems? First of all, let’s con- sider the implications of this mistaken terminology which is in widespread use. | + | But can a fast do everything? Can a fast heal any health problems? First of all, let’s consider the implications of this mistaken terminology which is in widespread use. |
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− | A fast does nothing! A fast only provides a condition during which the body can ef- fectively build its health. Don’t think of the fast as an independent actor with a life of its own. This is a carry-over from mistaken medical thinking which claims that drugs act on the body. Drugs do not act in the body. They are inert and lifeless! In fact, the body acts on the drugs. The one and only actor at all times, in health and disease, regardless of diet or drug, is the body. This is totally the case while fasting. The body acts, not the fast. The fast only provides the proper condition. | + | A fast does nothing! A fast only provides a condition during which the body can effectively build its health. Don’t think of the fast as an independent actor with a life of its own. This is a carry-over from mistaken medical thinking which claims that drugs act on the body. Drugs do not act in the body. They are inert and lifeless! In fact, the body acts on the drugs. The one and only actor at all times, in health and disease, regardless of diet or drug, is the body. This is totally the case while fasting. The body acts, not the fast. The fast only provides the proper condition. |
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− | So, instead of asking “what can a fast not do,” we must ask what can the body not do while fasting. The body does not have unlimited powers of healing. As the lifespan pro- gresses, the powers of healing diminish. An adult, for instance, can only rarely display the physiological vigor seen in an infant in regard to fever. A fever is a defensive mea- sure intelligently initiated by the body. When the body raises its temperatures to higher levels, greater amounts of waste are burned up. An infant’s healing power is so vigorous that it can raise the temperature to high levels in a short time. Yet an adult, whose healing powers are relatively weaker, cannot mount such an intense defensive action. An adult’s fever rarely reaches the height seen in an infant. | + | So, instead of asking “what can a fast not do,” we must ask what can the body not do while fasting. The body does not have unlimited powers of healing. As the lifespan progresses, the powers of healing diminish. An adult, for instance, can only rarely display the physiological vigor seen in an infant in regard to fever. A fever is a defensive measure intelligently initiated by the body. When the body raises its temperatures to higher levels, greater amounts of waste are burned up. An infant’s healing power is so vigorous that it can raise the temperature to high levels in a short time. Yet an adult, whose healing powers are relatively weaker, cannot mount such an intense defensive action. An adult’s fever rarely reaches the height seen in an infant. |
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− | The limited ability of the body to heal itself determines the extent of healing during a fast. This power of healing is far greater than most people realize, so it could be a grave error to decide, without consulting a Hygienic doctor, that there is no hope in any indi- vidual case. Yet it is equally erroneous to indulge in inane optimism and claim that the body is capable of healing and resolving any problem during a fast. Totally destroyed tissue in a joint, as seen in very advanced cases of arthritis, can usually not be reconsti- tuted even under the best conditions as provided by a fast. Hygienists have found that the body is not usually able to destroy malignant tumors while fasting, nor can it rebuild the “insulation” around nerves that has been destroyed in multiple sclerosis. | + | The limited ability of the body to heal itself determines the extent of healing during a fast. This power of healing is far greater than most people realize, so it could be a grave error to decide, without consulting a Hygienic doctor, that there is no hope in any individual case. Yet it is equally erroneous to indulge in inane optimism and claim that the body is capable of healing and resolving any problem during a fast. Totally destroyed tissue in a joint, as seen in very advanced cases of arthritis, can usually not be reconstituted even under the best conditions as provided by a fast. Hygienists have found that the body is not usually able to destroy malignant tumors while fasting, nor can it rebuild the “insulation” around nerves that has been destroyed in multiple sclerosis. |
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− | But the happy truth is that the vast majority of human illnesses can be helped by fasting. Fasting, in fact, provides the best opportunity for the body to heal itself. Yet the body does not have unlimited powers of self-repair. An experienced professional Hy- gienic doctor is able to judge in any individual case what the prospects are for recovery. | + | But the happy truth is that the vast majority of human illnesses can be helped by fasting. Fasting, in fact, provides the best opportunity for the body to heal itself. Yet the body does not have unlimited powers of self-repair. An experienced professional Hygienic doctor is able to judge in any individual case what the prospects are for recovery. |
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| In future lessons, we will discuss the specifics of which conditions are helped by fasting; all the aspects of managing a fast; how to break a fast; and how to live after a fast. | | In future lessons, we will discuss the specifics of which conditions are helped by fasting; all the aspects of managing a fast; how to break a fast; and how to live after a fast. |
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| Isn’t it better to go on a juice diet than fast totally? | | Isn’t it better to go on a juice diet than fast totally? |
