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these provide energy which is mesured either in kiloclories kcl or Joules

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Nutrition

If you ask any health care professional, be it a doctor, nurse, psychologist, or dentist to identify a part of medicine that is not at all related to nutrition, there will be a long silence as they scratch their heads.

Nutrition is present in all processes of life. Right from the very moment the sperm fertilizes an egg, through fetal development in the uterus, to the birth, human growth, maturity, old age, and eventual death. Even after death the human body serves as nutrition for other organisms. Anything that involves life and chemical or biochemical movement has nutrition at its core.

Anything that lives is dependent on energy, which results from the combustion of food.

The human body requires seven major types of nutrients

A nutrient is a source of nourishment, an ingredient in a food, e.g. protein, carbohydrate, fat, vitamin, mineral, fiber and water. Macronutrients are nutrients we need in relatively large quantities. Micronutrients are nutrients we need in relatively small quantities.

Energy macronutrients - these provide energy, which is measured either in kilocalories (kcal) or Joules. 1 kcal = 4185.8 joules.

  •  Carbohydrates - 4 kcal per gram
    

Molecules consist of carbon, hydrogen and oxygen atoms. Carbohydrates include monosaccharides (glucose, fructose, glactose), sisaccharides, and polysaccharides (starch).
    

Nutritionally, polysaccharides are more favored for humans because they are more complex molecular sugar chains and take longer to break down - the more complex a sugar molecule is the longer it takes to break down and absorb into the bloodstream, and the less it spikes blood sugar levels. Spikes in blood sugar levels are linked to heart and vascular diseases.
  •  Proteins - 4 kcal per gram
    

Molecules contain nitrogen, carbon, hydrogen and oxygen. Simple proteins, called monomers, are used to create complicated proteins, called polymers, which build and repair tissue. When used as a fuel the protein needs to break down, as it breaks down it gets rid of nitrogen, which has to be
    eliminated by the kidneys.
  •  Fats - 9 kcal per gram
    

Molecules consist of carbon, hydrogen, and oxygen atoms. Fats are triglycerides - three molecules of fatty acid combined with a molecule of the alcohol glycerol. Fatty acids are simple compounds (monomers) while triglycerides are complex molecules (polymers).

Other macronutrients. These do not provide energy

  •  Fiber
    

Fiber consists mostly of carbohydrates. However because of its limited absorption by the body, not much of the sugars and starches get into the blood stream. Fiber is a crucial part of essential human nutrition.
  •  Water
    

About 70-80% of the non-fat mass of the human body is water. Nobody is completely sure how much water the human body needs - claims vary from between one to seven liters per day to avoid dehydration. We do know that water requirements are very closely linked to body size, age, environmental temperatures, physical activity, different states of health, and dietary habits.

    Somebody who consumes a lot of salt will require more water than another person of the same height, age and weight, exposed to the same levels of outside temperatures, and similar levels of physical exertion who consumes less salt. Most blanket claims that 'the more water you drink the healthier your are' are not backed with scientific evidence. The variables that influence water requirements are so vast that accurate advice on water intake would only be valid after evaluating each person individually.

Micronutrients - nutrients required in small quantities throughout a person's life

Minerals

Dietary minerals are the other chemical elements our bodies need, apart from carbon, hydrogen, oxygen and nitrogen. The term "minerals" is misleading, and would be more relevant if called "ions" or "dietary ions" (it is a pity they are not called so). People whose intake of foods is varied and well thought out - those with a well balanced diet - will in most cases obtain all their minerals from what they eat.

Minerals are often artificially added to some foods to make up for potential dietary shortages and subsequent health problems. The best example of this is iodized salt - iodine is added to prevent iodine deficiency, which even today affects about two billion people and causes mental retardation and thyroid gland problems. Iodine deficiency remains a serious public health problem in over half the planet.

Experts at the University of Florida say that 16 key minerals are essential for human biochemical processes by serving structural and functional roles, as well as electrolytes:

  •  Potassium     What it does - a systemic (affects entire body) electrolyte, essential in co-regulating ATP (an important carrier of energy in cells in the body, also key in making RNA) with sodium.
    Deficiency - hypokalemia (can profoundly affect the nervous system and heart).
    Excess - hyperkalemia (can also profoundly affect the nervous system and heart).
  •  Chloride      What it does - key for hydrochloric acid production in the stomach, also important for cellular pump functions.
    Deficiency - hypochleremia (low salt levels, which if severe can be very dangerous for health).
    Excess - hyperchloremia (usually no symptoms, linked to excessive fluid loss).
  •  Sodium     What it does - a systemic electrolyte, and essential in regulating ATP with potassium.
    Deficiency - hyponatremia (cause cells to malfunction; extremely low sodium can be fatal).
    Excess - hypernatremia (can also cause cells to malfunction, extremely high levels can be fatal).

