GG - Urinary Atomic Metallogram

URINE BIOCHEMISTRY
URINARY ATOMIC METALLOGRAM
(Complete urinary ionogram)
UAM

INTERPRETATION BY SYNOPTIC MATRICES
ATOMIC MATRICIAL IMAGERY
(AMI.)
TECHNIQUES USED:
Atomic mass spectrometry (ICP-MS)
Atomic emission spectrometry (ICP-AES)

HISTORY AND DEVELOPMENT

Ancient people always considered the urine to be a reflection of an individual's pathological image. Whether this is true or not, physicians in ancient Greece, China and Egypt used urine to increase their knowledge of the patient and their general condition.

The techniques used were both simple and complex: they evaluated the taste, the color, the smell, the acidity, the alkalinity and the different phases (protein or lithiase residues). What is less well known is that they also used large magnifying glasses and prisms which, when the urine was exposed to the sun or candlelight in a dark place, allowed very detailed observation.

Nowadays, these methods, which may seem to be empirical to us, have been replaced by biological techniques and spectrometry, which is the latest technical development in this field.

The first researcher to perfect this analytical technique was Prof. Dr. Christian Daniel ASSOUN, who also co-founded the quantum medicine concept that is largely based on this type of analysis. He started his analyses in 1983 in France and Switzerland. Nowadays, these analyses are performed in Spain and Switzerland with the latest generation of equipment that allows metal and metalloid elements to be evaluated with an accuracy of a millionth of a gram per liter (ppm 10-6) and a billionth of a gram (ppb .10-9).

Despite their low levels, these elements play a role that can be very important in cellular chemistry, as recent studies on lanthanides (rare earths) have shown. Consequently, this analysis allows us to evaluate about seventy-two metals and metalloids including not only trace elements and macro-elements but also heavy and toxic metals, precious metals, transition metals and active metals with poorly understood roles in the EMS (Enzyme-Metal-Substrate). The urinary ionogram provides a degree of precision that was never previously possible.

The full list of elements evaluated follows:

ELEMENTS ANALYSED

Main macro-elements (milligram / liter - ppm)

Sodium (Na), Potassium (K), Phosphorous (P), Calcium (Ca), Magnesium (Mg)

Secondary macro-elements (milligram / liter - ppm)

Silicon (Si), Boron (B), Bromine (Br), Rubidium (Rb), Strontium (Sr)

Trace elements (microgram / liter - ppb)

Molybdenum (Mo), Zinc (Zn), Scandium (Sc), Yttrium (Y), Lanthanum (La), Cerium (Ce), Praseodymium (Pr), Neodymium (Nd), Samarium (Sm), Europium (Eu), Gadolinium (Gd), Terbium (Tb), Dysprosium (Dy), Holmium (Ho), Erbium (Er), Thulium (Tm), Ytterbium (Yb), Lutetium (Lu).

Heavy and toxic metals (microgram / liter - ppb)

Cadmium (Cd), Mercury (Hg), Lead (Pb), Thorium (Th), Uranium (U), Thallium (Tl), Beryllium (Be), Arsenic (As), Antimony (Sb), Tin (Sn)

Metals with a poorly understood EMS role (microgram / liter - ppb)

Germanium (Ge), Gallium (Ga), Lithium (Li)

Precious metals and similar (microgram / liter - ppb)

Palladium (Pd), Silver (Ag), Ruthenium (Ru), Rhodium (Rh), Osmium (Os), Iridium (Ir), Platinum (Pt), Gold (Au)

Transition metals (microgram / liter - ppb)

Iron (Fe), Cobalt (Co), Manganese (Mn), Copper (Cu)

Toxic metals at certain doses (microgram / liter - ppb)

Aluminum (Al), Chromium (Cr), Nickel (Ni), Vanadium (V), Indium (In), Cesium (Cs), Barium (Ba), Selenium (Se), Hafnium (Hf), Tantalum (Ta), Tungsten (W), Rhenium (Re), Bismuth (Bi), Zirconium (Zr), Iodine (I), Titanium (Ti)

APPLICATIONS

The Metallogram or Urine Profile or Urinary Ionogram provides essential information on the patient's metallo-protein biological functions. It can also be used to confirm proportional clinical observations (through using standards established on healthy people).