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− | No, water fasting (going on water alone) is far superior to juice dieting. For one thing, the elimination of salt from the body which occurs so rapidly while fasting and results in health improvement will not occur at all while on juices. Don’t think of juice dieting as fasting. While on juices, a person ingests large amounts of calo- ries, vitamins, minerals, and other nutrients. | + | No, water fasting (going on water alone) is far superior to juice dieting. For one thing, the elimination of salt from the body which occurs so rapidly while fasting and results in health improvement will not occur at all while on juices. Don’t think of juice dieting as fasting. While on juices, a person ingests large amounts of calories, vitamins, minerals, and other nutrients. |
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| Can every disease be “cured” by fasting? | | Can every disease be “cured” by fasting? |
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− | No. Remember, fasting is not a “cure.” Fasting only provides the optimal con- dition for self-repair. This process of self-repair has its limitations also, depending on the case. | + | No. Remember, fasting is not a “cure.” Fasting only provides the optimal condition for self-repair. This process of self-repair has its limitations also, depending on the case. |
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| == Article #1: Living Without Eating by Dr. Herbert M. Shelton == | | == Article #1: Living Without Eating by Dr. Herbert M. Shelton == |
− | In March, 1963, newspapers around the world described the almost incredible story of the seven weeks deprivation of food and the survival of Ralph Flores, a forty-two-year- old pilot of San Bruno, California, and twenty-one-year-old Helen Klaben, a co-ed of Brooklyn, New York, following a plane crash on a mountain side in Northern British Columbia. The couple was rescued March 25, 1963, after forty-nine days in the wilder- ness in the dead of winter, over thirty days of this time without any food at all. | + | In March, 1963, newspapers around the world described the almost incredible story of the seven weeks deprivation of food and the survival of Ralph Flores, a forty-two-year old pilot of San Bruno, California, and twenty-one-year-old Helen Klaben, a co-ed of Brooklyn, New York, following a plane crash on a mountain side in Northern British Columbia. The couple was rescued March 25, 1963, after forty-nine days in the wilderness in the dead of winter, over thirty days of this time without any food at all. |
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− | By means of a fire, a lean-to and heavy clothes in which they wrapped themselves, they managed to withstand the bitter cold. During the first four days after the crash, He- len Klaben ate four tins of sardines, two tins of fruit, and some crackers. Twenty days after the crash, the pair took their last “food”—two tubes of toothpaste. Melted snow be- came their diet, for breakfast, lunch, and the evening meal. “For the last six weeks,” she explained, “we lived on water. We drank it three ways: hot, cold and boiled.” Varying it in this way helped reduce the monotony of their single item menu of snow. | + | By means of a fire, a lean-to and heavy clothes in which they wrapped themselves, they managed to withstand the bitter cold. During the first four days after the crash, Helen Klaben ate four tins of sardines, two tins of fruit, and some crackers. Twenty days after the crash, the pair took their last “food”—two tubes of toothpaste. Melted snow became their diet, for breakfast, lunch, and the evening meal. “For the last six weeks,” she explained, “we lived on water. We drank it three ways: hot, cold and boiled.” Varying it in this way helped reduce the monotony of their single item menu of snow. |
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| Miss Klaben who was “pleasing plump” at the time of the plane crash, was happily surprised, at the ordeal’s end, to learn that her weight loss totalled thirty pounds. | | Miss Klaben who was “pleasing plump” at the time of the plane crash, was happily surprised, at the ordeal’s end, to learn that her weight loss totalled thirty pounds. |
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− | Flores, who was more active during their enforced fast, had lost forty pounds. Physi- cians who examined them after the rescue, found them to be in “remarkably good” con- dition. | + | Flores, who was more active during their enforced fast, had lost forty pounds. Physicians who examined them after the rescue, found them to be in “remarkably good” condition. |
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− | Many thousands of men and women have gone without food for much longer peri- ods, not only without harm, but with positive benefits. Periods of abstinence under such taxing conditions as the ones these two people endured and survived are extremely rare. | + | Many thousands of men and women have gone without food for much longer periods, not only without harm, but with positive benefits. Periods of abstinence under such taxing conditions as the ones these two people endured and survived are extremely rare. |
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| One of Sweden’s distinguished biochemists, Dr. Ragnar Berg, a Nobel Prize winner and an authority on nutrition, says, “One can fast a long time, we know of fasts of over a hundred days duration, so we have no need of fearing that we will die of hunger.” | | One of Sweden’s distinguished biochemists, Dr. Ragnar Berg, a Nobel Prize winner and an authority on nutrition, says, “One can fast a long time, we know of fasts of over a hundred days duration, so we have no need of fearing that we will die of hunger.” |
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| The actual time period of abstinence forced upon Mr. Flores and Miss Klaben was of relatively moderate duration. The question is not how long man can fast, but what are the provisions of nature that enable him to do so. | | The actual time period of abstinence forced upon Mr. Flores and Miss Klaben was of relatively moderate duration. The question is not how long man can fast, but what are the provisions of nature that enable him to do so. |
