Essential Elements
MAJOR
MINERALS, TRACE MINERALS AND TISSUE SALTS
The
human body reduced to its simplest form is a small pile of ashes. The carbon,
hydrogen, oxygen and nitrogen from protein-rich tissues and carbohydrate (or
fat stores) have dissolved into the air or evaporated as water, leaving only
the minerals. These “mineral ashes,” weighing approximately five pounds, might
be small in quantity, but they would represent a vital role played out in all
body tissues.
Minerals
are involved in a variety of functions. They are necessary to promote growth
and regulate body processes. They provide structure to bones and participate in
muscle contraction, blood formation, protein building, energy production, and
lots of other bodily processes. They are found in soil and water and are
ingested via food and drink.
There
are at least twenty-two minerals essential to human health (over sixty-five
minerals have been found in the body), and these nutrients are divided into two
categories: major minerals and trace minerals.
Major
minerals are present in the body in amounts greater than a teaspoon, while
a trace
mineral can total less than a teaspoon. The terms “major” and “trace”
do not reflect the importance of a mineral in maintaining optimal health, as a
deficiency of either major or trace minerals produces equally harmful effects.
Henry
Schroeder, M.D., Ph.D., of Dartmouth College has said, “Your mineral needs are
even more important than your vitamin needs, since your body cannot make
minerals.”
Minerals
work either together or against each other. Some minerals
compete
for absorption, so a large intake of one mineral can produce a deficiency of
another. This is especially true of the trace minerals, such as copper, iron
and zinc. In other cases, some minerals enhance the absorption of other
minerals. For example, the proper proportion of calcium, magnesium and
phosphorus in the diet enhances the absorption and use of all three minerals.
Absorption is also dependent on body needs. A person who is deficient in a mineral
will absorb more of it than someone who is adequately nourished. The three
minerals that tend to be low in the average Westernworld
diet
are calcium (utilization may be the big problem here), iron and
zinc.
Commercial
food processing definitely reduces the nutrient content of food and can be
dangerous to human health. The refining of whole grains (including wheat, rice
and corn) has resulted in a dramatic reduction of their natural-food-complex
nutrition. The milling of wheat to white flour reduces the natural-food-complex
vitamin and mineral content by 40-60 percent.
Food
refining appears to reduce trace minerals such as manganese, zinc and chromium,
as well as various macro-minerals (magnesium). The treatment of canned or
frozen vegetables with EDTA (a preservative) can strip much of the zinc from
foods. High rates of calcium-metabolism disorders suggest that the forms of
calcium many are consuming simply do not agree with the body,
or
are not assimilated properly, resulting in calcium loss.
Calcium Utilization
Bone,
nerve and connective tissue weakness can be a direct result of poor calcium
utilization. This results in: hemorrhoids, varicose veins and spider veins,
wrinkles, hernias, aneurysms, prolapsed conditions of bladder, uterus, bowels,
etc.
Thyroid/parathyroid
weakness (hyperactivity) lowers or blocks proper calcium utilization.
Phosphorus, calcium and magnesium must be in balance with each other for proper
tissue function, growth and repair.
High
calcium supplementation will push out or deplete your phosphorus levels.
Calcium
cannot be properly utilized without parathyroid hormones.
Stone
formation, including bone spurs, will result if you supplement
anything
but plant calcium, especially when the parathyroid is weak.
Organically-grown
produce contains higher levels of some essential
minerals
than does conventionally (non-organically) grown produce, and appears to
contain lower levels of toxic heavy metals. Even if modern food practices did
not affect nutrition (which they do), all minerals that humans need for optimal
health do not exist uniformly in soils. Soils that are deficient in certain
minerals can result in low concentrations of major or trace minerals in
drinking water and plant crops, which contribute to marginal or deficient
dietary intake. Luckily, we are able to draw from a wide variety of fruits,
vegetables, nuts and herbs from all parts of the world.
MAJOR
MINERALS
Calcium
(Ca)
Acid/Alkaline:
Alkaline-forming
Types:
protein bound Ca. 46%; diffusable Ca. 6.5%; ionized Ca. 47.5%
Food
sources: Kelp, sesame seeds, dark leafy green vegetables, carrots,
oranges, almonds, broccoli, papaya, sunflower seeds, walnuts, cashews, Brazil
nuts, tofu, bone meal, brown rice, and most fruits and vegetables.
Note:
Coffee, commercial teas, carbonated drinks, (soda pops, etc.),
marijuana,
excess salt, cigarettes, refined sugars, alcohol, and
chemical
diuretics all inhibit or “pull” calcium out of bone and
tissues.
Uses
in the body: Calcium is the most abundant mineral (metal) in your body.
Necessary for bone, cartilage, tendons and connective tissue strength. (Used in
bone matrix.) Assists the actuation of many
enzymes
including pancreatic. Works with neuro-transmissions.
Used
in ATP, Adenosine Triphosphate release (cell energy reserves).
99% of the body’s Ca is located in the bones
and teeth.
Plays
a role in blood clotting. One of many cellular transporters.
Deficiencies: A
lack of utilization is epidemic. Utilization requires
parathyroid/thyroid
hormones and alkalization.
Short
term deficiencies: Muscle cramping and spasms, pounding
heartbeat,
loss of sleep, irritability, tooth decay, periodontal disease,
softened
bones, nervousness, back and leg cramps, brittle bones,
connective
tissue weakness including varicose and spider veins,
hemorrhoids,
prolapsed conditions of organs and skin, petechiae, hot
flashes,
hot and cold syndrome, and heart arrhythmias. Plays a role
in
muscular contraction. Use is regulated by parathyroid hormone
and
vitamin D. Builds bones and teeth. Normalizes heart action,
nerve
irritability, blood coagulation, normalizes metabolism. Calcium neutralizes
excessive serum histamines. Increased calcium
consumption
can increase calcitonin production by the thyroid gland
(C-cells).
This actually inhibits bone reabsorption, thus creating the
opposite
effect of rebuilding your bones. Lead interferes with
calcium
utilization.
Long
term deficiencies: Osteoporosis, scoliosis, rickets and diseases involving the loss
of calcium from the bones or the failure of growing bones to have enough calcium
for strength and proper
growth.
Stunted growth. Also, arthritis and depression.
Toxicity:
Acidosis, bone spurs, kidney stones, stenosis issues, and
calcium
deposits in tissues. Also possibly hypertension, confusion,
nausea
and vomiting.
Carbon
(C)
Acid/Alkaline:
Acid-forming
Food
sources: Air, carbohydrates, sugars, fruits and vegetables, nuts, olives
and avocados.
