Raw Food Explained: Life Science
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2. Vitamins
2.1 A Statement
In this lesson we will not concern ourselves with specific functions of particular vitamins, nor will we identify precise sources for obtaining this or that vitamin, nor with minimum daily requirements per se as set forth by governmental agencies, nor with similar data. There are any number of books and pamphlets setting forth such information and we refer our students to them. Our concern here will rather be centered on vitamins as a class and whether or not supplementation of the diet with man-made manufactured vitamins is advisable for health-seekers. We, of course, accept the fact that real vitamins are a necessary nutrient of life.
2.2 What Are Vitamins?
Most people who take vitamins religiously have little or no real understanding of what vitamins are and what their function in the body is. Vitamins are not mysterious substances that hold the key to life and health in and of themselves as one might be led to believe by reading the popular literature on the subject.
2.3 A Very Profitable Business
The selling of vitamins is a very profitable business, profits often being as high as ten times over cost. Increasing numbers of persons searching for better health “repair” are purchasing vitamins. The gross incomes of many proprietors of these outlets are well over the six figure dollar mark annually. Some physicians make a practice of selling vitamins directly to their patients also, making their purchases from large pharmaceutical houses.
2.4 As Members of a Group
Real vitamins are simply one of a group of organic substances which are present in exceedingly small amounts in natural foodstuffs. They are essential to normal metabolism and, if they are in short supply, certain changes adverse to health can result.
These changes are generally cumulative in kind, not spectacular. They do not arise following a single failure to obtain a particular vitamin or group of vitamins but, to the contrary, adverse tissue changes and organ degeneration are, more often than not, the product of many years of poor management of SELF, including among many others, the failure to provide an adequate intake of vitamins from natural sources.
2.5 Need for Vitamins Grossly Exaggerated
Vitamins are only one of a group of natural accessory food factors very important in the maintenance of health. They are taken into the system as an accessory factor whenever food is eaten, foods such as ripe luscious fruits, leafy green vegetables, and other delectable food packages which come from Nature’s hand.
Our systemic need for vitamins has been grossly exaggerated by certain commercial interests and, as a result, there are numerous uninformed individuals who indiscriminately ply their bodies with as many as a hundred different supplements of one kind or another every single day, some even taking single vitamins in enormous amounts, in what are known as megavitamin doses.
Not too long ago we were counseling a woman who suffered from a rheumatic disorder which greatly curtailed her ability to get around. At our first meeting she spread out on the table an array of supplements, including a variety of vitamins, that was hard to believe. She took vitamins with her meals and in between meals, before going to bed and upon arising in the morning, all in doses many times greater than those recommended by the government. She said she had been taking these massive doses simply on the basis of what she had read in the popular magazines.
“For well over a year now, but I don’t seem to be getting any better. The pain goes on and my muscles keep getting stiffer.” And then came the plaintive cry we hear so often, “What can I do?”
2.6 The Problems Posed by Excess
We found it necessary to explain to our client that, as with overnutrition of any kind, when the body’s need for any nutrient is exceeded, the system is called upon to dispose of the excess as best it can and, in the process of doing so, the liver and kidneys are overworked and the adaptive energy and other reserves of the body wasted, never to be retrieved. Once wasted, the life energy is gone, it cannot be recovered to any appreciable extent. This woman has wasted her precious energy in coping with unnecessary and unusable materials she had been constantly putting into her mouth. It was little wonder that her health had kept on its degenerating course.
2.7 Discovery and Chemistry of Vitamins
The term “vitamin” first appeared in the year 1912. So, vitamins are a comparative newcomer on the nutritional scene. They were so named by one Casimir Funk, the scientist who gave this name to the substance which he obtained from rice polishings while attempting to isolate the factor, the absence of which was believed by some investigators to be responsible for the condition known as beri-beri. The substance Funk obtained was a pure crystalline chemical to which he gave the name “Vitamine.” We now call it Vitamin B1 or Thiamine.
The two parts of the word vitamin mean “life” and “amine.” An amine is a substance derived from ammonia, the formula of which is NH3, the N standing for nitrogen and H being the symbol for hydrogen. Ammonia therefore consists of one atom of nitrogen to three atoms of hydrogen, thus the formula NH3. When one atom of hydrogen is replaced by a hydrocarbon or other radical, we have a primary amine, when two are replaced we have a secondary amine, and so on.