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− | Wear and waste, repair and replenishment, are continuous and almost simultaneous processes in all living structures, and none of these processes halt during a fast. The hi- bernating animal in the far north must produce sufficient heat to maintain body warmth. Both man and animal, while fasting, must breathe and the heart must continue to pulsate. The blood must continue to flow and the organs of elimination must continue their work of freeing the tissues of waste. The vital functions of life must be carried on, even if at a slightly reduced rate. Cells must be replenished, wounds must be healed. All of this, as I know from years of observations, goes on during a fast. | + | Wear and waste, repair and replenishment, are continuous and almost simultaneous processes in all living structures, and none of these processes halt during a fast. The hibernating animal in the far north must produce sufficient heat to maintain body warmth. Both man and animal, while fasting, must breathe and the heart must continue to pulsate. The blood must continue to flow and the organs of elimination must continue their work of freeing the tissues of waste. The vital functions of life must be carried on, even if at a slightly reduced rate. Cells must be replenished, wounds must be healed. All of this, as I know from years of observations, goes on during a fast. |
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− | All manifestations of life—movement, secretion, digestion, and similar process- es—depend upon the use of the materials of the body. If an organ is to work, it must be supplied with the materials with which to work. In the absence of fresh supplies with which to replace those that have been used up, the organ wastes and weakens. If life is to continue, a basic irreducible level of activity is imperative. Even the hibernating animal, with activities reduced to a bare minimum consistent with continued life, must breathe and the heart must pulsate. | + | All manifestations of life—movement, secretion, digestion, and similar processes—depend upon the use of the materials of the body. If an organ is to work, it must be supplied with the materials with which to work. In the absence of fresh supplies with which to replace those that have been used up, the organ wastes and weakens. If life is to continue, a basic irreducible level of activity is imperative. Even the hibernating animal, with activities reduced to a bare minimum consistent with continued life, must breathe and the heart must pulsate. |
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| An understanding of the process by which the body nourishes its vital tissues and sustains its essential functions during prolonged abstinence, and the sources upon which it draws, will help us understand how the body can survive periods when outside food is not available or cannot be digested. | | An understanding of the process by which the body nourishes its vital tissues and sustains its essential functions during prolonged abstinence, and the sources upon which it draws, will help us understand how the body can survive periods when outside food is not available or cannot be digested. |
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− | The normal body provides itself with a store of nutritive materials that are put away in the form of fat, bone marrow, glycogen, muscle juices, lacteal fluids, minerals and vi- tamins. Always the healthy body maintains in store adequate nutritive reserves to tide it over several days, weeks, or even over two or three months of lack of food. This remains true whether fasting is enforced, as in the case of a plane crash or of entombed miners, or is brought on by illness where one cannot swallow or digest food, or by free choice as in voluntary fasting to lose weight. When food is not taken, the body draws upon its reserves with which to nourish its functioning tissues. As this reserve is used up, weight is lost. | + | The normal body provides itself with a store of nutritive materials that are put away in the form of fat, bone marrow, glycogen, muscle juices, lacteal fluids, minerals and vitamins. Always the healthy body maintains in store adequate nutritive reserves to tide it over several days, weeks, or even over two or three months of lack of food. This remains true whether fasting is enforced, as in the case of a plane crash or of entombed miners, or is brought on by illness where one cannot swallow or digest food, or by free choice as in voluntary fasting to lose weight. When food is not taken, the body draws upon its reserves with which to nourish its functioning tissues. As this reserve is used up, weight is lost. |
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− | Basic in the fasting process is the fact that our “built-in pantries” contain sufficient nutriment to hold out, in most instances, for prolonged periods, especially if they are conserved and not wasted. In the blood and lymph, in the bones and especially in the marrow of the bones, in the fat of the body, in the liver and other glands and even in the individual cells that make up the body, are stores of protein, fat, sugar, minerals, and vi- tamins which may be drawn upon during periods of scarcity or when food is not usable. | + | Basic in the fasting process is the fact that our “built-in pantries” contain sufficient nutriment to hold out, in most instances, for prolonged periods, especially if they are conserved and not wasted. In the blood and lymph, in the bones and especially in the marrow of the bones, in the fat of the body, in the liver and other glands and even in the individual cells that make up the body, are stores of protein, fat, sugar, minerals, and vitamins which may be drawn upon during periods of scarcity or when food is not usable. |
