Wednesday, July 7, 2021

Part 7 : Human Body's Cries For Water

They don't  know  when  they  are  thirsty;  they also  don't know  the  difference  between  "fluids"  and  "water." 

Let  us  discuss the  letters from  Mr.  Peck,  Mr.  Paturis,  Priscilla  Preston,  and  Donna  Gutkowski  that  follow. All  of them stated they lost between 30 and 45 pounds in weight when they switched to water as their preferred beverage. There is another person who gradually lost 58 pounds in less than a year, weight she had gained in six years. As you read on, you will see how simply we gain weight. You would think it "simplistic" if you did not have the proof in front of you. 

The central control system in the brain happens to recognize the low energy levels available for its functions. The sensations of thirst or hunger also stem from low, ready-to-access energy levels. To mobilize energy from that which is stored in/the fat, one needs hormonal release mechanisms. This process/takes a while longer (and some physical activity for energy release) than the urgent needs of the brain. The front of the brain either gets energy from "hydroelectricity" or from sugar in blood circulation. Its functional needs for hydroelectricity are more, urgent—not only the energy formation from water, but also its transport system within the microstream flow system that depends on more water. 

Thus, the sensation of thirst and hunger are generated simultaneously to indicate the brain's needs. We do not recognize the sensation of thirst and assume "both indicators" to be the urge to eat We eat food even when the body should receive water. In these people who lost weight, by drinking water before eating food, they managed to separate the two sensations. They did not overeat to satisfy an urge for the intake of water.

 Overeating Further Explained 

The human brain is roughly 1 /50th of the total body weight. It is said to possess about nine trillion nerve cells (computer chips). Brain cells are said to be 85 percent water. Twenty percent of blood circulation is allocated and made available to the brain. This means that the brain gets to pick and choose from the circulating blood what is needed for its normal functions. The brain is the only part of the body that is constantly active. It processes all information from different parts of the body, as well as that which enters it from daily exposure to physical, social, and electromagnetic environment. 

To process all these inputs and alert all parts of the body for coordinated response, the brain spends a vast quantity of energy. At the same time, it spends energy in manufacturing primary ingredients and different brain chemical messengers (neurotransmitters) that are made in the brain cells and have to be transported to the nerve endings wherever they are. The transport system uses a vast quantity of energy. This high rate of energy consumption by the brain is the main reason why it receives about 20 percent of blood circulation. 

Brain cells stockpile energy in two main forms: ATP and GTP reserves—like the coal and coke dumps next to power plants. Certain actions are supplied with energy from ATP stockpiles that are located in different parts of the cell, mainly within its membranes. The cell membrane is where the information enters and where an action is initiated. There is a system of energy rationing in operation in each cell. Not all stimulation will achieve an allocation of energy from the ATP stockpile to get registered and invoke a response.

 There is a threshold for energy release for some "inputs." The brain calculates and understands what is important and what is not for its energy expenditure. When ATP reserves are low, many stimuli do not invoke a response. This low ATP reserve in some overactive brain cells will become reflected as a fatigue state in functions controlled by those brain cells. Exactly the same process is in operation for the GTP stockpiles. In certain emergency actions, some energy from GTP stockpile can be diverted to boost the ATP stockpile to sustain some of the most essential functions that would otherwise suffer from lack of local energy. 

Storage of energy in the brain's energy pools seems to rely heavily on the availability of sugar. The brain is constantly drawing from the blood sugar to replenish its ATP and GTP stockpiles. Recently it has been discovered that the human body has the ability to generate hydroelectric energy when water, by itself, goes through the cell membrane and turns some very special energy generating pumps; very much like the hydroelectric power generation when a dam is built on a large river. Thus, the brain uses two mechanisms for its energy requirements: One, from metabolism of food and formation of sugar: two, from its water supply and conversion of hydroelectric energy. It now seems that the brain depends very extensively on energy formation from "hydroelectricity," particularly for its transport system in its nerve supply to different parts of the body. 