Uses
in the body: Main source of energy. A component of
carbohydrates
and building blocks of fats and amino acids.
Necessary
for teeth, connective tissue, skin, hair and nails.
Chlorine
(Chloride) (Cl)
Acid/Alkaline:
Acid-forming
Food
sources: Most fruits and vegetables: coconut, avocados, dates,
turnips,
lettuces, kale, kelp/dulse, celery, tomatoes, potatoes, apricots, orange juice,
pineapple, watercress, raw white cabbage, spinach, asparagus, cucumbers,
parsnips, carrots, onions. In cooked dried beans and peas, and sea salt, etc.
Toxic
sources: Water supplies
Uses
in the body: An electrolyte, along with sodium and potassium.
Affects
blood, nerves, epithelium. Aids digestion and elimination,
normalizes
osmotic pressure in blood and tissues. Helps maintain
normal
heart function, acid-base balance and water balance.
Increases
capacity of blood to carry carbon dioxide to lungs for
excretion.
Helps to cleanse both the intestines and body of toxins.
Produces
the normal acid environment in stomach. (This aids in
absorption
of iron and vitamin B12.)
Deficiency:
Disturbed digestion, water retention issues, weight loss.
Toxicity:
Very toxic in even slightly higher amounts. Symptoms are
weakness,
confusion and coma.
Hydrogen
(H)
Acid/Alkaline:
Alkaline-forming
Food
sources: All foods, especially carbohydrates and fats. Sugars, fruits and
vegetables (especially carrots, celery, spinach, tomatoes and cabbage).
Uses
in the body: Blood; all cells.
Magnesium
(Mg)
Acid/Alkaline:
Alkaline-forming
Food
sources: All fruits and vegetables, especially dark leafy greens,
seaweeds, nuts, seeds, dried fruits, potatoes, sesame seeds, alfalfa, figs,
brown rice, kelp, pineapple, honey, celery, whole-grain
products,
almonds, avocados, bananas, apples, peaches, lima beans,
black-eyed
peas, wheat germ, brown rice.
Toxic
sources: Water
Uses
in the body: Strengthens muscles and nerve tissues. Activates many enzymes,
especially in carbohydrate metabolism. Needed for proper bone and teeth
formation. Conditions liver and glands. Stimulates elimination. May help combat
stress, maintain muscle contractions and aid in adaptation to cold, and
regulation of normal heart rhythm.
May
reduce effects of lead poisoning and reduce kidney stones.
Also,
blood albumen.
Note:
Alcohol, diuretics, emotional or physical stress, diarrhea, zinc, and fluoride
increase the need for magnesium.
Deficiency:
Symptoms may include diarrhea, fatigue, calcium depletion, and heart
arrhythmias. Also, soft and porous bones, poor digestion, GI upsets, fatigue,
sleep disturbances, irritability, confusion, cramping and spasms, tachycardia,
nervousness, kidney stones, convulsions, poor complexion. A severe magnesium deficiency
may result in coronary heart disease, mental confusion, and blood clot
formation.
Toxicity:
Severe nausea and vomiting, extremely low blood pressure, extreme muscle
weakness, difficulty breathing and heartbeat irregularity.
Nitrogen
(N)
Acid/Alkaline:
Acid-forming
Food
sources: Proteins (Amino Acids). Dominating foods: nuts, seeds, alfalfa,
green leafy vegetables.
Toxic
sources: Meats
Uses
in the body: Acts like and is the main element of a protein and the mineral
phosphorus. Muscles, cartilage, tissue, tendons, ligaments, lean flesh.
Deficiency:
Abnormal growth, thinness, neuromuscular issues, and
death.
Toxicity:
Acidosis
Oxygen
(O)
Acid/Alkaline:
Alkaline-forming
Food
sources: Fresh air
Toxic
sources: Pollution
Uses
in the body: Creates oxidation. Needed for bones, teeth, skin, red blood
cells, circulation and optimism!
Deficiency:
Lack of oxygen causes death.
Phosphorus
(P)
Acid/Alkaline:
Acid-forming
Food
sources: present in nearly all foods, especially peas, seeds, corn,
mushrooms, carrots, nuts (pecans, almonds, etc.), whole grain
products,
dried fruit, legumes.
Toxic
sources: Meat, grains, intestinal products and wastes, phosphate mining,
soaps, phosphate additives in carbonated drinks, etc.
Uses
in the body: Phosphorus is essential for calcification of bone (85% of your
body’s pH is in your skeletal system). Used in many enzyme processes including
metabolism. Controls the activities of most hormones and many vitamins. A
factor in carbohydrate, fat and protein metabolism. Organic phosphates are a
part of all cellular
structures
and many of their functions. Part of ATP (Adenosine
Triphosphate),
which is a cell’s power company. Used in the
oxidation
of sugars for the formation of ATP. Builds bones, teeth,
blood,
brain and hair. Metabolism of fats and carbohydrates.
Transporter
of fatty acids.
Deficiency:
Leads to bone pain and poor bone formation, osteoporosis, poor memory, tissue
weakness, prolapsed conditions, fatigue, irritability, poor growth, rickets,
skin sensitivity, decreased appetite and weight. General weakness. Excessive
amounts of phosphorus can occur from prolonged and excessive intake of
non-absorbable antacids, high consumption of soft drinks, canned and processed
foods.
Toxicity:
Rarely toxic. Symptoms may include brittle bones related to loss of calcium
(osteoporosis), seizures, heartbeat irregularities and shortness of breath.
Potassium
(K)
Acid/Alkaline:
Alkaline-forming
Food
sources: All fruits and vegetables, especially dark green leafy ones.
Kelp, dulse, seeds, figs, celery, mushrooms, dried fruits, potatoes, avocados,
broccoli, legumes, papaya, raisins, brown rice, Brussels sprouts, bananas, and
watermelon.
Toxic
sources: Prescription drugs, especially some diuretics, can cause
excessive potassium loss from the body. Also, chronic diarrhea and diabetic
acidosis.
Note:
Excess Vitamin D can contribute to potassium loss and the
suppression
of thyroid function. Same with PABA supplementation.
Also,
potassium deficiency (or loss) is also affected by magnesium,
zinc,
and iron deficiency.
Deficiency:
Heart arrhythmias, shortness of breath, weakness in muscles, poor digestion and
utilization. Slowed growth, paralysis, sterility, mental apathy and confusion,
kidney damage. Dry skin, acne, chills, insomnia, decreased reflex response,
glucose intolerance. Potassium deficiency can occur with chronic diarrhea,
vomiting, diabetic acidosis, kidney disease, or prolonged use of laxatives or
diuretics.