This evaluation is made using a urine sample (a painless and non-traumatic technique) and is available for any healthcare professional who wants to know their patient's catalytic and electrolytic resources. It is also complementary to all other biological analyses.

Furthermore, the results from more than 100,000 Metallograms in Europe means we can provide healthcare professionals with all the specialist comments on numerous biological functions related to natural elements (metals and metalloids). These comments concern the electro-chemical equilibrium, immunity, hormonology, calcium-magnesium status, inflammatory status, the ATP-Mg (general energy) mechanism, protein synthesis and lanthanides, the presence of toxic elements, etc.

This evaluation means that not only are potential heavy metal toxic situations detected but we can also monitor compliance with self-medication or self-supplementation when it involves trace elements at set dose rates (Lithium, Germanium, Magnesium, etc…)

Finally, the most recent research work has confirmed the close relationship between the dose of some metals and the condition of some organic functions or groups of functions that we call Atomic Matrices which synoptically complements information on normal levels.

Implementing matrices (currently there are 14) allows us to make the Urinary Atomic Metallogram a powerful medical tool not only for clinical cases but also for preventive use in the largest sense of this term.

Detecting an area at risk allows the healthcare professional to accurately direct their work even before any pathological condition is detectable at a physiological level because it is preceded by abnormalities in the metallogram, in other words variations in the level of metals and metalloids.

ATOMIC MATRICIAL IMAGERY

As suggested above, the different matrices provide an image of one or more organic functions. They reflect the patient's general condition and allow a better understanding of the options for correction and implications of variations, which are detected even earlier in the metallogram. The last of the various matrices provides the electrolyte and toxic equilibriums that are particularly useful in odontology.

The different matrices that are used and the metals and metalloids in them are as follows:

I - Neuronal Elemental Matrix NEM
Silicon, Calcium, Boron, Magnesium, Manganese, Iron, Zinc, Cobalt, Aluminum.

II – Vascular and Cardiac Matrix VCM
Silicon, Potassium, Magnesium, Calcium, Selenium, Rubidium.

III – Hepatic and Pancreatic Matrix HPM
Iron, Manganese, Vanadium, Zinc, Nickel, Chromium, Cobalt, Copper.

IV – Hepato-Renal Matrix HRM
Iron, Copper, Arsenic, Lead, Tin, Antimony, Mercury, Cadmium.

V – Protein and Zinc-Polymerases Matrix PZPM
Yttrium, Scandium, 14 Lanthanides (Lanthanum to Lutetium).

VI – Immuno-Protective Matrix IPM
Silicon, Germanium, Molybdenum, Zinc, Boron.

VII – Biotic Matrix BM
Rubidium, Bromine, Strontium, Yttrium, Scandium.

VIII – Endocrine and Hormonological Matrix EHM
Zinc, Vanadium, Nickel, Cobalt, Chromium, Indium.

IX – Energy Matrix EM
Phosphorous, Magnesium.

X – Triad Matrix TriadM
Copper, Gold, Silver.

XI – Toxic inhibitive Matrix TIM
Lead, Antimony, Tin, Thorium, Cadmium, Mercury, Thallium, Uranium, Titanium, Silver, Bismuth, Beryllium, Selenium, Arsenic, Cesium.

XII – Osteo Calcium Matrix OCM
Lead, Calcium, Boron, Phosphorous, Magnesium, Mercury, Cadmium, Zinc.

XIII – Vital Analytic Matrix of the Urinary Atomic Metallogram VAM
Recap of the twelve preceding matrices.