To satisfy the brain's requirements, the human body has developed a very delicate balancing system to keep a normal range of sugar concentration in the blood. It does this in two ways. One, by stimulating the intake of proteins and starchy foods that it will convert to sugar, in addition to the sugar in the diet; two, by converting some starch and proteins from stored reserves of the body into sugar. This latter mechanism is called "gluco-neo-gene-sis." It means remaking of sugar from other materials. This re-manufacturing of sugar for use by the brain is done in the liver. The dependence of most brain functions on energy from sugar has developed a satiety or pleasure association for the sweet taste. It has established a certain coding system for coordination of functions by the other organs, particularly by the liver when sweet taste stimulates the tongue. When there is not enough sugar in circulation, the liver begins to manufacture it and constantly tops up blood levels by the addition of more sugar. At the beginning, it will convert stored starch, followed by proteins and small quantities of fat. Fat conversion is a very slow process. The body needs to go without food for some time before a higher rate of fat metabolism is established. Proteins are more accessible and broken down more easily than fat. Fat deposits are made up of many single units of "fatty acids" joined together. It is the individual fatty acids that are broken for their energy value. Each gram of fat gives nine calories of energy. Each gram of protein or sugar provides only four calories of energy. This is the reason, when fat is metabolized, a person is far less hungry. 

In children, fat stores are brown in color and have much blood circulation in them. In brown fat, fat is metabolized directly and heat is generated. In later years of life, fat stores have less blood circulation and are less accessible to the enzymes that would mobilize the fatty acids for conversion in the liver and the muscles. When muscles are inactive, they are more easily attacked and their protein is broken down for conversion into sugar. However, if muscles are used, they begin to metabolize some of their stored fat as a choice source of energy to do work and maintain or increase their bulk To do this, they begin to activate a fat-breaking enzyme called "hormone sensitive lipase." It has been shown in repeated blood tests in Sweden that this enzyme's activity is seen after one hour's walk and retains its fat-breaking activity for 12 hours. Once muscles begin to use fat, more sugar will become available to be used by the brain. 

With repeated walks, activity of the fat-burning enzymes become much more pronounced. Thus, a component of any dieting program should be muscle use for its long-lasting, primary and direct physiological effect on fat breakdown. It is this enzyme in blood circulation that will also clean all blood vessel walls of fatty plaques and deposits. It was this physiological response of the body to walking that reversed the health problems of Mr. John Fox. Increased water intake gave him energy and stamina and walking stimulated the enzymes that cleared his arteries. 

Office work and desk jobs in our modern way of life are only a cultural transformation. The body physiology has not yet transformed sufficiently to accommodate for this functionally abnormal use of the human body. The human body still needs muscle activity to maintain normal functions. If the body functions normally, it will know when to eat and how much to eat without storing fat. Every part of the body will use its share of energy supply for efficient and wellcoordinated functioning. This is what it is designed for.

 However, if the brain is used more (in times of stress) and the body is not used proportionately to supply the brain with its sugar needs, a less-disciplined person will give in to eating more often and in larger quantities. It becomes more dramatic if one does not recognize the other thirst signals of the human body when it needs water for its energy supply, when in place of drinking water by itself more food is consumed. In stress, the body becomes dehydrated. The reason we tend to gain weight is one simple fact: we eat to supply the brain with energy for its constant round-the-clock activity. However, when food is eaten, only about 20 percent of it reaches the brain. The rest will gradually become stored if muscle activity does not use up its allocated portion. With water as a source of energy, this storage does not happen. Excess water is passed out in the form of urine. 

Diet Sodas Can Cause Weight Gain 

My observation has been that diet sodas (all variety of manufactured soft drinks are called soda instead of using the label on the drink), even though containing no appreciable number of calories, are possibly the cause of more weight gain in people who resort to taking them to control their weight. One person stands out: A young man in his twenties, about 5' 5" in height. lake most college students, he used to drink regular sodas while under constant pressure for completion of his studies. He had already gained excess weight by the time he graduated. 