Uses
in the body: Balances body fluids, regulates nervous and muscular
irritability. Aids in formation of glycogen from glucose, fats from glycogen,
proteins from peptones and proteases. May cure acne, allergies, alcoholism,
heart disease and help to heal burns.
Toxicity:
Excess intake of potassium can cause high concentration of the element in
blood, disturbances in heart and kidney function, and alterations in fluid
balance. Fatalities may result when high levels of potassium in the bloodstream
cause heart attacks.
Sodium
(Na)
Acid/Alkaline:
Alkaline-forming
Food
sources: All fruits and vegetables, especially dark green leafy ones,
carrots, celery, watermelon, strawberries, apples, huckleberries, gooseberries,
cauliflower, asparagus, salt (all types), cucumbers, beets, okra, pumpkin,
string beans, kelp/dulse.
Toxic
sources: Most processed foods, water supplies.
Note:
Diuretic drugs are the chief offenders in throwing off excess
sodium
from the body. Excessive sweating can reduce sodium in the
body
to low levels. Also, low sodium may be indicative of reduced
adrenal
cortex function. Sodium has a strong affinity for Oxygen.
Uses
in the body: An essential body electrolyte. A principle cation
(positively
charged ion) for intra- (inter) cellular activities and
homeostasis.
Plays a major role in the osmotic pressure of a cell, thus affecting water and
nutritional utilization by cells. Involved in
muscular
contraction. Plays a role in carbohydrate and protein
metabolism;
plays a role in glucose catabolism (breakdown) and
glycogen
formation (glucose storage); plays a role in euro(electrical)
transmission
through the nervous system (affecting conductivity of a cell); and plays a role
in normal heart rhythms.
Deficiency:
Sodium deficiency symptoms include muscle weakness and muscle shrinkage, twitching,
fatigue, poor concentration, memory loss, loss of appetite, nausea, diarrhea,
arthritis, nerve pain, digestive distress, poor adrenal function, and weight
loss. These are usually a result of starvation or severe fasting, vomiting, dry
skin, allergies, low blood pressure, constipation, perspiration or diarrhea. A
severe deficiency of sodium chloride could cause dehydration and death.
Toxicity: A
diet high in sodium is linked to hypertension (and restriction of sodium lowers
blood pressure). Diets in the U.S. contain excessive amounts of sodium (as much
as 15 times the recommended daily intake).
Sulfur
(S)
Acid/Alkaline:
Acid-forming
Food
sources: Kale, turnip, Brussels sprouts, dried beans, cabbage,
cauliflower,
garlic, onions, raspberry, kelp, broccoli, lettuce, wheat
germ,
etc.
Toxic
sources: Hair permanents, straighteners, some conditioners can affect
sulfur levels.
Note:
Sulfur is known to protect cells from the toxic effects of heavy metals. Also,
tobacco decreases absorption.
Uses
in the body: Sulfur disinfects the blood, helps the body to resist bacteria,
and protects the protoplasm of cells. It aids in necessary oxidation reactions
in the body, stimulates bile secretion, and protects against toxic substances.
Because of its ability to protect against the harmful effects of radiation and
pollution, sulfur slows down the aging process. It is needed for the synthesis
of collagen, a principal protein that gives the skin its structural integrity.
Needed for hair, nails, insulin, cartilage, and blood. Aids digestion and
elimination. Oxidizing agent in hemoglobin.
Note:
Sulfur is the key substance that makes garlic the “king of herbs.”
Deficiency:
Restricted growth, eczema, dermatitis, poor growth of nails and hair or brittle
hair and nails.
Toxicity:
Increased cardiac risk. Unlikely to threaten life.
ABOUT
TRACE MINERALS
Trace
elements are minerals needed in small amounts by plants, animals and human
beings. There are trace amounts of over sixty-five minerals in our bodies,
including: aluminum, arsenic, barium, bismuth, beryllium, bromine, cadmium,
chromium, copper, folic acid, fluorine, gallium, germanium, gold, iodine, iron,
lead, lithium, manganese, mercury, molybdenum, quinine, selenium, silicon,
silver, strontium, tin, titanium, tungsten, vanadium and zinc. They play a
major role in health and are essential in the assimilation and
utilization
of vitamins and other nutrients. They aid in digestion and provide the catalyst
for many hormones, enzymes and essential body functions and reactions. They
also aid in replacing electrolytes lost through heavy perspiration or extended
diarrhea and protect against toxic reactions and heavy metal poisoning. Current
research now proves that human beings should get the required trace elements
from their food in a balanced diet, especially fresh fruits and vegetables.
The
late Dr. Henry Schroeder stated that trace elements (minerals) “are more
important than are the vitamins, in that they cannot be synthesized by living
matter. Thus they are the spark-plugs in the chemistry of life, on which the
exchanges of energy in the combustion of foods and the building of living
tissues depend.”
There
are many factors that can contribute to mineral imbalances. This means that the
minerals we think we are consuming do not necessarily wind up doing their work
in our bodies. What are some of the barriers to mineral absorption?
Diet
A
major factor contributing to a mineral imbalance is improper eating habits,
including excessive intake of refined carbohydrates, alcohol, and fad diets.
Even
the mineral content of a “healthy” diet can be inadequate, depending upon the
soil in which the food was grown or the method in which it was prepared.
Stress
Both
physical and emotional stress can lead to mineral imbalances. Certain nutrients
such as the mineral zinc and the B-complex vitamins are lost in greater
quantities due to increased stress. Nutrient absorption can also decrease when
the body is under stress.
Medications
Medications
can deplete the body store of nutrient minerals or increase the levels of toxic
metals. The well-known effects of diuretics include not only sodium loss, but
in many cases, a potassium and magnesium loss. Antacids, aspirin, and oral
contraceptive agents can lead to vitamin and mineral deficiencies as well as toxic
metal excesses.
Pollution
Toxic
metals such as lead, mercury and cadmium can interfere with mineral absorption
and increase mineral excretion. All our lives we are continually exposed to a
variety of toxic metal sources such as cigarette smoke (cadmium), copper and
aluminum cookware, hair dyes (lead), lead based cosmetics, hydrogenated oils
(nickel), antiperspirants (aluminum), and dental amalgams (mercury and
cadmium). These are just a few of the many sources of metal pollution an
individual may be exposed to every day.
Nutritional
supplements
Vitamin
and mineral supplements can also cause imbalances. Calcium absorption is
decreased in the presence of phosphorus. Vitamin C is required for iron
absorption, but in excess amounts it can cause a copper deficiency.
Vitamin
D enhances calcium absorption, but, in excess amounts, can produce a magnesium
deficiency or other conditions.