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− | Neither animal nor man can survive prolonged abstinence from food unless he car- ries within himself a store of reserve food on which the body can call in emergencies. The fasting organism will not be harmed by abstinence so long as the stored reserves are adequate to meet the nutritive requirements of its functioning tissues. Even thin in- dividuals carry a reserve of food in their tissues, to tide them over periods of abstinence. These people too, may safely fast for varying periods. | + | Neither animal nor man can survive prolonged abstinence from food unless he carries within himself a store of reserve food on which the body can call in emergencies. The fasting organism will not be harmed by abstinence so long as the stored reserves are adequate to meet the nutritive requirements of its functioning tissues. Even thin individuals carry a reserve of food in their tissues, to tide them over periods of abstinence. These people too, may safely fast for varying periods. |
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− | By a process known technically as autolysis, achieved by enzymes in the tissues, these stored reserves are made available for use by the vital tissues to which they are car- ried by the blood and lymph as required. Glycogen or animal starch stored in the liver is converted to sugar and distributed, as needed, to the tissues. It is significant that, even in prolonged fasts, no beriberi, pellagra, rickets, scurvy or other “deficiency disease” ever develops, thus showing that the reserves of the body are generally well balanced. | + | By a process known technically as autolysis, achieved by enzymes in the tissues, these stored reserves are made available for use by the vital tissues to which they are carried by the blood and lymph as required. Glycogen or animal starch stored in the liver is converted to sugar and distributed, as needed, to the tissues. It is significant that, even in prolonged fasts, no beriberi, pellagra, rickets, scurvy or other “deficiency disease” ever develops, thus showing that the reserves of the body are generally well balanced. |
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− | Fasting has been shown to improve rickets and calcium metabolism. In anemia, the number of red blood cells are increased during a fast. I have observed benefits in pella- gra during a fast. The biochemical balance may be maintained and even restored while fasting. It is important to know this, for if it were not so, the fast would prove to be dele- terious. | + | Fasting has been shown to improve rickets and calcium metabolism. In anemia, the number of red blood cells are increased during a fast. I have observed benefits in pellagra during a fast. The biochemical balance may be maintained and even restored while fasting. It is important to know this, for if it were not so, the fast would prove to be deleterious. |
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− | Numerous animal experiments have shown that underfeeding, as contrasted with overfeeding, tends to prolong life and to provide for better health. Other experiments in- volving fasting rather than underfeeding, have shown that fasting not only prolongs life, but results in a marked degree of regeneration and rejuvenation. | + | Numerous animal experiments have shown that underfeeding, as contrasted with overfeeding, tends to prolong life and to provide for better health. Other experiments involving fasting rather than underfeeding, have shown that fasting not only prolongs life, but results in a marked degree of regeneration and rejuvenation. |
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| Thousands of observations of both man and animals have established the fact that when the physical organism goes without food, the tissues are called upon in the inverse order of their importance to the organism. Thus fat is the first tissue to go. The stored reserves are used up before any of the functioning tissues of the body are called upon to supply nutrients for the more vital tissues such as the brain and nerves or the heart and lungs. As it feels among its supplies for proteins, sugars, fats, minerals, and vitamins, and redistributes, utilizes, and conserves these stores, the fasting organism exercises an ingenuity that seems almost superhuman. | | Thousands of observations of both man and animals have established the fact that when the physical organism goes without food, the tissues are called upon in the inverse order of their importance to the organism. Thus fat is the first tissue to go. The stored reserves are used up before any of the functioning tissues of the body are called upon to supply nutrients for the more vital tissues such as the brain and nerves or the heart and lungs. As it feels among its supplies for proteins, sugars, fats, minerals, and vitamins, and redistributes, utilizes, and conserves these stores, the fasting organism exercises an ingenuity that seems almost superhuman. |
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− | The aggregate of tissues of the organism may be regarded as a reservoir of nutriment which it may call in any direction or to any part as needed. But these tissues are not sac- rificed indiscriminately. On the contrary, wastage of those organs that are primarily es- sential to life is repaired by withdrawal from less essential organs of materials required by the more important ones. Many of the necessary nutritive constituents, and this is es- pecially true of certain minerals, are vigorously retained. | + | The aggregate of tissues of the organism may be regarded as a reservoir of nutriment which it may call in any direction or to any part as needed. But these tissues are not sacrificed indiscriminately. On the contrary, wastage of those organs that are primarily essential to life is repaired by withdrawal from less essential organs of materials required by the more important ones. Many of the necessary nutritive constituents, and this is especially true of certain minerals, are vigorously retained. |
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| Studies made on men and animals to determine losses of various tissues and organs in prolonged abstinence from food have almost all been made on organisms that have died of starvation. Starvation and fasting are two totally different stages of abstinence. It should be quite obvious that the extreme losses seen at the starvation stage of abstinence are far greater than they are in a fast of reasonable length. Extreme weight losses are not experienced in any normal fast. Where they occur, the fast should be broken. | | Studies made on men and animals to determine losses of various tissues and organs in prolonged abstinence from food have almost all been made on organisms that have died of starvation. Starvation and fasting are two totally different stages of abstinence. It should be quite obvious that the extreme losses seen at the starvation stage of abstinence are far greater than they are in a fast of reasonable length. Extreme weight losses are not experienced in any normal fast. Where they occur, the fast should be broken. |