After graduation, to reduce weight, he began drinking eight cans of diet sodas per day. In about two years, he must have gained another 30 pounds. He seemed to get as round as he was tall. His walk became difficult, and he seemed to have to swing his hip to take a step. He also drank his diet soda at mealtimes and ate more than his body needed. He still consumes his diet sodas—he seems to be addicted—and, despite all other efforts, continues to be overweight. 

This paradox in our understanding of the relationship between taking a sweetener that does not directly contribute to the total calorie intake of the body and weight gain needs explanation. The following is the result of my research into this enigma. There are many such persons who resort to taking diet sodas and, instead of losing weight, they begin to gain it. The transcript of a testimonial from Donna Gutkowski, who for years only consumed sodas and steadily gained weight regardless of anything else she did to shed the excess pounds, will also follow. 

In America in 1850, about 13 ounces of soda were consumed per person per year. In the late 1980s, more than 500 twelve-ounce cans of sodas were consumed per person per year. 

The 1994 annual report of the beverage industry shows that per-capita consumption of sodas is 49.1 gallons per year. Of this amount, 28.2 percent of consumption is the share of different diet sodas. Diet soda consumption is beginning to decline. Eighty-four percent of all sodas consumed belong to two companies (Coca-Cola 48.2 percent and Pepsi-Cola 35.9 percent). Of this 84 percent share of market and their different labels manufactured, only 5.5 percent are caffeine-free diet sodas. These figures indicate that a vast number of people are drinking caffeinated sodas, of which 22 percent consists of diet sodas. 

A survey at the campus of Pennsylvania State University has shown that some students drank 14 cans of soda a day. One girl had consumed 37 Cokes in two days. Many admitted they could not live without these soft drinks. If deprived, these persons would develop withdrawal symptoms, very much like those addicted to other drugs. Boys Life magazine surveyed its readers and found that eight percent of them drink eight or more sodas a day. The administrators of one Boy Scout Jamboree had collected 200,000 empty cans for recycling. The Soft Drink Association surveyed the use of soft drinks in hospitals in America and found 85 percent of them serve sodas with their patients' meals. Research has shown that caffeine is addictive. The media, to placate a beverage industry that spends vast sums of money for advertising its products, have come up with a less expressive word to announce the news. They call it "caffeine dependency." 

When consumption of sodas is encouraged by society, it is assumed these manufactured beverages can replace the needs of the body for water. It is assumed, just because these beverages contain water, the body will be adequately  served. This assumption  is  wrong.  This broad-base  increase  in  consumption  of  mainly  caffeinecontaining  sodas forms  the  background  to  many of  the  health  problems of  our  society. The  mistaken  assumption that  all  fluids  are  equivalent to  water  for  the  water  needs of  the  human  body  is the  main  cause  of many of  the  ills of the  human  body,  and  it  is frequently associated  with  the  initial  excessive  gain  in  weight.  To  understand  the  above statement,  we  need  to  recognize  some  simple  principles of  anatomy  and  physiology  of  the  brain  that  regulate  eating and  drinking.

 The  confusion  that  all  manufactured  beverages will  supply  the  body  with  its  daily  water  needs,  more  than  any  other cause,  is responsible  for  some  of  the  diseases  that we  encounter.  Gross  disfigurement  of  the  body  by  fat  collection is  the  initial  step  in  the  decline  of  the  human  body,  and  in  my  opinion  is caused  by  the  wrong  choice  of fluids  intake. Some of  these  beverages do  more  damage  than  others.