    The American Heart Association (AHA) announced on November 5, 2012 that sodium consumption should be limited to 1,500 milligrams per day, and that includes everybody, even healthy people without high blood pressure, diabetes or cardiovascular diseases. AHA's chief executive officer, Nancy Brown said "Our recommendation is simple in the sense that it applies to the entire U.S population, not just at-risk groups. Americans of all ages, regardless of individual risk factors, can improve the heart health and reduce their risk of cardiovascular disease by restricting their daily consumption of sodium to less that 1,500 milligrams."
  •  Calcium    What it does - important for muscle, heart and digestive health. Builds bone, assists in the synthesis and function of blood cells.
    Deficiency - hypocalcaemia (muscle cramps, abdominal cramps, spasms, and hyperactive deep tendon reflexes).
    Excess - hypercalcaemia (muscle weakness,
    constipation, undermined conduction of electrical impulses in the heart, calcium stones in urinary tract, impaired kidney function, and impaired absorption of iron leading to iron deficiency).
  •  Phosphorus     What it does - component of bones and energy processing.
    Deficiency - hypophosphatemia, an example is
    rickets.
    Excess - hyperphosphatemia, often a result of kidney failure.
  •  Magnesium     What it does - processes ATP and required for good bones.
    Deficiency - hypomagnesemia (irritability of the nervous system with spasms of the hands and feet, muscular twitching and cramps, and larynx spasms).
    Excess - hypermagnesemia (nausea, vomiting, impaired breathing, low
    blood pressure). Very rare, and may occur if patient has renal problems.
  •  Zinc     What it does - required by several enzymes.
    Deficiency -
    short stature, anemia, increased pigmentation of skin, enlarged liver and spleen, impaired gonadal function, impaired wound healing, and immune deficiency.
    Excess - suppresses copper and iron absorption.
  •  Iron     What it does - required for proteins and enzymes, especially hemoglobin.
    Deficiency - anemia.
    Excess - iron overload disorder; iron deposits can form in organs, particularly the heart.
  •  Manganese     What it does - a cofactor in enzyme functions.
    Deficiency - wobbliness, fainting,
    hearing loss, weak tendons and ligaments. Less commonly, can be cause of diabetes.
    Excess - interferes with the absorption of dietary iron.
  •  Copper     What it does - component of many redox (reduction and oxidation) enzymes.
    Deficiency - anemia or pancytopenia (reduction in the number of red and white blood cells, as well as platelets) and a neurodegeneration.
    Excess - can interfere with body's formation of blood cellular components; in severe cases convulsions, palsy, and insensibility and eventually death (similar to
    arsenic poisoning).
  •  Iodine     What it does - required for the biosynthesis of thyroxine (a form of thyroid hormone).
    Deficiency - developmental delays, among other problems.
    Excess - can affect functioning of thyroid gland.
  •  Selenium     What it does - cofactor essential to activity of antioxidant enzymes.
    Deficiency - Keshan disease (myocardial necrosis leading to weakening of the heart), Kashing-Beck disease (atrophy degeneration and necrosis of cartilage tissue).
    Excess - garlic-smelling breath, gastrointestinal disorders,
    hair loss, sloughing of nails, fatigue, irritability, and neurological damage.
  •  Molybdenum     What it does - vital part of three important enzyme systems, xanthine oxidase, aldehyde oxidase, and sulfite oxidase. It has a vital role in uric acid formation and iron utilization, in carbohydrate metabolism, and sulfite detoxification.
    Deficiency - may affect metabolism and blood counts, but as this deficiency is often alongside other mineral deficiencies, such as copper, it is hard to say which one was the cause of the health problem.
    Excess - there is very little data on toxicity, therefore excess is probably not an issue.

Vitamins

These are organic compounds we require in tiny amounts. An organic compound is any molecule that contains carbon. It is called a vitamin when our bodies cannot synthesize (produce) enough or any of it. So we have to obtain it from our food. Vitamins are classified by what they do biologically - their biological and chemical activity - and not their structure.

Vitamins are classified as water soluble (they can dissolve in water) or fat soluble (they can dissolve in fat). For humans there are 4 fat-soluble (A, D, E, and K) and 9 water-soluble (8 B vitamins and vitamin C) vitamins - a total of 13.