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| One must differentiate between fasting and starving. To fast is to abstain from food while one possesses adequate reserves to nourish his vital tissues; to starve is to abstain from food after his reserves have been exhausted so that vital tissues are sacrificed. We are not left unwarned as to when the reserves are nearing exhaustion. Hunger returns with an intensity that drives one to seek food, although during the fast proper, there is no desire for food. This differentation between fasting and starving should help to dispel any notion that starvation sets in with the omission of the first meal. | | One must differentiate between fasting and starving. To fast is to abstain from food while one possesses adequate reserves to nourish his vital tissues; to starve is to abstain from food after his reserves have been exhausted so that vital tissues are sacrificed. We are not left unwarned as to when the reserves are nearing exhaustion. Hunger returns with an intensity that drives one to seek food, although during the fast proper, there is no desire for food. This differentation between fasting and starving should help to dispel any notion that starvation sets in with the omission of the first meal. |
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− | Contrary to popular and even professional opinion, the vital tissues of a fasting or- ganism, those tissues doing the actual work of life, do not begin to break down the in- stant a fast is instituted. The fasting body does lose weight, but this loss, for an extended period, is one of reserves and not of organized tissues. | + | Contrary to popular and even professional opinion, the vital tissues of a fasting organism, those tissues doing the actual work of life, do not begin to break down the instant a fast is instituted. The fasting body does lose weight, but this loss, for an extended period, is one of reserves and not of organized tissues. |
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| The efficiency of the living organism in regulating the expenditure of its resources during a fast is one of the marvels of life. | | The efficiency of the living organism in regulating the expenditure of its resources during a fast is one of the marvels of life. |
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− | In periods of abstinence, the less important organs of the human being, although they waste consequent upon the withdrawal of substance from them with which to nourish the more vital tissues, do not undergo degeneration until the starvation phase of the peri- od of abstinence is reached. The atrophy of muscles may be no greater than that seen to occur from a lengthy period of physical inactivity, while there is no loss of muscle cells. | + | In periods of abstinence, the less important organs of the human being, although they waste consequent upon the withdrawal of substance from them with which to nourish the more vital tissues, do not undergo degeneration until the starvation phase of the period of abstinence is reached. The atrophy of muscles may be no greater than that seen to occur from a lengthy period of physical inactivity, while there is no loss of muscle cells. |
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| The cells grow smaller and the fat is removed from the muscles, but the muscle retains its integrity and a surprising amount of strength. | | The cells grow smaller and the fat is removed from the muscles, but the muscle retains its integrity and a surprising amount of strength. |
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− | Loss of weight varies according to the character and quality of the tissues of the in- dividual, the amount of physical and emotional activity engaged in, and the temperature surrounding the faster. Physical activity, emotional stress, and cold and poor tissues all provide for more rapid loss. Fat is lost faster than any of the other tissues of the body. | + | Loss of weight varies according to the character and quality of the tissues of the individual, the amount of physical and emotional activity engaged in, and the temperature surrounding the faster. Physical activity, emotional stress, and cold and poor tissues all provide for more rapid loss. Fat is lost faster than any of the other tissues of the body. |
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− | Bodily condition is, perhaps, the chief determiner of how long one may safely fast. In the case of the two who survived the plane crash, and went four weeks without food, for example, they had snow which is water and this kept them from the danger of dehy- dration. They could live without food; the lack of water would have been fatal. Volun- tary or involuntary, the faster must have water. | + | Bodily condition is, perhaps, the chief determiner of how long one may safely fast. In the case of the two who survived the plane crash, and went four weeks without food, for example, they had snow which is water and this kept them from the danger of dehydration. They could live without food; the lack of water would have been fatal. Voluntary or involuntary, the faster must have water. |
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| It is clear then that fasting must be carried out intelligently, with proper precaution, and with common sense. | | It is clear then that fasting must be carried out intelligently, with proper precaution, and with common sense. |
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− | Precisely as a novice swimmer would seek expert guidance and advice before start- ing on a long swim, so the inexperienced faster must obtain reliable guidance as a pre- cautionary measure before launching upon a fast of any extended duration. | + | Precisely as a novice swimmer would seek expert guidance and advice before starting on a long swim, so the inexperienced faster must obtain reliable guidance as a precautionary measure before launching upon a fast of any extended duration. |