 Caffeine,  one  of  the  main  components  of most  sodas, is  a  drug.  It  has addictive  properties because  of  its direct action  on  the  brain.  It  also  acts on  the  kidneys  and  causes increased  urine  production.  Caffeine  has  diuretic properties. It  is physiologically  a  dehydrating  agent.  This  characteristic is the  main  reason  a  person  is  forced  to  drink so  many  cans of  soda  every  day  and  never  be  satisfied. The  water  does not  stay  in  the  body  long  enough.  At  the same  time,  many persons confuse  their feeling  of  thirst  for  water.  Thinking  they have  consumed  enough  "water"  that is  in  the  soda,  they  assume  they  are  hungry  and  begin  to  eat  more  than  their  body's need  for food.  Thus, dehydration  caused  by caffeine-containing  sodas, in  due  time,  will  cause  a  gradual  gain  in  weight  from  overeating  as a  direct result  of  confusion  of  thirst  and  hunger  sensations. 

Caffeine  has "pick-me-up"  properties. It  stimulates the  brain/body even  when  a  person  is  exhausted!  It  seems  that caffeine  lowers the  threshold  of ATP stockpile  control.  Stored  ATP is  used  up  for  some  functions that  would  not normally  gain  access to  it  when  there  is  a  set  level  of  reserves.

 When  sodas  contain  sugar,  at least  some  of  the  brain's need  for sugar  is  satisfied. If  caffeine  is  releasing  ATP energy  to  enhance  performance,  at  least  its  sugar  companion  will replenish  some  of  the  lost ATP,  even  if  the  final result  is  a  deficit  expenditure  of ATP by  the  brain.

 In  early 1980s,  a  new product  was introduced  into  the  beverage  industry—an  artificial  sweetener  other  than saccharin.  It  is  called  aspartame.  Aspartame is  180 times as  sweet as  sugar  without  any calorie output. It  is now  in common  use  because  the  Food  and  Drug  Administration  (PDA)  has  deemed  it  safe  to  use  in  place  of sugar.  In  a very short period  of  time, it  has been  incorporated  in  over  5000  recipes. 

In  the  intestinal  tract,  aspartame  converts to  two  highly  excitatory  neurotransmitter amino  acids: aspartate  and phenylalanine,  as well  as methyl  alcohol/formaldehyde—wood  alcohol.  It  is  claimed  the liver  renders  methyl  alcohol non-toxic.  I  personally think  this  claim  is  made  to  brush  aside  voiced  objections  for commercialization  of  a manufactured  "food"  that  has a  known  toxic byproduct

If  caffeine  converts ATP to  AMP,  a  spent  energy  "ash,"  aspartate  converts GTP energy  stockpile  to  GMP. Both  AMP and  GMP  are  spent  fuels;  they  cause  thirst/hunger to  replace  the  lost  fuel  stockpiles  in  the  brain  cells.  Thus,  diet sodas cause  indiscriminate  overuse  of energy  reserves  of  cells in  the  brain. 

It  is a  well-recognized, scientific fact that  spent  fuel  (AMP)  does cause  hunger.  Caffeine  causes  addiction,  and people  who  consume  it  on  a  regular  basis  should  be  assumed  to  be  "sodaholics."  Hence,  caffeinated  diet  sodas in sedentary  persons  must  cause  weight gain;  they  indirectly  stimulate  more  food  intake  because  of  the  brain's  forced use  of  its energy  reserves. Bear  in  mind  that only some  of  the  energy  value  of  foods eaten  will  be  used  by the  brain. The  rest  of the  consumed  energy will  be  stored  in  the  form  of fat  if  not  used  by muscle  activity.  This weight  gain  is one  of  many  results of  diet  soda  consumption. 

The  more  important  reflex  that  occurs  is a  brain  reaction  to  sweet  taste.  The  jargon  used  is "cephalic phase response."  A conditioned  reflex  becomes established  as  a  result  of  life-long experience  with  sweet  taste that is associated  with  the  introduction  of  new  energy  into  the  body.  When  sweet  taste  stimulates the  tongue,  the  brain programs the  liver  to  prepare  for acceptance  of  new  energy—  sugar—from  outside.  The  liver,  in  turn,  stops the manufacture  of  sugar  from  the  protein  and  starch  reserves of  the  body  and  instead  begins  to  store  the  metabolic fuels  that are  circulating  in  the  blood.  As Michael G.  Tardoff,  Mark  I.  Friedman,  and  other  scientists have  shown, cephalic phase  responses  alter  the  metabolic  activity in  favor  of  nutrient  storage;  the  fuel  available  for  conversion  is reduced  which  leads  to  the  development  of  appetite. 