A primary amine might be Nh3CH3. As you can see, here one hydrogen atom has been replaced by one CH3 grouping (a radical).
A secondary amine might by NH(CH3)2. Here, two hydrogen atoms have been replaced by two CH3 radicals. And soon.
This is the basic chemical structuring of a vitamin, some being more complex than others.
Since Funk’s initial research, efforts to find and isolate these new and exciting substances have gone on ceaselessly and still continue today.
2.8 List of Isolated and/or Identified Vitamins
- Vitamin A
- Vitamin D – Ergosterol. Viosterol. Calciferol.
- Vitamin E – Tocopherol, D-alpha tocopherol, tocopheryl, dl-tocopherol
- Vitamin C – Ascorbic Acid. Cevitamin Acid.
- Vitamin P – The Biovlavonoids – Not true Vitamins
The B Vitamin Group:
- B1 – Thiamin. Thiamine Chloride. Thiamine HCl.
- B2 – Riboflavin. Vitamin G.
- B3 – Niacin (two chemical forms: nicotinic acid and nicotinamide, the latter also often called niacinamide; Niacin Amide).
- B6 – Pyridoxine. Pyridoxine HCl.
- B12 – Cobalamin. Cyanocobalamin. Also called the “Red Vitamin.”
- Biotin – Vitamin H
- Choline – one of the “Lipotropic Factors.”
- Folic Acid (also known as Folacin). Pteroylglutamic acid.
- Inositol
- PABA (Para-aminobenzoic Acid). Bx.
- Pantothenic Acid
- B13 – Orotic Acid
- B14 – A mix of Vitamin B10 and B11
- B15 (Pangamic acid) – Does not meet the criteria for a vitamin.
- B17 Amygdalin. Known as Laetrile. (Does not qualify as a vitamin.)
- Vitamin F – Essential fatty acids
- Vitamin K – Menadione
- Vitamin T – Sesame seed factor, unidentified
- Vitamin U – Vitamin-like factor found in some vegetables, cabbage, for example.
2.9 Grouping the Vitamins
Vitamins are organic chemical compounds which are normally divided for purposes of convenient identification into two groupings:
- The Fat-Soluble Vitamins
- The Water-Soluble Vitamins
Only the more familiar vitamins are so classified. They are grouped in this manner because they cannot be more readily classified because of their chemical similarity as can be done, for example, with the various kinds of carbohydrates which, as the student already knows, can be easily grouped as monosaccharides, disaccharides or polysaccharides according to the complexity of their molecules and the similarity of their chemical construction. This is not true of vitamins since they differ widely in their chemical make-up with no clear pattern emerging.
Some vitamins are proteins with very complex molecules while others seem to be simple amino acids. Many people consider vitamins to be food, but vitamins are really not food in and of themselves, but rather protein compound’s or simple amino acids which assist the body at the cellular level to utilize and assimilate the food which is eaten and, in excess, they stimulate the metabolic process. Their main responsibility is to regulate body activity.
The body also has other helpers which also perform this same regulatory function—namely, the enzymes. No one is exactly sure just how enzymes go about their very important duties but we do know that thousands of chemical actions and interreactions which are all a part of the cellular scene depend upon enzymatic action. Without their presence, these metabolic functions simply could not take place. As we shall see later, without the presence of certain enzymes, many bodily processes in which vitamins play their own peculiar role would require such high temperatures that the body would literally burn up.
Thus, the vitamins assist the enzymes, too, in their catalytic work and, for this reason, are often called “Co-Enzymes.” They assist both hormones and enzymes so their role might be compared with that of the nurse’s aide who assists the registered nurse in caring for all the patients!
2.10 Vitamin-Enzyme-Hormone Synergism
The secretions of the ductless glands, hormones, are the prime regulators of metabolic activity in addition to performing the very important task of instigating metabolic action. The hormones are normally referred to as instigators of metabolic action; that is they are primarily responsible for keeping metabolic activity going on. But, additionally, and most importantly, they also serve as regulators of metabolism, seeing to it that things do not get out of control—that we don’t wear out the physiological clock, as it were, making things go too fast.