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| '''''Reprinted from Fasting Can Save Your Life''''' | | '''''Reprinted from Fasting Can Save Your Life''''' |
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| == Article #2: Fasting In Nature by Dr. Alec Burton == | | == Article #2: Fasting In Nature by Dr. Alec Burton == |
− | When we closely examine the animal world we discover that fasting is almost as com- mon as feeding. But aside from fasting per se there are two similar conditions which are related to our subject. They are hibernation and aestivation. | + | When we closely examine the animal world we discover that fasting is almost as common as feeding. But aside from fasting per se there are two similar conditions which are related to our subject. They are hibernation and aestivation. |
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− | It is a universal verity that animals have some means of adaptation to food scarcity. Obvious examples of this are squirrels storing nuts, bees, storing honey, chipmunks stor- ing roots and nuts, beavers storing twigs, and finally other animals capable of storing significant food reserves within themselves. These are the animals which hibernate. They undergo a period of winter sleep. Their metabolism is slowed down and they take no food for long periods of time. Bats, mice, hedgehogs, woodchucks, toads, lizards, snakes, flies, wasps, bees, bears, crocodiles, and alligators are among those that undergo some degree of hibernation. True hibernation is a dormant state of existence accompa- nied by great diminution of respiration, circulation, and metabolism. At this time, the animals’ functions are almost suspended. Body heat is little. Action of the heart is al- most imperceptible, and as much as 40% of the animal’s total weight may be exhausted by the time it recommences feeding. | + | It is a universal verity that animals have some means of adaptation to food scarcity. Obvious examples of this are squirrels storing nuts, bees, storing honey, chipmunks storing roots and nuts, beavers storing twigs, and finally other animals capable of storing significant food reserves within themselves. These are the animals which hibernate. They undergo a period of winter sleep. Their metabolism is slowed down and they take no food for long periods of time. Bats, mice, hedgehogs, woodchucks, toads, lizards, snakes, flies, wasps, bees, bears, crocodiles, and alligators are among those that undergo some degree of hibernation. True hibernation is a dormant state of existence accompanied by great diminution of respiration, circulation, and metabolism. At this time, the animals’ functions are almost suspended. Body heat is little. Action of the heart is almost imperceptible, and as much as 40% of the animal’s total weight may be exhausted by the time it recommences feeding. |
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| True hibernation is restricted to only a few animals: hedgehog, doormouse, marmot, and bat. This is a state where most of the essential vital functions continue at a very low level or degree. They are referred to by biologists as “imperfectly warm blooded types,” which are unable to produce enough heat to make good their losses in cold weather. It is probable that the biologists’ conception is inaccurate because in a number of species it is only the female that hibernates, which would suggest that it is food scarcity rather than temperature that precipitates hibernation. | | True hibernation is restricted to only a few animals: hedgehog, doormouse, marmot, and bat. This is a state where most of the essential vital functions continue at a very low level or degree. They are referred to by biologists as “imperfectly warm blooded types,” which are unable to produce enough heat to make good their losses in cold weather. It is probable that the biologists’ conception is inaccurate because in a number of species it is only the female that hibernates, which would suggest that it is food scarcity rather than temperature that precipitates hibernation. |
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− | Conversely, aestivation is a similar process which occurs in the summer time, and quite obviously these are not cold blooded animals. An example is the tenree of Mada- gascar. This climatic dormancy requires that the organism makes a variety of gradual physiological and biochemical adjustments that apparently correlate with temperature, light, and food scarcity. | + | Conversely, aestivation is a similar process which occurs in the summer time, and quite obviously these are not cold blooded animals. An example is the tenree of Madagascar. This climatic dormancy requires that the organism makes a variety of gradual physiological and biochemical adjustments that apparently correlate with temperature, light, and food scarcity. |
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| Different hibernators adapt to different sets of conditions. Some store food, others do not. Some accumulate a great deal of fat and food reserves, others do not. However, there is a general preparation for the period of hibernation. An increase in fat deposition and adjustments of body temperature or what appears to be a “resetting” of the body thermostat are common. Metabolism adjusts, the heart and cardiovascular system show generally lower levels of activity. | | Different hibernators adapt to different sets of conditions. Some store food, others do not. Some accumulate a great deal of fat and food reserves, others do not. However, there is a general preparation for the period of hibernation. An increase in fat deposition and adjustments of body temperature or what appears to be a “resetting” of the body thermostat are common. Metabolism adjusts, the heart and cardiovascular system show generally lower levels of activity. |