If  it  is indeed  sugar  that stimulates  the  response,  the  effect on  the  liver  will  be  the  regulation  of  that  which  has entered  the  body. However,  if sweet  taste  is not followed  by  nutrient  availability,  an  urge  to  eat will  be  the  outcome. It is  the  liver that  produces the  signals and  the  urge  to  eat  The  more  sweet  taste  without the  accompanying  calories that  stimulates  the  taste  buds,  the  more  there  is  an  urge  to  eat—overeat. 

The  effect of  cephalic phase  response  to  sweet taste  has been  dearly  shown  in  animal models with  the  use  of saccharin.  Using  aspartame,  several  scientists have  shown  a  similar  urge  to  overeat  in  humans.  Blundel  and  Hill have  shown  that non-nutritive  sweeteners—aspartame  in  solution—will  enhance  appetite  and  increase  short-term food  intake.  They  report:  "After ingestion  of aspartame,  the  volunteers were  left  with  a  residual  hunger  compared with  what  they  reported  after glucose.  This  residual  hunger  is functional,  it leads to  increased  food  consumption." Tardoff  and  Friedman  have  shown  that this urge  to  eat  more  food  after artificial  sweeteners can  last up  to  90 minutes after the  sweet  drink;  even  when  all  blood  tests show  normal  values.  They  showed  that  even  when  blood levels  for insulin, the  higher  readings of  which  is thought  to  be  the  cause  of  hunger,  achieved  normal levels  test animals consumed  more  food  than  the  control  batch. What  this  means is that  the  "brain"  retains for  a  long  time  the urge  to  eat  when  the  taste  buds  for  sugar are  stimulated  without  sugar having  entered  the  system.  The  sweet  taste will  cause  the  brain  to  program  the  liver  to  store  supplies rather  than  release  supplies from  its storage. 

Basically, this physiological  response  to  sweeteners without  their  accompanying  calories  that the  body  has been  told has entered  it will  compel  the  person  to  find  and  make  good  the  registered  marker  for energy  consumption.  This  is another  physiological  reason  why people  who  consume  diet sodas to  reduce  weight may  suffer  from  the  paradoxical response  of  their  body to  repeated  stimulation  of the  taste  buds with  sugar  substitutes. 

When  caffeine  and  aspartame  are  introduced  into  the  body,  they  will dictate  their  stimulating  effect  on  the  cell physiology  in  the  brain,  the  liver,  the  kidneys,  the  pancreas,  the  endocrine  glands,  and  so  on.  Aspartame  is converted  to  phenylalanine  and  aspartate.  Both  have  direct  stimulatory  effects on  the  brain.  The  sum  total  of  the effect  of  caffeine  and  aspartame  will very quickly establish  a  new  mode  of  activity  for  the  brain  just  because  they  are repeatedly available  in  larger  quantities  than  the  ones  that would  otherwise  establish  a  balanced  physiology. Most  neurotransmitters  are  secondary  products  from  one  or  another  amino  acid. However,  aspartate  is  one  of  a  pair of  unique  amino  acids that  don't  need  to  be  converted  to  a  secondary  product  to  act  on  the  brain  to  cause  an  effect. There  are  receiving  points (receptors)  for  these  two  stimulant  amino  acids  (aspartate  and  glutamate)  on  certain nerve  cells  that influence  body  physiology  very  dramatically. 