Thus we can see that vitamins and enzymes dually share in this major responsibility working in tandem, as it were, with the hormones. None can fully fulfill its responsibilities without the presence of the others. This is synergism at its best.
2.11 Vitamins Have Other Roles
So far as is known, vitamins supply no energy or nutrient to the human body but simply make it possible for the system to appropriate the proteins, carbohydrates, fats and salts. We also know that they are absolutely essential to growth because they are required in cellular replication (division); they play an important part in the regeneration of cellular matter and in the overall maintenance of health. Some of them are probably involved in membrane maintenance, in the stimulation of brain action, cleansing of the peripheral capillary system, in blood clotting, and in a myriad number of other activities. Their total role will probably never be known.
2.12 The Fallacy of Vitamin Supplementation
From the foregoing, it would appear logical to assume that the more vitamins we can take, the healthier we should become but, unfortunately, this is simply not true. We have a limited capacity to utilize and/or to store vitamins, as is true of food. When any substance, including vitamins, is introduced into the system in excess of present need, an unnecessary burden is immediately placed upon all the organs and systems. They cannot use the product. It is an obstructive influence in the body and therefore potentially harmful to it. The organic domain is placed in the position of having to cope with it in the least damaging manner.
The presence of any excess or foreign substance is immediately recognized. The danger-ahead alert is sent via the nervous transmitting mechanisms (the nervous system) to the control center in the brain where it is interpreted, evaluated and an appropriate response (instructions) sent out; or perhaps the alert may be relayed to a more locally placed substation (a plexus) for a sympathetic response.
If an obstructive foreign substance (for example, a vitamin overload due to dietary supplementation), cannot be stored or disposed of by temporarily or permanently “dumping” it somewhere in the body where it will not greatly interfere with normal systemic function but can be “tolerated,” then the body will instigate other measures to get it out of the system as fast as possible.
The usual route for such exodus is via the kidneys and when the kidneys are thus called upon for emergency service, they must necessarily work overtime. Vitamins, when taken in excess of actual body need, are handled in exactly the same fashion as any other unncessary impediment. In the case of vitamins, the easiest and quickest way to get rid of existing excess is to incorporate it in the urine and send it out of the body via the bladder, making the urine a very expensive secretion, indeed!
In order to accomplish the “dumping” or the rapid exodus of any foreign or excess material, vitamins or other, the body is stimulated by the nervous response and shifts into “high gear,” stepping up the metabolic activity. The stimulation makes the vitamin-taker feel good, at least while he takes the vitamins, and it is for this reason that the need for this kind of stimulation can become habitual.
Why, you ask. It seems that a very delicate balance obtains among and between the secretions of the ductless glands, the hormones, the vitamins and the enzymes; especially with the millions of enzymes which are directly concerned at the cellular level with the multitudinous activities comprising the life process. You see, once inside your body the vitamins take their proper place in a tremendously complicated scheme of life about which we actually know very little. They do not just work alone but they require other factors for them to be effective at all, factors like fats, minerals, hormones and so on. Only too soon the body becomes accustomed to their stimulating presence and when deprived of it, can sink to an unexpected and quickly felt lower level of well-being as attends all drug withdrawal.
We are only becoming more informed in this area of concern through microbiological studies. We really know very little about life within the cell. But what we do know strongly suggests that the indiscriminate taking of vitamins could and perhaps does disturb delicate internal nutritive balance resulting in metabolic confusion, a confusion which disrupts and diminishes efficiency of performance. Health is reduced commensurate to the imbalance.
Some vitamins, like the enzymes, are found in just about every living cell, plant or animal. Not all Vitamins however, are required by all animals but it does seem to be a requirement of life that the vitamins required by a particular kind of organism must be present at all times, each to play its own specific role as to time and place within that organic community. This is true, also, of man but, as we have noted, the vitamin role is secondary rather than primary, that of assistant, not instigator.
2.13 Human Guinea Pigs
Vast realms of the human life motif are yet to be explored and resolved in finality. Millions of people who are presently taking vitamins are willing guinea pigs in a vast experiment, the results of which are, by the measure of things, completely unknown and unpredictable in the absence of long-term and precise evidence.