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− | A number of biochemical changes associated with the nutritional adaptation are ev- ident. There is an increase of the element magnesium in the blood and the endocrine glands reduce their activity. This is especially so of the gonads. It is generally agreed among experts and observers that hibernation follows normal sleep. In other words the state is entered via sleep. | + | A number of biochemical changes associated with the nutritional adaptation are evident. There is an increase of the element magnesium in the blood and the endocrine glands reduce their activity. This is especially so of the gonads. It is generally agreed among experts and observers that hibernation follows normal sleep. In other words the state is entered via sleep. |
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| If, however, hibernation is to be looked upon as a type of sleep, it is an extremely complex one. But one factor which is dominant is energy conservation. All the adapted devices conserve the energy of the organism concerned. | | If, however, hibernation is to be looked upon as a type of sleep, it is an extremely complex one. But one factor which is dominant is energy conservation. All the adapted devices conserve the energy of the organism concerned. |
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− | One extremely interesting feature of hibernation which is of particular interest to us in our studies of fasting is the apparent improvement of health experienced by hiber- nating animals. According to observers, they do not develop “infectious” diseases. They are said “to have a greater resistance to disease,” or at least some of its causes. It is claimed that the host’s defensive mechanisms against parasites and their proliferation is substantially increased, it has also been demonstrated that the hibernating organism is more resistant to radiation and especially are the tissues rejuvenated and more capable of healing following the period of hibernation. Hibernation is in many ways an important survival mechanism. | + | One extremely interesting feature of hibernation which is of particular interest to us in our studies of fasting is the apparent improvement of health experienced by hibernating animals. According to observers, they do not develop “infectious” diseases. They are said “to have a greater resistance to disease,” or at least some of its causes. It is claimed that the host’s defensive mechanisms against parasites and their proliferation is substantially increased, it has also been demonstrated that the hibernating organism is more resistant to radiation and especially are the tissues rejuvenated and more capable of healing following the period of hibernation. Hibernation is in many ways an important survival mechanism. |
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− | As I mentioned earlier, hibernation and aestivation are interesting examples in our quest for understanding the biology of fasting; but as it is not possible for man to signifi- cantly reduce his physiological and metabolic processes, we cannot extrapolate from the lower mammals to man knowledge which is gained in this way. | + | As I mentioned earlier, hibernation and aestivation are interesting examples in our quest for understanding the biology of fasting; but as it is not possible for man to significantly reduce his physiological and metabolic processes, we cannot extrapolate from the lower mammals to man knowledge which is gained in this way. |
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− | It need hardly be said that the living organism requires materials with which to work. It requires nutrients to fuel its biological processes. It requires nutrients as a source of en- ergy and to provide the needed materials for the repair of wear and tear, for healing or re- generation, and for reproduction. It also requires a variety of other essential substances, minerals and vitamins, which are necessary for the regulation of the body’s processes. Simply stated, it is not possible for an organism to survive without nutrients. | + | It need hardly be said that the living organism requires materials with which to work. It requires nutrients to fuel its biological processes. It requires nutrients as a source of energy and to provide the needed materials for the repair of wear and tear, for healing or regeneration, and for reproduction. It also requires a variety of other essential substances, minerals and vitamins, which are necessary for the regulation of the body’s processes. Simply stated, it is not possible for an organism to survive without nutrients. |
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− | Professor Morgulis states that during a fast, an organism is living off the fat of the land. The Gila monster, a large lizard of the southwestern desert in Mexico, in fact a poi- sonous reptile, has a conspicuously large heavy tail. This is a source of nutrients in times of food scarcity and it is well known that the lizard is capable of going for extended pe- riods of time without food. In one observation, one fasted in excess of two months. | + | Professor Morgulis states that during a fast, an organism is living off the fat of the land. The Gila monster, a large lizard of the southwestern desert in Mexico, in fact a poisonous reptile, has a conspicuously large heavy tail. This is a source of nutrients in times of food scarcity and it is well known that the lizard is capable of going for extended periods of time without food. In one observation, one fasted in excess of two months. |
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| It is commonly thought by people that the camel, having a large hump, is capable of travelling long distances without water. It is more true that the camel is capable because of its hump of going for long periods of time without food. The fat-tail sheep of Iran has an enormous reserve of nutrients available to it during times of scarcity. During periods of abundance, it stores food in the tail which is utilized when scarcity prevails. | | It is commonly thought by people that the camel, having a large hump, is capable of travelling long distances without water. It is more true that the camel is capable because of its hump of going for long periods of time without food. The fat-tail sheep of Iran has an enormous reserve of nutrients available to it during times of scarcity. During periods of abundance, it stores food in the tail which is utilized when scarcity prevails. |