The  use  of artificial  sweeteners  for  their  false  stimulation  of  "nerve  terminals"  that register the  entry  of  "energy" supplies into  the  body  have  more  severe  repercussions than  simply  causing  increase  in  weight.  These  chemicals constantly  swing  the  body  physiology  in  the  direction  dictated  by the  nerve  system  they  stimulate.  Their use  without a  thorough  understanding  of  their  long-term  effects  in  the  body,  just because  they  also  pleasantly stimulate  the  taste buds,  is  shortsighted.  My  understanding  of  the  microphysiology  within  cells  causes me  concern  when  I think  of the routine  use  of  these  amino  acids.  I  worry  for  the  outcome  of  the  long-term  effect  of  the  direct  stimulation  of the nerve / glandular  systems  in  the  brain  with  these  chemical  sweeteners.  They  are  naturally  positioned  for  other important,  but  balanced  functions,  in  the  body. 

Research  has shown  that  receptors  for aspartate  are  abundantly present  on  some  nerve  systems  whose  products also  stimulate  the  reproductive  organs and  breasts. A  constant stimulation  of  breast  glands  without  the  other  factors associated  with  pregnancy may  well be  implicated  in  the  rise  in  the  rate  of  breast  cancer in  women.  The  hormone, prolactin,  may play a major role in this direction. One of the less explored complications of aspartame may be its effect  as  a  possible  facilitator in  cancer formation  in  the  brain.  Fed  to  rats,  aspartame  has  been  implicated  in  brain tumor  formation  in  experimental  animals. 

As an  analogy,  imagine  a  small  sail  boat that  is  going  from  one  nearby  port  to  another  and  has to  reach  its destination  before  dark  when  the  direction  of  the  winds is not  ideal.  If  the  sailor, instead  of  paying  strict  attention  to the  rules of  sailing,  gives in  to  the  pleasure  and  exhilaration  of  fast  sailing  with  the  wind, he  will  have  abandoned  his purpose  and  sailed  his boat  to  totally  different  and  unknown  shores, and  in  the  dark. The  odds are  that  he  and  his boat  will not  survive  the  trip. 

On  its journey  of  life,  the  human  body  is just like  a  sail  boat.  If  the  mind  abandons purpose  and  forgets the  design  of the  body,  and  gives  in  to  the  overstimulation  of  the  palate  with  artificial  and  non-representative  products (such  as spices),  in  the  long  run,  the  body  chemistry  may  not  be  able  to deal  with  constant  false  information  and not suffer damage. 

It  is primitive  and  simplistic thinking  that  one  could  easily  lace  water with  all  sorts  of  pleasure-enhancing  chemicals and  substitute  these  fluids for  the  natural  and  dean  water that  the  human  body needs.  Some  of  these  chemicals, caffeine,  aspartame,  saccharin  and  alcohol,  through  their  constant  lopsided  effect on  the  brain,  unidirectionally— single  mindedly—program  the  body  chemistry with  results  contrary  to  the  natural  design  of  the  body.  Very  much  like the  sail boat  in  the  dark that  will  get beached  in  uncharted  shores  if  its  sailor gives in  to  the  pleasures and exhilaration  of  fast  sailing  in  place  of  sticking  to  the  rules  of sailing  with  safety  in  mind, the  intake  of  wrong  fluids will affect  the  life  of  anyone  who  continually  consumes  them. 

As it  has been  explained  so  far, the  human  body  has  many  different  indicators when  it  runs  short  of  water.  At  these times,  it needs  only  water.  As  it  has been  explained,  it  will  complicate  matters if  one  gives the  body  artificial  tasteenhancing  fluids on  a  regular  basis  and  in  full  substitution  of  the  water  needs  of  the  body. 

One  should  remember  that  caffeine  is similarly an  addictive  drug,  the  use  of  which  has become  "legal."  Children,  in particular,  become  vulnerable  to  the  addictive  properties of  these  caffeine-containing  beverages.  Stimulating  the body  at  the  early  stages  of  life  of  a  child  with  pleasure-enhancing  chemicals  in  beverages,  in  some  will program  the senses to  use  harder  addictive  drugs  when  they  reach  school age. 