Those persons who enthusiastically promote mega-dosing of vitamins do so on the basis of evidence that is often misleading because it is insufficient on many grounds and often misinterpreted. For example, hamsters which developed lung cancer due, in part, to exposure to smog and cigarette smoke were given Vitamin A and, according to the researchers, the development of cancers was halted. These results were interpreted to mean that dosing with Vitamin A helped to prevent the cancers from arising.
Since it takes years of body mismanagement and a multitudinous number of physiological errors to produce, as a final conclusion of the pathological process, the condition of true cancer, this was certainly a simplistic assumption to make, especially in view of the fact that, to the present at least, there are no known methods of accurately determining exactly what else is going on in the recesses of an experimental subject. It may well be that the drugging effect of suppressing symptoms may be operational within cells to be stimulated at a later date to an unhealthy derangement of cellular growth. Vaccinations prevent symptoms from arising through the toxicosis and unhealthful practices continue. Disease continues its evolutionary ways and manifests itself years later, often in more horrendous ways.
It is said that autopsies reveal that vitamin deficiencies are widespread, not only in other parts of the world; but here in America in the face of an abundance of readily available food. This is the rationale which is used to promote vitamin dosing. Little or no attempt is made to inform the public as to the realities of organic existence, to ascertain what errors are being made in eating and living that produce vitamin deficiencies in the first instance. Instead, the populace is lulled into believing that they can continue to eat a la their television instructions, to eat “junk” food, in fact to disobey all natural organic law and, in spite of their indiscretions, maintain a lasting health. Manifestly, this is impossible. They are being stimulated, propped up and goaded into a false sense of security, instead of being encouraged to partake of nature’s grand packages which contain all the vitamins man could ever need or want.
2.14 The Living Plant as Provider
The living plant is the only organism which can synthesize vitamins, though animals create some vitamins too. This fact means, in effect, that all animals are dependent upon the vegetable kingdom for their vitamins. It is true that some animals can take the immediate predecessor, the precursor of the vitamin, the provitamin, and from it complete the synthesis of the vitamin itself as, for example, man can take the carotene provided by the carrot and also in other vegetables and by a series of changes, chemical in nature, convert it into Vitamin A. To a limited extent, man is also capable of storing up vitamins in his liver and elsewhere within his body, these being included among his adaptive reserves, held in readiness for times of unusual need.
Another point of interest in this discussion is the fact that plants which have the highest mineral content also have a high content of vitamins and that the particular part of the plant which is richest in minerals is also richest in vitamins. In other words, it would appear that nature is telling us that the life processes which favor the appropriation of minerals by the plant also favor the synthesis of vitamins and that perhaps because all of nature is so symbiotically intertwined that the carefully proportionated relationships displayed by plants designed for man’s consumption might also be most favorable to body processes in the human who eats of the plant.
The darker the color of the plant, the higher its vitamin and mineral content. When leaves of plants are exposed to many days of suitable sunshine, they are more abundantly endowed both with vitamins and minerals. This fact seems to tell us something: namely, that insofar as both plant and animal existence is concerned, there is a relationship existing between the vitamins and minerals, a precise balance in each plant and, indeed, in each part of the plant. It would appear reasonable to assume that, if we desire a maximum vitamin-mineral intake, we should eat of those foods that are well exposed to the sun; we should choose foods which grow above the ground for a well balanced nutrient pool and, to conserve body energy, we should concentrate on those foods that not only contain valuable nutrients but are also easy to digest and do not possess known irritants. A plant having the highest vitamin value may not necessarily be good for man to eat. A single example should suffice to illustrate this point: hot red chili
peppers (raw) per 100 grams contain 21,600 units of Vitamin A as compared to a luscious ripe peach of similar weight which yields only 1,330 units.
Vitamins are found in all vegetables and fruits that serve as food for humankind and in adequate quantities. The amounts are small by our way of thinking. But nature seldom errs, we can reasonably infer from this fact that the human body’s systemic need for vitamins is probably “very small.” This concept, of course, has been borne out by considerable research using radioactive additives in cell studies, these being traced in their progress and utilization by means of high-powered electronic microscopes. Additionally, the theory seems reasonable also by virtue of the fact that the role played by vitamins in the living body, while essential, is still limited to that of being regulators of activity and also because they share this responsibility with the hormones.