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| As we would expect, there are many and diverse differences among the different species of animals so far as fasting and stored food reserves are concerned. | | As we would expect, there are many and diverse differences among the different species of animals so far as fasting and stored food reserves are concerned. |
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− | As we have seen, some animals hibernate—they are inactive for long periods, per- haps six or seven months. Conversely, there are animals that engage in vigorous physical activity while fasting. The Alaskan fur seal bull and the salmon are common examples. The fur seal engages in tremendous and relentless sexual activity over a period of twenty to thirty days during which it takes no food. During their long upstream swim salmon do not take food. It is also claimed that whales are capable of abstaining from food for long periods of time. | + | As we have seen, some animals hibernate—they are inactive for long periods, perhaps six or seven months. Conversely, there are animals that engage in vigorous physical activity while fasting. The Alaskan fur seal bull and the salmon are common examples. The fur seal engages in tremendous and relentless sexual activity over a period of twenty to thirty days during which it takes no food. During their long upstream swim salmon do not take food. It is also claimed that whales are capable of abstaining from food for long periods of time. |
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| Professor Morgulis states in his book, Fasting and Under Nutrition that “active growth and regeneration are not incompatible with inanition and the wear and tear at least in some organisms is so completely repaired as to evade for a long time the effect of nutritional stringency. Inanition does not preclude the ability for extreme and sustained exertion.” | | Professor Morgulis states in his book, Fasting and Under Nutrition that “active growth and regeneration are not incompatible with inanition and the wear and tear at least in some organisms is so completely repaired as to evade for a long time the effect of nutritional stringency. Inanition does not preclude the ability for extreme and sustained exertion.” |
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− | It should be stressed that so far as our own discussion is concerned, we are advocat- ing fasting as a means of physiological rest and this should be associated with physical, mental, emotional, and sensory rest so far as practicable. | + | It should be stressed that so far as our own discussion is concerned, we are advocating fasting as a means of physiological rest and this should be associated with physical, mental, emotional, and sensory rest so far as practicable. |
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− | One of the most unusual and fascinating examples of fasting is that it takes place during metamorphosis which represents a complete change of form during the life of an insect or other living creature. A good example of this is the tadpole during its period of transformation to a frog. It does not shed its tail, the tail contains nutrients; proteins, car- bohydrates, fats, minerals, and vitamins. It is a source of nourishment for the changing organism. | + | One of the most unusual and fascinating examples of fasting is that it takes place during metamorphosis which represents a complete change of form during the life of an insect or other living creature. A good example of this is the tadpole during its period of transformation to a frog. It does not shed its tail, the tail contains nutrients; proteins, carbohydrates, fats, minerals, and vitamins. It is a source of nourishment for the changing organism. |
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− | We observe the process of “autolysis” which is the breakdown of stored nutritional reserves by the inter and intracellular enzymes. The nutrients are not usuable as glyco- gen, fat, protein, etc. They must first be digested inside and thus supply the changing organism with basic materials to develop its new form. We will observe in this that the process of “autolysis” is a rigidly controlled series of events. The developing frog does not suddenly lose one of its newly formed legs or part of an eye. It only breaks down the needless tail. | + | We observe the process of “autolysis” which is the breakdown of stored nutritional reserves by the inter and intracellular enzymes. The nutrients are not usuable as glycogen, fat, protein, etc. They must first be digested inside and thus supply the changing organism with basic materials to develop its new form. We will observe in this that the process of “autolysis” is a rigidly controlled series of events. The developing frog does not suddenly lose one of its newly formed legs or part of an eye. It only breaks down the needless tail. |
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− | Another example of this important biological process, which in life is going on all the lime, is the common aspect of healing with the absorption of a ring of calus, which temporarily supports a fracture, when a bone has sustained an injury. By this remark- able process, this supporting ring is slowly removed. We see evidence of the same thing where congestive deposits surround a lesion, cut, or surface on the body—how these are rapidly broken down and removed. There are literally thousands of examples of fasting in nature, and it is indeed almost as common as feeding. | + | Another example of this important biological process, which in life is going on all the lime, is the common aspect of healing with the absorption of a ring of calus, which temporarily supports a fracture, when a bone has sustained an injury. By this remarkable process, this supporting ring is slowly removed. We see evidence of the same thing where congestive deposits surround a lesion, cut, or surface on the body—how these are rapidly broken down and removed. There are literally thousands of examples of fasting in nature, and it is indeed almost as common as feeding. |