TRACE
MINERALS/MICRO-TRACE MINERALS
Arsenic
(As)
Acid/Alkaline:
Acid-forming
Food
sources: Water, air and soil.
Toxic
sources: Fish, grains and cereals, coal burning, pesticides,
insecticides
(via a chemical called arsenoxide), herbicides, defoliants, metal work,
manufacture of glass and mirrors, tobacco smoke, dental compounds for root
canal fillings. Also, breathing sawdust or burning smoke from wood treated with
arsenic, living near uncontrolled hazardous waste sites, eating food, drinking
water, or breathing air containing arsenic. Inorganic arsenic compounds are
used
to preserve wood.
Uses
in the body: The role of arsenic in the body is unknown. In animal studies,
arsenic was essential for growth, development, and
reproduction,
possibly because of its role in the metabolism of
methionine,
an amino acid involved in growth. Has a “garlic” odor
when
burned. Stored mostly in the liver. Excreted in urine. Possible
uses
in the body: skin, hair, nails, thyroid gland and brain.
Deficiency:
Arsenic settles in the muscles and the brain (dislodging
phosphorus).
Sweet metallic taste, garlicky odor to breath and stools, constriction of throat,
constant backache (causes chiropractic
adjustments
not to hold), fatigue, low vitality, difficulties in
swallowing,
burning sensation (inflammation) in eyes, throat and
chest,
enlargement of tonsils, muscle spasms, pain in muscles of the
back,
listlessness, loss of pain sensation, loss of body hair, skin color changes
(dark spots) gastroenteritis.
Toxicity:
Metabolic inhibitor (reduces energy production efficiency), cellular and enzyme
poison. Constricts the throat and causes muscle spasms. An extreme “nerve”
toxin. Anorexia. Ingesting high levels can result in death. Breathing high
levels of inorganic arsenic can give you a sore throat or irritated lungs.
Also, nausea, vomiting, decreased production of red and white blood cells,
abnormal heart rhythm, damage to blood vessels, and a sensation of “pins and
needles” in hands and feet. Also, constant backache.
Beryllium
(Be)
Food
sources: Water, air and soil.
Toxic
sources: Industrial exposure, mining, metal working, burning coal, copper
processing, and possibly paints, colors, cosmetics.
Uses
in the body: There is currently no information regarding whether beryllium is
essential for optimum biochemical function.
Deficiency:
Dyspnea, weight loss, cough, fatigue, chest pain, anorexia, and weakness.
Toxicity: Effects
the lungs, liver, kidneys and heart. Enzyme inhibitor, including ATP, DNA and
several hepatic enzymes; cell death in all tissues.
Boron
(B)
Acid/Alkaline:
Acid-forming
Found
in: Volcanic springs in Tuscany, as borates in hernite, and as
colemanite
in California.
Food
sources: Water supply. Fresh fruits: apples, carrots, grapes, pears,
leafy vegetables, nuts and grains.
Toxic
sources: Soaps, cements, some cleaners, glass, ceramics.
Deficiency:
Poor dietary intake of boron causes bone changes similar to those noted in
osteoporotic women. Boron deficiency results in decreased blood levels of
ionized calcium and calcitonin, elevated levels of total calcium and urinary
excretion of calcium. In animals, it causes depressed growth rates. Boron and
magnesium metabolism might be related, since a combined deficiency of these two
minerals exacerbates the osteo-condition, suppresses bone anabolism, and
results in decreased magnesium concentrations in bones. In contrast, boron
supplementation elevates serum concentrations of betaestradiol and testosterone
and produces changes consistent with the prevention of calcium loss and bone
demineralization.
Toxicity:
Nausea, diarrhea, skin rashes, arthritis, and fatigue. Limited research on
animals shows that excessive boron intake might suppress growth and immunity.
Cadmium
(Cd)
Food
sources: Water, air and soil.
Toxic
sources: Cigarette smoke, air from battery manufacturing, metal
soldering, welding and electroplating, pipes, water supplies, mining, the air
near zinc refineries, burning of fossil fuels or municipal waste, dentures,
paints, galvanized pipes, contaminated shellfish.
Foods
that help to detox cadmium: Vegetables from the cabbage
family,
paprika, fruits.
Uses
in the body: An environmental poison found in water, on our food and in the
air. It’s found in processed grains, dairy products, meats, fish, fertilizers,
auto exhaust, cigarette smoke, batteries, solder and dentures. It disrupts the
absorption of other minerals and tends to settle in the heart and right kidney
and affects proper functioning of several enzymes.
Deficiency:
Anemia, muscle deterioration, hypertension, liver and kidney damage, zinc
deficiency, arthritis, pneumonitis, vomiting, diarrhea, loss of calcium in
bones, deterioration of heart and blood vessel structures, prostration,
emphysema.
Toxicity:
Cadmium is not excreted from the body and can accumulate over time to toxic
levels. Excessive intake occurs when soft water leaches cadmium from pipes.
Hypertension, kidney damage, loss of sense of smell (anosmia). Studies show
that alcohol increases the retention of heavy metals such as cadmium.
Chromium
(Cr)
Acid/Alkaline:
Acid-forming
Food
sources: Natural water sources, mushrooms, sugar cane, brewer’s yeast,
molasses, spices and herbs.
Toxic
sources: Industry leather tanning processes, raw cement and wood
finishing.
Note:
Scientists estimate that 90% of Americans don’t get enough
chromium
and that 60% are diabetic or hypoglycemic.
Uses
in the body: Master regulator of insulin. The average body contains about 600
meg. of chromium with the highest concentration occurring during infancy. The
main function of chromium is as a component of glucose tolerance factor (GTF),
a substance that works with insulin to facilitate the uptake of blood sugar
(glucose) into the cells. Needed for energy, thyroid, spleen. Aids carbohydrate
metabolism. Works with insulin in glucose utilization and energy release.
Chromium deficient diseases are aggravated by vanadium deficiency.
Deficiency:
Hypoglycemia, diabetes. Possible sleep and dream
disturbances,
anxiety, fatigue, shortened life span. Industrial
chromium
has carcinogenic effects upon the lungs and can cause
bronchial
inflammation, skin ulcerations, and conditions have been
observed
in cerebral hemorrhage and thrombosis.
Toxicity:
Excess intake or tissue accumulation of chromium can inhibit rather than
enhance the effectiveness of insulin. At extremely high levels, it may
encourage the growth of cancer. Kidney and liver
impairment.
Cobalt
(Co)
Food
sources: All green leafy vegetables. Also, various fruits, vegetables and
herbs.