We, the authors, have not used manmade vitamins for many years now but our health continues to improve and our energy flow does not seem to be disrupted by our abstention. An overkill of any single nutrient factor can destroy the delicate relationship among and between all nutrients and, it might well be disruptive of endocrine performance.
2.15 Overkill
Let us postulate what overkill may do. We have established the symbiotic companion action of hormones, enzymes and vitamins. Whenever hormones are not present, the production is shut off. This is known as hormonal feedback. The danger of disturbing hormonal feedback is always present when vitamins are introduced in excess of systemic need because of the stimulating effect they are known to have.
There is a precise relationship among and between the various endocrine glands under the planned instigative control of the hypothalamus-pituitary twin glands. An intelligent dictatorship determines the outflow of hormonal secretion and the stoppage of same according to the need to instigate some kind of action within the body (to use a common example, flight in time of danger) or to stop an operation in progress (for example, insulin production). The possibility arises that the presence of an excess of vitamin input which also serves, we must remember, as a regulator could disrupt the precise management of metabolic activity and perhaps even overstimulate, producing undesirable effects, the so-called side-effects of drugs which are, after all, regular effects, always present but not always discernable. At the very least, any excess input can accelerate the biological clock.
As we have said many times, our knowledge of the biochemical goings-on within the human body are still in the pre-kindergarten stage and we place ourselves in jeopardy when we start tinkering with the body’s finely tuned processes, when we pre-judge an unknown systemic need and ingest via the oral cavity or inject into the blood stream extraneous manmade substances of doubtful value, no matter if they are touted as being obtained from a natural source, they are not natural in the real sense.
In the light of our present lack of any accurate knowledge as to the exact dosages required (the government-recommended RDA’s are, at best, an over-liberal (and over-lethal) guesstimate), the problem always remains as to exact need human organism can determine this with any degree of accuracy.
While minimum daily requirements for individual vitamins have been put forth, there has, to date, been no absolute test to evaluate relative vitamin needs; that is, we do not as yet have a reliable understanding of the proper proportionate values of one vitamin to another or of each to all and, again, to the hormones with which they share certain responsibilities. Surely, these values must change from, individual to individual according to metabolic efficiency. It appears all but impossible to predetermine the exact need of any one individual, let alone people in general, this certainly being a variable as metabolic circumstances fluctuate and change. Also, another point deserving our attention is that manufacturers of vitamins necessarily must use chemically pure vitamins for the most part. If they used only naturally derived vitamins, their pills would be too large for us to swallow. Natural foods contain too small amounts of vitamins to formulate heavy drugs. Additionally, they find it necessary to add a “carrier” to make their products more acceptable to the palate and to bring their product up to an exact pre-determined standard. We have no way of knowing the precise effect these chemical carriers may have on the system. It seems more in keeping with nature’s plan for living to take vitamins as contained in nature’s offerings where they are in organic context.
Since we know that the human body is a finely-tuned masterpiece and that simple maladjustments often present serious health hazards, this matter of vitamin proportions and relationships, as well as further consideration of carriers, could well be more important than has yet been realized. People have been dosing themselves and their children now for a considerable time with multitudinous kinds of vitamins and vitamin combinations, often in extremely large doses. If vitamins were the panacea to all health problems as they are so often represented to be, surely during the last half century we should have witnessed a phenomenal improvement in the health of the people but, unfortunately, the contrary appears to be true.
Arnold Fox, M.D., assistant professor of medicine at the University of California at Irvine Medical School and a lecturer at the Charles Drew Medical School, stated in an article published in Let’s Live Magazine (June 1982) that he is now “treating the 20- and 30-year old children of my patients. These children are, on the average, as sick as their 50, 60 and 70-year-old parents…” To be sure, the deterioration in the health status of these children has been brought about by many factors but it is certain that the taking of multiple doses of vitamins, numerous vaccinations and other well publicized “preventive” measures has not prevented systemic deterioration; instead, it may well have accelerated it.