Thus,  the  long-term  and  constant  use  of  sodas  in  general,  and  diet  sodas  in  particular,  should  be  assumed  to  be responsible  for  some  of  the  more  serious health  problems of  our  society.  Distorting  the  physical appearance  of  the body  as a  result  of  excess fat  storage  is the  first  step  in  this direction. Some  manufactured  beverages  should  only be  used  sparingly,  if  at all,  by  younger  people, when  the  right  programs  for  the  future  health  of  a  child  is  the  aim  of parents. 

Dr.  Marcia  Gutkowski  is a  nutrition  consultant.  After  reading  my  book, she  convinced  her  daughter  Donna  to  begin changing  her  habit  in  fluids  intake.  The  result  has astounded  the  mother  and  daughter.  

The  following  is the transcript of  Donna's  testimonial. 

Dear  Dr.  Batmanghelidj 

April 25,1994 

My mother asked, that I write to you and tell you about my recent weight loss success. I know that I could have a much more successful loss if I would follow your formula and curb my eating habits, along with starting a regular routine of exercise. However just getting myself to get off of 6 to 8 cans of Mountain Dew a day is a miracle in itself. Within the last 9 months to a year, I have successfully been able to keep 35 excess pounds of baggage off. I am able to wear clothes that I thought would never touch my body again. I also have just about reached my goal size for my upcoming wedding. Even my fiancé had to admit that lam looking much better than when he first met me five years ago. 

My success has been contributed to faithfully drinking 1/2 my body weight in ounces in water every day. Wherever I go, so does my water. To work, shopping, even my long 7 hour long car rides. (That does make for a lot of rest area stops, but they are worth it.) I do treat myself to an occasional mineral water or beer when I go out, but I have usually gotten my quota of water in for the day. 

One interesting thing that I have noticed however is that once I have finished drinking my quota of water, I have absolutely no desire to drink anymore. Also I have found that I'm not thirsty anymore and it will usually take me awhile to drink some other type of beverage whether it be juice, milk, beer, mineral water, etc. 

I am looking forward to October 1st which is my wedding day when I can walk down the aisle looking better than I have looked in 15 years, since I graduated from high school. It will also be nice to put my weight on my new drivers license without having to cringe for the first time in my life. Thanks for the smaller me!!!! 

 Donna M. Gutkowski 


It is now February of 1995. Donna is happily married. By the time of her wedding in October 1994, she had lost over 40 pounds. 

This science-based way of weight loss will be permanent, whereas with only food limitation, even if some weight is lost, it is regained in a short period of time. Worse still, one is constantly hounded by the fallacy of needing to limit this or that food, particularly on the subject of cholesterol content of food, a temporary present-day vogue. Do not be shocked. Contrary to present trends for exclusion of eggs from daily diet, I eat as many eggs as I feel like eating— no limitation whatsoever; eggs have a well-balanced protein content. I also happen to understand how excess cholesterol formation in the body is associated with prolonged dehydration. 

Priscilla Preston's letter on the next page further explains the relationship of dehydration, not only to weight gain, but to the more devastating problem of asthma, the subject of the next chapter. In taking steps to prevent asthma, she managed to lose 35 pounds. Another important point in her letter is the role of salt in disease prevention. Salt is important to the body. Salt sensors on the tongue, when strongly stimulated, remove the body's anxiety and stop it from panicking for water. When salt is available, the body is at least assured of an efficient water filtration system for its emergency supply to the important cells. You will read more about salt in chapter 12. 

Please bear in mind, these letters are real-life stories. They are not "anecdotes." We do not need statistics to convince people of the efficacy of water, when the body is demonstrating an urgent need for it. Whose fault is it that the human body's regional calls for water, and its programs of adaptation to dehydration, have been labeled as disease conditions? Is there any plausible reason why, for evaluation of natural treatment procedures, we should adhere to the self-serving methodology and the yardstick of the pharmaceutical industry? Their inaccurate assertions have until now caused so much pain and agony for people whose bodies were only crying out for water! 

 

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