Water soluble vitamins need to be consumed more regularly because they are eliminated faster and are not readily stored. Urinary output is a good predictor of water soluble vitamin consumption. Several water-soluble vitamins are manufactured by bacteria.

Fat soluble vitamins are absorbed through the intestines with the help of fats (lipids). They are more likely to accumulate in the body because they are harder to eliminate quickly. Excess levels of fat soluble vitamins are more likely than with water-soluble vitamins - this condition is called hypervitaminosis. Patients with cystic fibrosis need to have their levels of fat-soluble vitamins closely monitored.

We know that most vitamins have many different reactions, which means they have several different functions. Below is a list of vitamins, and some details we know about them:

  •  Vitamin A chemical names - retinol, retinoids and carotenoids.
    Solubility - fat.
    Deficiency disease - Night-blindness.
    Overdose disease - Keratomalacia (degeneration of the cornea).
  •  Vitamin B1  chemical name - thiamine.
    Solubility - water.
    Deficiency disease - beriberi, Wernicke-Korsakoff syndrome.
    Overdose disease - rare hypersensitive reactions resembling
    anaphylactic shock when overdose is due to injection. Drowsiness.
  •  Vitamin B2 chemical name - riboflavin
    Solubility - water
    Deficiency disease - ariboflanisosis (mouth lesions, seborrhea, and vascularization of the cornea).
    Overdose disease - no known complications. Excess is excreted in urine.
  •  Vitamin B3 chemical name - niacin.
    Solubility - water.
    Deficiency disease - pellagra.
    Overdose disease - liver damage, skin problems, and gastrointestinal complaints, plus other problems.

  •  Vitamin B5 chemical name -pantothenic acid.
    Solubility - water.
    Deficiency disease - paresthesia (tingling, pricking, or numbness of the skin with no apparent long-term physical effect).
    Overdose disease - none reported.
  •  Vitamin B6 chemical name - pyridoxamine, pyridoxal.
    Solubility - water.
    Deficiency disease - anemia, peripheral
    neuropathy.
    Overdose disease - nerve damage, proprioception is impaired (ability to sense stimuli within your own body is undermined).
  •  Vitamin B7 chemical name - biotin.
    Solubility - water.
    Deficiency disease - dermatitis, enteritis.
    Overdose disease - none reported.
  •  Vitamin B9 chemical name - folinic acid.
    Solubility - water.
    Deficiency disease - birth defects during pregnancy, such as neural tube.
    Overdose disease - seizure threshold possibly diminished.
  •  Vitamin B12 chemical name - cyanocobalamin, hydroxycobalamin, methylcobalamin.
    Solubility - water.
    Deficiency disease - megaloblastic anemia (red blood cells without nucleus).
    Overdose disease - none reported.
  •  Vitamin C chemical name - ascorbic acid.
    Solubility - water.
    Deficiency disease - scurvy, which can lead to a large number of complications.
    Overdose disease - vitamin C megadosage -
    diarrhea, nausea, skin irritation, burning upon urination, depletion of the mineral copper, and higher risk of kidney stones.
  •  Vitamin D chemical name - ergocalciferol, cholecalciferol.
    Solubility - fat.
    Deficiency disease - rickets, osteomalacia (softening of bone), recent studies indicate higher risk of some cancers.
    Overdose disease - hypervitaminosis D (
    headache, weakness, disturbed digestion, increased blood pressure, and tissue calcification).
  •  Vitamin E chemical name - tocotrienols.
    Solubility - fat.
    Deficiency disease - very rare, may include hemolytic anemia in newborn babies.
    Overdose disease - one study reported higher risk of congestive
    heart failure.
  •  Vitamin K chemical name - phylloquinone, menaquinones.
    Solubility - fat.
    Deficiency disease - greater tendency to bleed.
    Overdose disease - may undermine effects of warfarin.

Most foods contain a combination of some, or all of the seven nutrient classes. We require some nutrients regularly, and others less frequently. Poor health may be the result of either not enough or too much of a nutrient, or some nutrients - an imbalance.

Foods that protect against cancer and other diseases

Researchers at the Dana-Farber Cancer Institute in Boston explained that many "fall foods" (autumn foods) can help reduce the risk of cancer. They are:

  •  Apples
  •  Berries - especially cranberries
  •  Colorful vegetables - the richer and brighter the pigment, the better
  •  Dark leafy vegetables - kale, cabbage, brussels sprouts, and broccoli
  •  Everything orange - squash, carrots, pumpkins, and sweet potatoes




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