Toxic
sources: Cobalt is used as an antifoaming agent in the processing of some
beer. Consumption of large amounts of this beer could cause polycythemia and
heart disorders.
Uses
in the body: Aids in normal growth and appetite, pancreas. The only known
function of cobalt is as a constituent of vitamin B12. In this capacity, cobalt
aids in the formation of normal red blood cells, maintenance of nerve tissue,
and normal formation of cells.
Deficiency: A
deficiency of cobalt is equivalent to a deficiency of
vitamin
B12, and can cause anemia, nerve disorders, and
abnormalities
in cell formation. Also, “scaly” skin and atrophy.
Toxicity:
Rare. Large doses of inorganic cobalt (not combined with
vitamin
B12) might stimulate thyroid and bone marrow function,
resulting
in excess production of red blood cells (polycythemia).
Copper
(Cu)
Acid/Alkaline:
Alkaline-forming
Food
sources: Dark green leafy vegetables, raisins, radishes, nuts
(especially
almonds) oranges, blackstrap molasses, avocados, and
broccoli.
Toxic
sources: Copper water pipes and cooking utensils.
Note:
Long-term uses of oral contraceptives can upset the balance of copper in the
body causing excessively high cholesterol levels.
Uses
in the body: Liver, gallbladder, blood, lungs, heart. Absorption and
metabolism of iron. Oxidation of fatty acids, of tyrosine to melanin pigments.
Metabolism of ascorbic acid (vitamin C). A catalyst used in the manufacture of
hemoglobin. Essential to catecholamine synthesis. Copper is a component of the
antioxidant enzyme: Superoxide dismutase, and might protect cell membranes from
potential damage by highly reactive oxygen fragments. In this
antioxidant
role, copper might function to prevent the development
of
cancer.
Deficiency:
Copper settles in brain and ovaries. Can cause chronic
diarrhea,
burning sensation in throat and tonsils, malabsorption
problems,
or iron-deficiency anemia. Also loss of color from skin
and
hair (inability of body to manufacture collagen), baldness, heart
disease,
Menkes’ Syndrome, nervous system impairment, low
resistance
to infection, scoliosis, poor tissue formation, impaired
respiration,
skin sores, retardation.
Toxicity:
Symptoms can include ulcerative colitis, Wilson’s Disease.
Mental
and emotional problems.
Note:
Daily intake of more than 20 mg. can cause nausea and vomiting.
Fluorine/Fluoride
(F)
Acid/Alkaline:
Acid-forming
Food
sources: Carrots, turnip and beet greens, dandelion, sunflower
seeds,
garlic, spinach, green leafy vegetables, nuts (especially
almonds),
dandelions.
Toxic
sources: Fluoride is added to many water supplies and to food processed
in areas containing high levels of fluoride. It is added to most toothpastes
and may be added to the soil in certain fertilizers.
Also
found in seafood and oats.
Uses
in the body: Stronger tooth enamel and bones, fewer cavities,
fewer
bone fractures, less osteoporosis in older women, higher birth
weights
and higher rates of growth in children, reduces loss of
hearing
if caused by otospongiosis of the inner ear. Also needed for
blood,
skin, hair and nails.
Deficiency:
Decay of teeth, curvature of the spine, weak eyesight.
Toxicity:
Fluoride remains in the body for a long time, because it is
incorporated
into the bones. Even just a little over the recommended
levels
can cause painful and aching bones, stiffness, weakness,
chalky
white areas on the teeth, brown or pitted teeth, knots on the
bones,
rapid aging, increased rates of cancer, high death rate (up to
three
times higher in areas of high fluoride concentration in water
supply),
sagging and wrinkled skin, scleroderma (hard patches of
skin).
People in India sometimes suffer from the bone deformities
(i.e.,
hunchback) of skeletal fluorosis even when the fluoride
Iron
(Fe)
concentration
in the water is only 11/2 times the RDA. Hot weather,
drinking
lots of water, and low protein diets increase fluoride intake
and
side effects. Large doses of fluoride are extremely poisonous.
Acid/Alkaline:
Acid-forming
Food
sources: Fruits and vegetables, especially dark green leafy
vegetables,
nuts (including almonds, hazelnuts, etc.), oranges,
grapes,
bananas, kelp/dulse, raisins, figs, beets, carrots, tomato juice, asparagus,
parsley, lima beans, cucumbers, Brussels sprouts, winter squash, broccoli,
watercress, blackberries, whole grain products, root vegetables, spinach, raw
broccoli, green peas, avocados, prunes, raisins, sesame and pumpkin seeds.
Toxic
sources: Industry, old plumbing pipes, water supplies,
environmental
sources, including air, cast-iron pots and pans.
Uses
in the body: Essential for the formation of hemoglobin, myoglobin and many
enzymes, necessary for the formation of red blood cells, and helps fight stress
and disease. Iron affects the release of the adrenal hormone aldosterone.
Aldosterone increases sodium levels.
This
aids alkalization and balances potassium. Works with glucose
and
fructose as well as with some vitamins (E, C, etc.) and some
amino
acids. Iron strengthens the immune system and increases
resistance
to colds, infections and disease. It is the oxygen-carrying
component
of the blood. Other possible uses in body: growth,
reproduction,
teeth, skeletal, liver, lipids, cholesterol. Vitamin E and
zinc,
taken in large doses, interfere with the absorption of iron.
Caffeine
from coffee, tea or soft drinks interferes with the absorption of iron.
Excessive phosphorus consumption in people who eat lots of canned food or in
people who drink many soft drinks may block absorption. Excessive sweating, or
rapid food transit time through the intestines can reduce iron. Low iron builds
high lead and visa versa. Lead interferes with hemoglobin formation and can
create iron deficiency anemia.
Deficiency:
Slight iron deficiency (that does not affect red blood cell counts) may cause
tiredness, headache, slower running times in
competitive
runners, weakness, difficult menstruation, irritability,
depression
and sleeplessness or troubled sleep. Severe iron deficiency may cause anemia or
low red blood cell counts,
constipation,
mouth soreness, brittle nails, pale skin or difficulty in
breathing.
Other possible symptoms could be food cravings for
“nonfood
items” such as ice, clay or starch, heart disease, impaired
mental
skills. Can affect job performance, mood and memory.
Increases
intestinal irritation and inflammation.
Toxicity:
Taking too much iron can cause unhealthy iron deposits in the body, and can
lead to the production of free radicals. The buildup of iron in the tissues has
been associated with a rare disease known as hemochromatosis. Overdoses can
cause bleeding from the stomach or intestines, a drop in blood pressure, liver
damage, reduced resistance to infections, and could be fatal for young
children.
