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Heavy Metals Extended Profile, Stool

Heavy metals are found everywhere in the environment and can cause serious damage to human health. Heavy metals can cause damage to the central nervous system, cardiovascular system, gastrointestinal tract, lungs, kidneys, liver, endocrine glands, and bones. In addition to the direct and toxic effects, certain metals can cause hypersensitivity reactions ("allergy" or delayed type IV hypersensitivity) in sensitive individuals, resulting in reactions from the skin, endocrine glands, and immune system.

Testing of stools for Heavy Metals provides information
  1. About the toxic heavy metals body-burden through environmental exposure, ie through diet and drinking water, through the use of oral medications and nutritional supplements as well as swallowing worn tooth fillings
  2. Regarding the elimination of certain heavy metals from the body (such as Mercury, Cadmium, Lead, Antimony, and Uranium), since the excretion through bile in the feces, is the main natural way of their removal from the body. Thus the identification of these metals in the feces, indirectly, can give information about their accumulation in the body
  3. The administration of metal-binding agents (chelating agents) leads to the elimination of toxic heavy metals mainly through the kidneys in the urine. In contrast, support for natural detoxification methods enhances the excretion rate of toxic metals (via bile) in the faeces. Stool Test for Metals provides important information for monitoring the effectiveness of natural methods of metal detoxification in children and patients on well-defined diets that do not contain heavy metal contaminants

Heavy metals exert their effect on the body in two ways. First, even very small concentrations of the metal can cause hypersensitivity reactions (type IV immune response). The permanent stimulation of the immune system resulting from constant exposure to metals can include all aspects of chronic inflammation, such as increased local inflammatory processes, autoimmune reactions, and fatigue. Second, metals such as mercury, cadmium, and palladium have toxic effects even at low doses and inhibit many cellular metabolic processes. Even very low (sub-toxic) concentrations may be of clinical significance, as multiple sources of exposure (from food and water) may enhance the toxicity of the metal. Toxic effects and allergic sensitization to metals occur independently.

To whom Heavy Metals Extended Profile, Stool is addressed

Studies in experimental animals and epidemiological studies in humans suggest that chronic exposure to heavy metals can cause, among others:

  • Attention Deficit Hyperactivity Disorder (ADHD)
  • Autistic type disorders
  • Depression and mood disorders
  • Multiple Sclerosis
  • Neurodegenerative diseases (Parkinson's and Alzheimer's diseases)
  • Chronic fatigue and feeling of reduced energy
  • Infertility
  • Cataract
  • Hypertension
  • Delayed type IV hypersensitivity reactions, such as:
    • Psoriasis
    • Eczema
    • Multiple sclerosis
    • Systemic lupus erythematosus
    • Sjogren's syndrome
    • Thyroiditis
    • Gastrointestinal disorders
    • Fibromyalgia
    • Chronic fatigue syndrome

Checking stool for metals is a useful way to assess the body's exposure (through food, water, and drugs) to various heavy metals exposure. For example, if the consumption of food or water contains high concentrations of heavy metals, then the stool test will be positive. However, just because stool test shows elevated levels of heavy metals does not necessarily mean that their levels are high in the rest of the body. For this reason, it is also recommended to test some other biological material for heavy metals (hairs or nails, blood, urine). If these tests are positive, it shows that the metals detected in saliva are absorbed into the body.

The measurements are performed by the ICP-MS method (Inductively Coupled Plasma Mass Spectrometry), a method that enables the simultaneous detection of many metals. Its sensitivity and accuracy are significantly better compared to the conventional method of atomic absorption, having the ability to measure metals in concentrations up to 1 in 1015 (1 in 1 quadrillion, ppq)!

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