It would appear obvious to any discerning person that the answer to rapidly deteriorating health does not lie in taking pills, potions or injections. Most of the recommendations for supplementary vitamin usage have come about through experimentation on animals in a controlled environment situation. These experiments show results for a particular species of animal under the controlled circumstances, not as they might be in the wild.
Furthermore, the species of animal on which the tests were made may or may not bear great biological relationship to humankind and certainly the controls operational in a laboratory situation can bear little relationship, if any, to the stress-wracked frenzied, emotion-charged life of the average person today whose metabolic activity is being constantly monitored by the endocrine gland and nervous systems.
Additionally, the experiments, by and large, have been of too short a duration to be valid. Being scientific researchers ourselves, we can say that “they” assume too much on too little evidence. It has long been known that it takes four or five generations to evaluate a dietary change. Consequently, the tests, as Herbert M. Shelton so well points out, are applicable only to the animal in question (under precise circumstances and conditions, we might add) and are not “strictly and broadly applicable to man.” They might not even be strictly and broadly applicable to the same animal under other circumstances.
Sylvester Graham in his Lectures pointed out that there is similarity of function and application of principles throughout the animal kingdom, but that there are also fundamental differences from species to species. These fundamental differences make all animal experimentation suspect. The assumption of an accurate response may not always be confirmed in the revealing light of subsequent reality.
Experiments can be designed in such a way that they will produce a desired or hoped-for result. Much of the research presently being conducted is subsidized research, paid for either by government, organized groups, or commercial companies having a vested interest in certain results. Persons receiving subsidized grants, many involving enormous sums, might possibly be inclined to slant the results of their research, even without their being consciously aware of their thrust, in order to please their sponsors and keep the money bank open.
2.16 The R.D.A.’s
The average man weighing 160 pounds contains within his entire body just about 1/4 ounce of vitamins. Now it takes approximately 28 grams to equal one ounce, so this means that, if we add up all the many different kinds of vitamins in the average man’s entire body, we would have only about 7 grams total, including all the reserve supplies, those that are stored up in the tissues and organs for emergency purposes, particularly in the liver and kidneys.
The R.D.A.’s (The Recommended Daily Allowances) are about double (in some cases even more) the estimated minimum requirements, which many scientists admit are not easily determined. In other words, these figures are no more than guesstimates. In fact, some scientists contend that, while extra vitamins may be needed to correct certain deficiency diseases in extreme circumstances, normal persons do not require supplementation since a good diet provides amply for all such needs.
Certainly their ideas as to what constitutes a “good” diet may differ from our own, but even so, the Food and Nutrition Board, a division of the National Research Council (organized by the National Academy of Sciences) postulates that the average adult eating a well-balanced (comprised of the appropriate amounts from each of the four basic food groups) diet will receive 7,500 International Units of Vitamin A. The R.D.A. for Vitamin A is only 5,000 units.
There is no need whatever for any person on a Hygienic diet to harken to the siren call of the paid hawkers of commercial wares—synthetic vitamins. Nature has provided well for all of us. Many millions of people lived in health for centuries before Dr. King concluded his monumental experiments at the University of Pittsburgh and isolated Vitamin C from lemons. Any real student of health knows that the chemist and/or the manufacturer cannot put life and health into a bottle of pills. Neither can the life force resident within a plant be extracted and compressed into a capsule and still be viable.
If you eat fresh uncooked fruits and a limited amount of fresh leafy vegetables, a few nuts and edible seeds, you will take in many times the recommended amounts, not in synthetic isolated vitamins to stimulate and accelerate organic response beyond its norm, but rather in desirable metabolically correct combinations with other nutrients, nature’s bio-chemical partners.
2.17 Vitamins and “Cures”
There are many so-called “cures” attributed to vitamin “therapy,” just as there are many so-called “cures” attributed to this or that drug. To say that vitamins can “cure” an existing malfunctioning within a sick body is to admit ignorance of the nature of disease and is an admission of commonality with the drugging practices of the vast majority of medical practitioners.
The giving of vitamins “therapeutically” or the introduction of drugs orally or by injection in the hope of favorably influencing the progress of a certain disease is a serious error because, in reality, we do not cure but simply suppress the curative actions already in progress within the system, these having been initiated by the organism itself. The suppression of the symptoms is what is normally accepted as a “cure,” but, unfortunately, the cure represents only a temporary surcease until utility is recovered.