Lead
(Pb)
Acid/Alkaline:
Acid-forming
Food
sources: Food and plants grown in soil contaminated with lead.
Toxic
sources: Lead is ingested from a variety of sources including
fresh
and canned food, water, lead-based paint, lead-glazed pottery,
hair
dyes, air pollution, car exhaust, tobacco smoke, on the solder of
tin
cans, fumes from gasoline vapors while filling your gas tanks are
full
of lead. Lead is a protoplasmic poison found in bleached white
sugar.
Foods that help to detox lead: Pumpkin seeds, okra, rhubarb
root,
cayenne pepper, peppermint, dulse, leafy greens and fruits.
Note:
Watch out for copper and aluminum cookware and storing acidfoods in metal
containers.
Uses
in the body: Unknown. Lead interferes with hemoglobin formation and can
create iron deficiency anemia. Lead is a protoplasmic poison, which means it
interferes with the proper life-energy enzyme exchange in the living body.
Deficiency:
Lead is one of the most common and persistent neurotoxins in the environment.
Causes damage even at low levels. Lack of will power, fatigue, lack of abstract
thinking, allergies, anemia, headaches, weakness, hyperactivity in children,
brain dysfunction, causes behavioral and learning problems, especially in
children. Lead settles in the brain, nerves, bones and the right kidney.
Toxicity:
Impaired nervous system (which can result in behavioral
problems
such as hyperactivity in children), anemia, weakness,
muscle
deterioration, lethargy, mental impairment, abdominal
discomfort,
constipation, lack of will power, lack of abstract
thinking,
lack of mental capacity, tooth decay, allergic reactions to
food
and environment, increases in diabetes and multiple sclerosis.
Lithium
(Li)
Acid//Alkaline:
Alkaline-forming
Food
sources: Kelp/dulse, whole grain foods, seeds.
Uses
in the body: Reduces aggressiveness, violence and self-destruction.
Deficiency:
Depression, manic depressive disorders, mania, suicide,
spousal
and child abuse.
Toxicity:
Tremors, drowsiness, headaches, confusion, restlessness,
dizziness,
psychomotor retardation, lethargy, coma.
Manganese
(Mn)
Acid/Alkaline:
Alkaline-binding
Food
sources: All dark leafy green vegetables, spinach, bananas, beets,
blueberries, oranges, grapefruit, apricots, peas, kelp and other
seaweed,
celery, legumes, nuts, grains, asparagus, pineapples.
Toxic
sources: Industrially inhaled manganese has been linked to
psychiatric
and nervous disorders!
Uses
in the body: Thyroxine formation, formation of urea, lipotropic activity of
choline. Utilization of thiamine. Metabolism of
carbohydrates,
strengthens tissues and bones, kidneys, liver,
pancreas,
spleen, brain, heart and lymph. Works with neurotransmitters and energy
metabolism. Component of bone and
cartilage
formation. Activates many enzymes including pyruvate,
carboxylase,
mitochondrial superoxide, arginase and dismutase.
Essential
to catecholamine synthesis. Helps fertility and reproduction, helps growth and
sex hormone production, helps regulate blood sugar and helps the body use
proteins and carbohydrates.
Deficiency:
Rare. Atherosclerosis, confusion, tremors, impaired vision and hearing, skin
rash, elevated cholesterol, increased blood
pressure,
irritability, pancreatic damage, sweating, increased heart
rate,
mental impairment, grinding of teeth, fatigue and low
endurance.
Weak bone, hair and fingernails. Skin conditions.
Conception
issues and weight loss. Glandular disorders, weak tissue
respiration,
defective reproduction functions, seizures and
convulsions,
possible cramping, paralysis. However, calcium
deficiency
is the reason for cramping.
Toxicity:
Known to be highly toxic when inhaled or taken intravenously.
Excess
symptoms are CID or the human equivalent of Mad Cow
Disease.
Mercury
(Hg)
Food
sources: Many types of fish, especially tuna
Toxic
sources: Contaminated fish, dental amalgams, water supplies,
thermometers,
some batteries, manufacture and delivery of petroleum products, fungicides (for
grains and cereals), florescent lamps, hair dyes, cosmetics, combustion of
fossil fuels, fertilizers,
pharmaceutical
preparations (diuretics and hemorrhoidal, etc.). This
source
of mercury might suppress the immune system and the
body’s
natural defense against infection and disease.
Uses
in the body: Mercury salts are used in medicine, agriculture, and industry
and accumulation of toxic levels is possible. Mercury alters the shape and
function of enzymes. The body accumulates mercury in the kidneys, nerves,
blood, liver, bone marrow, spleen, brain, heart, skin and muscles. The
developing infant is very susceptible to mercury toxicity during pregnancy.
While pregnant and/or breastfeeding, eat in moderation any fish that tends to
be high
in
mercury.
Deficiency:
Mercury settles in liver, spleen, kidneys, intestinal wall,
heart,
skeletal muscles, lungs and bones. Immediate gastrointestinal
disturbances,
loss of appetite and weight, inflammation of gums,
difficulty
chewing and swallowing, metallic taste in mouth, thirst,
nausea,
vomiting, pain in the abdomen, bloody diarrhea.
Toxicity:
Excess mercury suppresses selenium, causes severe emotional disturbances, cell
destruction, blocked transport of sugars (energy at cellular level), increased
permeability of potassium, loss of appetite, depression, tremors, decreases
senses, peripheral numbness, poor memory and especially neuro-muscular
conductors. Has been linked to MS and Parkinson’s. Has been associated with
heart attacks (Mis).
Molybdenum
(Mo)
Food
sources: Brown rice, millet, dark green leafy vegetables, peas,
legumes,
beans, whole grains.
Toxic
sources: Tap water
Uses
in the body: Regulates calcium, magnesium, copper metabolism.
Conversion
of purines to uric acid. It’s a component of the enzyme
xanthine
oxidase that aids in the formation of uric acid (a normal
breakdown
product of metabolism). It is important in the
mobilization
of iron from storage, and is necessary for normal
growth
and development.
Deficiency:
Copper deficiency. Increased heart rate, mouth and gum
disorders,
anemia, loss of appetite, weight loss, impotence in older
males,
increased respiratory rate, night blindness, stunted growth.
Toxicity:
Generally considered non-toxic. However, prolonged intake of more than 10 mg.
is associated with gout-like symptoms, such as pain and swelling of the joints.
Nickel
(Ni)
Food
sources: Found in trace amounts in all foods.
Toxic
sources: Is used in industry as a catalyst in the hydrogenation of oils
and fats (hardened fats). Commonly found in all brands of
margarine,
as well as oils and fats labeled “hydrogenated,” meaning
hardened
vegetable oil (also in breads, chips, cookies, candies, etc.).