XIV – Odontologic Matrix ODM
Lead, Antimony, Tin, Thorium, Cadmium, Mercury, Thallium, Uranium, Titanium, Silver Bismuth, Beryllium, Selenium, Arsenic, Cesium, Lead, Calcium, Boron, Magnesium, Mercury, Zinc.

There are then 15 electrolyte equilibriums

Presented as they are, one can see that this evaluation will have a specific characteristics for people with general immune problems (including chemotherapy), during pregnancy and post-partum, for diabetics, during the menopause and in osteoporosis, for anemia’s, nervous depressions, etc. We could develop a list of pathological conditions that is too long to count but our experience has shown that in especially difficult conditions, such as autism or fibromyalgia, this type of analysis can provide different information to those normally used.

HEAVY METALS AND THE QUELATORR PROTOCOL

The problems related to heavy and toxic metals are never far from our thoughts. In practice, these metals have the habit of chemically occupying the place or sites where macro-elements and trace elements, such as calcium, magnesium or zinc, are primordial in the body. As a result, they are responsible for many health problems ranging from chronic tiredness to various cancers.

Detecting heavy and toxic metals with certainty using the Urinary Atomic Metallogram was, without doubt, an important first step but we wanted to go further and find a solution that would effectively dechelate them whilst conserving the other metals that are required for our internal chemistry.

The chemical dechelating agents that are currently used (DMSO, DMPS, DMSA or, still, EDTA protocols) displace the body’s zinc (Zn) and molybdenum (Mo) reserves. As for natural dechelating agents, such as some algae, it has been confirmed that they contain heavy and toxic metals (sea pollution) and as a result their dechelating action can also displace zinc reserves.

The QUELATORR was developed over ten years ago by research teams at Glycanmétal and has the advantage of dechelating heavy metals and promoting the elimination of all of them whilst preserving the fragile equilibrium of the zinc reserves.

This patented protocol is based on using a zinc molecule that is attached electro-chemically to a fructose molecule.

The product has been named Zn-FLNT4 and has proven its effectiveness over ten years as a dechelating agent and in restoring the zinc reserves that are so important as zinc is implicated in over 200 metallo-enzymatic reactions.

THE PROCEDURE

Urine analysis by Urinary Atomic Metallogram UAM which detects heavy and toxic metals in the body.
Environmental pollution monitoring using hair analysis
Implementation of a dechelation protocol based on Zn-FLNT4 for a period of two to three months depending on the seriousness of the intoxication.
Check the progress of the dechelation using another Urinary Atomic Metallogram.
Implementation of a supplementation program to compensate for trace metal losses caused by the intoxication, where necessary.
A final Urinary Atomic Metallogram can be used six months later to check that everything has returned to normal.

NOTA BENE: The same principle can be applied in odontology when several fillings are being done and metal is placed in the mouth.

In the latter case, even if they are deposed under continuous aspiration, we still recommend a control Metallogram both for the patient and the healthcare professional. In fact, it s not rare to find abnormally high lead and mercury levels in healthcare professionals.

IN SUMMARY

The Urinary Atomic Metallogram (UAM) is an evaluation of a biological fluid (urine) which uses a complex analytical protocol to provide a complete evaluation of all the natural elements present in the urine.

The Urinary Atomic Metallogram is an evaluation that provides information on any potential deficiencies or problems in catalytic, biological, hormonal or immune processes.

The Urinary Atomic Metallogram is an evaluation that allows each patient's distribution of catalytic and electrolytic resources to be measured.

The Urinary Atomic Metallogram is a useful evaluation for all types of pathological condition, acute or chronic, mild or serious.

The Urinary Atomic Metallogram is part of the clinical, preventive and infra-clinical medicine complex.

The Urinary Atomic Metallogram can be used to monitor the depletion or catalytic products in patients undergoing long-term therapy with antibiotics, corticosteroids, chemotherapeutics, insulin, neuroleptics and dechelating therapies.