Whenever any unwanted or foreign material is thrust into the system, all vital powers of the organism that can possibly be spared from vital processes must be employed in rendering it harmless. This effort, when continued for any length of time, actually results in changing an acute crisis of healing, one that is usually of a comparatively short duration, into a chronic disease which the body will conduct unceasingly. Chronic problems often result in acute crises that can even bring an end to life itself.
Drugs have been used for thousands of years of man’s existence to relieve hurts and to “cure” diseases. Man has a tendency to hold fast to his habits even though they be destructive of his very life and it is this tendency that causes man to seek “cures” rather than to determine the root of his troubles and then change, discard, modify or remove that which tends to destroy him.
We are just now beginning to understand the dangers inherent in all drugging. And, make no mistake, the vitamins of commerce act in exactly the same manner as drugs. They occasion body defensive actions. The toll from iatrogenic diseases (drug-related) has gone beyond the point of toleration by an enlightened public.
The toll exacted from drugs often rears its ugly head in countless unnecessary deaths and in the form of mutations in infants which must be destroyed in utero at birth and relegated to the garbage heap; in cancerous tumors which come in second and third generations; as well as in numerous less distressful symptoms soon forgotten. What the effect of our present vitamin stimulation craze may yet prove to be is a total unknown. We have no way of following successive generations of long-living humans to make a liable assessment.
Vitamins are drugs. Using vitamins is similar to drugging. The body reacts to vitamins just as it does to any harmful substance: it goes into defensive action. The pills can do nothing except perhaps enter into a chemical action of some kind. We should remember that building health is harmonious body effort, not a defensive action. Life is either “cumulative or dissipative, never static.” Simply taking this vitamin or that vitamin pill will never, by any stretch of the imagination, get at the root cause or causes of a deranged body. It will never render the thickened viscous fluids of the hypertensive patient (one who has high blood pressure) pure and free-flowing; it will never heal a damaged heart, gallbladder or spleen.
The system, of course, learns to tolerate the vitamins, and the stimulation they provide often makes the person taking them feel “good;” but the good they give wears a false fact, a facade that cheats, since it is the result of excitation, not health. Unfortunately, an excitation is gained at the expense of loss of vital power, power that, once lost, can never again be wholly retrieved. Only too soon, the false face fades, revealing the cruel reality of premature aging and its companion, ugly disease.
2.18 Life Science Is a Better Way
Life Science is a better way. Any person who desires the full joy of abundant health must either grow his own produce or have access to fresh fruit and vegetables, preferably organically grown, either by himself or available to him freshly picked from another source. Synthetic vitamins are divorced from their natural carriers and cannot be depended upon to build health. Life Scientists put their trust in Nature’s ways. Nature gives us a guarantee!
We can save on other things, if need be, but if we desire the best of health, we should have access to and use only the best quality of food. And, even better, we should plant our own garden of vegetables and a variety of fruit and nut trees. We should become activists and encourage the public to plant fruit and nut trees to adorn our highways, parks and roads. As Otto Carque said, “to provide food for generations to come.”
As Life Scientists, we should feast on the fruits of our labor, harvesting beautiful vegetables, fruits and nuts at the peak of perfection, ready not only for our gustatory enjoyment and delight but also to provide amply the wherewithal for living always in a state of superb health, without our ever having to rely on synthetic man-made products, the effect of which we have no fool-proof way of evaluating. We should, above all, emphasize in our diet those most perfect of all foods, the luscious ripe fruits, fruits endowed with all the nutrients we could ever require to sustain us in perfect health throughout a lifetime of sickness-free living, always retaining a keen awareness of the universe around us and keeping in tune with the realities of life until the time comes when the life force gently slips away.
- 1. Presenting The Universal Problem
- 2. Vitamins
- 3. Minerals
- 4. Enzymes
- 5. Other Supplements
- Article #1: Disease, Stimulation and Therapeutics – A Question of Consistency
- Article #2: The Law of Stimulation
- Article #3: Patients Dilemma: Who’s Taking Care of Them? By Mrs. Elizabeth McCarter
Raw Food Explained: Life Science
Today only $37 (discounted from $197)
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