Found
in steel and other metal manufacturing industries, cigarettes,
and
in dyes and hair treatments.
Note:
Poppy Seeds remove nickel deposits!
Foods
that help to detoxify nickel: The best dietary sources
that assist the body to remove excess or toxic amounts of nickel and other
metals are fruits and green leafy vegetables.
Uses
in the body: No established role for nickel has been identified,
although
the mineral is found in association with the genetic code
within
each cell and might help activate certain enzymes. Some say
pancreas
and insulin. It is probably involved in the activity of
hormones,
cell membranes and enzymes. Low blood levels of Ni are
observed
in people with vitamin B6 deficiency, cirrhosis of the liver, and kidney
failure. The significance of these blood levels is not known. In contrast,
elevated blood levels of nickel are associated with the development of cancer,
heart attack, thyroid disorders, psoriasis and eczema.
Deficiency:
Nickel settles in sinus, joints, and spinal column. Can be a nephro-toxin,
effecting the urinary tract, especially the kidneys. It is found to bind with
blood fungus causing tumors. Can paralyze the spinal column and bring on
epilepsy. Can cause dermatitis and other skin conditions, allergic reactions
and chronic rhinitis. Inflammation of lungs and liver, leading to necrosis and
carcinoma.
Toxicity:
Leads to paralysis, overflow of blood to brain, and epilepsy. In excess, can be
a carcinogenic. Can rob the body of oxygen. Every tumor needs nickel to hold it
together!
Selenium
(Se)
Acid/Alkaline:
Acid-forming
Food
sources: Kelp/dulse, garlic, mushrooms, organic vegetables,
grains,
broccoli, onions, brazil nuts. Most foods.
Toxic
sources: Soil. Also, the refining of flour removes much of the
selenium
that is concentrated in the germ and bran. It is important to
eat
whole-grain products, since the selenium is not added back into
“enriched”
flour.
Uses
in the body: The most important known function of selenium is as a component
of the antioxidant enzyme glutathione peroxidase.
Selenium
is a co-factor in an enzyme that protects body tissues
(especially
cell membranes) from oxidation by unstable free radicals.
Selenium
also works closely with the antioxidant vitamin E. Protects all membranes,
reduces risk of cancer, enhances immune system, antioxidant. Lowers requirement
for B12.
Deficiency:
Muscle weakness, linked to cancer and heart disease, fatigue, dandruff, loose
skin, growth retardation, elevated cholesterol levels, susceptibility to
infection, sterility, and liver damage. Down’s Syndrome, fibrocystic breast
disease, Cystic Fibrosis, Muscular Dystrophy.
Toxicity:
May include “garlic” breath, loss of hair, fingernails and
toenails,
irritability, liver and kidney impairment, metallic taste in
mouth,
dermatitis and jaundice. Large overdoses can cause death.
Silica
or Silicon (Si)
Acid/Alkaline:
Alkaline-forming Food sources: Alfalfa, kelp, dark green leafy
vegetables, horsetail, nettle, flaxseed, many fruits including apples, grapes,
etc. Nuts, seeds, onions, berries (including
strawberries),
lettuce, figs, dandelion, cucumbers, cooked, dried
beans
and peas, sunflower seeds, tomatoes.
Uses
in the body: Blood, muscles, skin, nerves, nails, hair, connective tissue,
pancreas, tooth enamel, and thymus (has an antiseptic action).
Silicon
levels are high in people with atherosclerosis, but we’re not
sure
whether or not the mineral is related to the development or
progression
of cardiovascular disease. The daily diet contains ample
amounts
of silicon and the mineral is well absorbed.
Deficiency:
Silicon’s primary function is in the development and
maintenance
of bone. A silicon deficiency causes weak and
malformed
bones of the arms, legs and head. Si is also important in
the
formation of connective tissue (the protein webwork in bone in
which
calcium is embedded). Reduces resistance to infectious
diseases.
Rapid aging, tendonitis, bone decalcification, cardiovascular disease, abnormal
skeletal formation, artherosclerosis.
Tin
(Sn)
Food
sources: Water, air and soil.
Toxic
sources: Leakage of the metal cans into canned foods.
Uses
in the body: Supports hair growth and can enhance reflexes.
Deficiency:
Tin absorption is poor and it’s not clear how much of the daily intake of 1.5
to 3.5 mg. actually crosses the intestinal lining and enters the blood.
Deficiency can cause symmetrical baldness, reduced response to noise.
Toxicity:
High intakes of tin might destroy red blood cells.
Vanadium
(V)
Food
sources: Vanadium in foods is found in an organic form.
Toxic
sources: Used in alloy steels, making rubber, plastics, ceramics and
other chemicals. Can also be found in air, food and water supplies.
Uses
in the body: Required for glucose tolerance factor. Vanadium
forms
compounds with other biological substances. The average
human
body contains 20 mg. of vanadium, which probably is
involved
in cholesterol metabolism and hormone production.
Preliminary
reports show that vanadium might protect against the
development
of breast cancer and might slow down the growth of
tumors.
Deficiency:
Hypoglycemia, diabetes, increased dental cavities, elevated triglycerides,
elevated cholesterol, chest pain, coughing, wheezing, runny nose and sore
throat. In animal studies, a deficiency caused growth retardation, bone
deformities and infertility.
Toxicity:
Extremely harmful to lungs, throat and eyes in high levels.
Leads
ultimately to death.
Zinc
(Zn)
Acid/Alkaline:
Acid-forming
Food
sources: Pumpkin seeds, seaweed (c.a. kelp and dulse, etc.), nuts, green
leafy vegetables, mushrooms, onions, wheat germ.
Uses
in the body: Enhances immune system and thymus. Protects
against
birth defects. Involved in many enzyme systems and in the
synthesis
of nucleic acid (DNA and RNA), so it is directly related to
growth
and repair of the body. Brain, genital organs, thyroid, liver
and
kidneys. Effects transfer of carbon dioxide from tissue to lungs.
Constituent
of digestive enzyme for hydrolysis of proteins. Aids in
healing
wounds.
Deficiency:
Lack of intestinal absorption. Restrictive growth. Loss of appetite, poor skin
color and appearance, white spots on fingernails, slow wound healing,
infertility, diabetes, loss of taste, poor night vision, birth defects, stretch
marks, behavioral disturbances, failure of the testes or ovaries to develop,
and dwarfism. Chronic diarrhea, cirrhosis of the liver, diabetes and kidney
disease are prone to zinc deficiency.
Toxicity:
High doses can produce liver disease with lethargy, pain in the stomach and
fever. Also, increased colon and breast cancer.
TISSUE
SALTS IN BIOCHEMISTRY
Tissue
salts in biochemistry are the inorganic elements of the body. In 1665 an
Englishman named Robert Hooke discovered what was called “the cell.”
In
1838 and 1839 the German scientists Matthias Schleiden and Theodore Schwann,
respectively, unfolded the cell theory. In 1850, Virchow unfolded his own
version of the biochemical theory of cellular treatment. Moleschott of Rome and
W.H. Schuessler of Oldenburg (Germany) focused upon what they called inorganic
chemistry, or biochemic treatment of disease through tissue salts.
Tissue
salts, known as cell salts, are considered the workers and builders of the
body, and are found mostly in the blood and tissues. Water and organic
substances are the inert matter used by salts (ions) in building and
maintaining the cells of the body.
The
actions of cell salts inspire fluids, cells and tissues to respond,
causing
polarization or depolarization. This leads to the building (anabolism) and/or
tearing down (catabolism) of cells. Plants take up elemental minerals and
metals like calcium, sodium and sulfur from the earth through their root
systems. Then, through plant physiology (mainly by photosynthesis) they convert
these basic elements into salts so that the human body can absorb them and use
them.
BASIC
TISSUE SALTS
The
following are the basic twelve tissue or cell salts set forth in W.H.
Schussler’s biochemical theories of the 1870s.
Chloride
of potash
Other
names: Kali muriaticum, kali. mur., potassium chloride
Found
in these tissues: Fibrin, unites with hydrogen to form HCL
(hydrochloric
acid); aids in the production and promotion of bile;
alkalizer;
aids in digestive enzyme formation.
Deficiency:
Digestive problems, excessive thinness, weakened tissues, congestive and
excessive mucus production, swellings, granulation of eyelids, nose, etc.,
sluggish liver, and jaundice.
Chloride
of soda
Other
names: Natrum muriaticum, nat. mur., sodium chloride
Found
in these tissues: Found in all tissues and fluids of the body,
especially
extracellular. An alkalizer found in gastric juices.
Deficiency:
Fluid regulation, acidosis, dehydration, elevated carbon
dioxide
and cellular carbonic acid, constipation, heat stroke, ulcers,
heart
palpitations.
Fluoride
of lime
Other
names: Calcarea fluorica, calc, fluor., calcium fluoride
Found
in these tissues: Connective tissue (which covers all tissues,
organs,
and glands), and is the main component of bones and teeth.
Deficiency:
Prolapsed conditions, including varicose veins and spider veins, hemorrhoids,
bladder and uterus (prolapsed), etc.
Phosphate
of iron
Other
names: ferrum phosphoricum, ferr. phos., iron phosphate
Found
in these tissues: Hair cells, muscular membranes of blood and lymph vessels,
strengthens and enhances the blood. Use in the first stages of injury or
illnesses.
Deficiency:
Used in blood or bleeding syndromes (disorders), affects oxygen and carbon
dioxide transportation, congestive conditions, insomnia, inflammatory
conditions, debility.
Phosphate
of lime
Other
names: Calcarea phosphorica, calc, phos., calcium phosphate
Found
in these tissues: All cells and fluids of the body. Combines with albumen to build
new RBCs, gastric juices, bones and teeth.
Promotes
growth.
Deficiency:
Development issues, wasting conditions, debility,
malabsorption,
cancers, exhaustion, slow healing, muscle cramps and spasms, epilepsy and the
like, circulation weakness or blockage.
Phosphate
of potash
Other
names: Kali phosphoricum, kali. phos., potassium phosphate
Found
in these tissues: Skin and mucosa of the body, oxygen transport, used in
detoxification by the lymphatic system and liver, use during inflammatory
processes.
Deficiency: Skin
conditions, lymphatic congestion (or inactivity), low immune response, low
oxidative issues (including acidosis), asthma, rheumatism, fatigue and
“laziness,” debility, heavy “mucus”
conditions
and pain.
Phosphate
of magnesia
Other
names: Magnesia phosphorica, mag. phos., magnesium
phosphate
Found
in these tissues: Blood cells, bones, teeth, brain, nervous system, and muscle,
essential to motor nerve function, antispasmodic.
Deficiency:
Spasms, cramping, convulsions, etc., motor nerve
syndromes,
lockjaw, palpitations of the heart, nerve pain,
hypertrophy
of glands and organs, paralysis.
Phosphate
of soda
Other
names: Natrum phosphoricum, nat. phos, sodium phosphate
Found
in these tissues: Fluids of the body, bonds to uric acid.
Deficiency:
Breaks down lactic acid, gallstones and liver stones, sluggish gallbladder
(promotes bile flow), gout and rheumatism, nausea, acid stomach, acidosis.
Silicic
acid
Other
names: Silicea, silicea
Found
in these tissues: Connective tissues, especially, the bones, hair, nails.
Brain
and nerve tissues, transmuted into calcium, alkalizes.
Deficiency:
Nerve weakness, skeletal weakness, connective tissue
weakness,
prolapsed conditions, depression, inflammation, memory
loss
(“brain cloud”), arthritis, rheumatism, etc., low perspiration,
night
sweats, tumors.
Sulphate
of lime
Other
names: Calcarea sulphurica, calc. sulph., calcium sulphate,
plaster
of Paris
Found
in these tissues: Connective tissue, cells of the liver, attracts
water,
aids in the catabolism process of cells.
Deficiency:
Abscesses, pimples, skin conditions, lymphatic swelling, inflammation (immune
response with edema), some headaches.
Sulphate
of potash
Other
names: Kali sulphuricum, kali. sulph., potassium sulphate
Found
in these tissues: Found in all tissues, especially in brain and
nerve
tissue, muscle and blood cells, metabolism. Antiseptic in
nature.
Deficiency:
Diabetes, especially in low brain and nerve function, low vitality and
endurance, low metabolism syndromes, microbial
overgrowths
(like Candida albicans), intestinal, etc., putrefactive
conditions,
poor memory, Alzheimer’s, low adrenal function
affecting
neuro-transmitters.
Sulphate
of soda
Other
names: Natrum sulphuricum, nat. sulph., sodium sulphate
Found
in these tissues: Intercellular fluids, works with sodium chloride in balancing the
body’s intercellular and extracellular fluids, acts as a stimulant to the
nervous system, pancreas, liver, intestines, etc.
Promotes
digestion through pancreatic function.
Deficiency:
Dehydration, malabsorption, starvation, constipation,
sluggish
digestion, diabetes, sluggish liver and gallbladder (jaundice, etc.) asthma,
vertigo and nausea.