Post by Dr. Hildegarde Staninger on Nov 16, 2006 1:27:01 GMT -5
Part I:
FAR-INFRARED RADIANT HEAT (FIR RH) TYPE REMEDIATION for MOLD and OTHER UNIQUE DISEASES
Dr. Hildegarde Staninger, RIET-1
Industrial Toxicologist/IH,
Doctor of Integrative Medicine
Integrative Health Systems, LLC
415 3/4th N. Larchmont Blvd.,
Los Angeles, CA 90004
Tel: 323-466-2599 Fax: 323-466-2774
(Under construction)
Staninger Report
www.staningerreport.com
www.1cellonelight.com/store
© October 18, 2006,
NREP Annual Conference in Nashville, TN for the
National Registry of Environmental Professionals,
P.0. Box 2099, Glenview, IL 60025
Phone: 847-724-6631 Fax: 847-724-4223
ABSTRACT
Far-Infrared Radiant Heat (FIR RH) has many known names, such as the bridge of Terra Hertz and many others. It is made up of no photons and only 1/2 electron spin that gives it its unique qualities to aid oneself in the remediation of the contamination within one’s own body and in one’s indoor environment. We naturally acquire it from the sun with all the other spectrum specific wavelengths of visible and invisible light. It is the grounding rod of the life force of a single cell, just as it is the universal remedial means for purifying many different items that have a common molecule of water in them. A detailed account of its applications in environmental health and engineering will be discussed in its application of mold and other unique diseases that have affected our bodies, homes, workplaces and environment.
What is Far-Infrared?
It is hard to explain something that one cannot see with the naked eye, but every evening, every one of us looks up into the heavens to see the twinkling stars that make up our universe. We called the first stars born in the galaxies the “heavens.” That beginning emerged in a specific range of radiant heat as a luminous speck of dust and energy called “Infrared.” Infrared is usually divided into 3 spectral regions: near, mid and far-infrared. The boundaries between the near, mid, and far-infrared regions are not agreed upon and can vary, but all create radiant heat. 1
Any object that has a temperature (i.e. radiates heat) emits infrared energy or IR. Therefore, basically all celestial objects and other living organisms emit some infrared. The wavelength at which an object radiates most intensely depends on its temperature. When a person is ill, they will lose radiant heat within their body. The electromagnetic spectrum is composed of three segments of wavelength: near, mid and far- infrared. They are measured in microns or micrometers (a micron = 1/1,000,000 or 0.000,001).1
It is interesting to note that this process may be viewed as losing light within one’s body as seen in chemical luminescence tests, which are currently being used to aid in the treatment of chronic diseases, such as cancer, diabetes, liver and polycystic kidney disease. In general, as the temperature of an object cools, it shows up more prominently at farther infrared wavelengths. This means that some infrared wavelengths are better suited for studying certain objects than others, such as far-infrared.1
The far-infrared segment of the electromagnetic spectrum occurs just below, or “infra” to red light as the next lowest energy band. This band of light is not visible to human eyes but can be seen by special cameras that translate infrared into visible colors, such as the way thermal cameras do.2, 3 We can, however, feel this type of light, which we perceive as heat. The sun produces most of its energy in the infrared segment of the spectrum. Our atmosphere has a “window” in it that allows infrared rays in the 7 to 14 micron ranges to safely reach the earth’s surface. When warmed, the earth radiates infrared rays in the 7-14 micron bands, with peak output at 10 microns.
Our tissues normally produce infrared energy for warmth and tissue repair. Tissue production of infrared energy is associated with a variety of healing responses. At times, the infrared energy in our tissues may require a boost to a higher level to ensure the fullest healing possible for tissue repair.
Body tissues that need an infrared boost selectively absorb infrared rays. The tissue will only use the infrared rays in the areas where it is needed. After boosting a tissue’s infrared energy, the remaining rays pass on harmlessly. This phenomenon is called “resonant absorption.” Our bodies radiate infrared energy through the skin at 3 to 50 microns, with most of the output at 9.4 microns. Our palms emit infrared energy in the level of 8 to 14 microns. If you put your hands on top of each other, but do not allow them to touch, and spin them fast like a tumble weed in a western movie, then stop them and bring the palms near each other but do not let them touch, you will feel a radiant heat. This is infrared energy. Palm healing, an ancient tradition in China, has used the healing properties of infrared rays for 3,000 years. Yogis in India also employ palm healing and recommend it, especially for relieving eyestrain.
Astronomers at the Space Telescope Science Institute, the COBE/DIRBE Science Team and NASA have determined that in the far-infrared range, the stars have all vanished. Instead we now see very cold matter (140 Kelvin or less). Huge, cold clouds of gas and dust in our own galaxy, as well as in nearby galaxies, glow in far-infrared light. In some of these clouds, new stars are just beginning to form. Far-infrared observations can detect these first stars called protostars long before they “turn on” visibly by sensing the heat they radiate as they contract. And maybe this far–infrared light of the cosmos is the simple speck of luminous dust that was used to create all living matter eons of years ago from the pulsation of divine love.4
FDA, EPA and Nanotechnology
Nanotechnlogy is the ability to control things at an atomic and molecular scale of between one and 100 nanometers and has been met with enthusiasm across a variety of industries. Critics highlight the murky area of how nanoparticles affect toxicity and say nanoparticles should be treated as new, potentially harmful materials and tested for safety accordingly.5
Unlike pharmaceuticals, which must go through a series of pre-market approvals, finished dietary supplements need no pre-market approval. Under the Dietary Supplement Health and Education Act (DSHEA), which is part of the Food and Cosmetic Act, only ingredients not marketed in the US before October 1994 must be approved by FDA before use in consumer products. Thus, as it stands, pre-market regulation of nanotechnology in dietary supplements, biological pesticides, and other man made nanotechnology does not fall under FDA, EPA, OSHA, FIFRA and other regulatory agencies in the USA, just for the simple reason that the nanotechnology is so small that the conventional regulatory laboratory methods do not have equipment to measure at 9 decimals below the zero and are only addressing 3 and 4 decimals (ppm, ppb, and ppt).
In 2005, the Woodrow Wilson International Center stated that more than $30 billion in manufactured goods, according to Lux Research, almost doubled the previous year. The market analyst projects that by 2014, 15 % of all globally manufactured goods will incorporate nanotechnology. So, as environmentalists, engineers and scientists, how do we monitor and keep our bodies, workplace and environment safe from its own self?6
Transcending Global Economy by Protecting the Land, Air and Sea
“If there is magic in this planet, it is water,” wrote Loren Eisely. Covering 70% of the earth’s surface and making up two-thirds or more of the weight of living organisms, water is indispensable to life. Not only does it affect humans, animals, and plants, but also the earth’s life force.
Throughout history, the quality of drinking water has been a major factor in determining human welfare.7 Pollutants can range from toxic chemicals, bacteria, mold, virus, parasites, mineral fibers, radon, metals, and even the new nanotechnology products (biological pesticides and viral protein envelope technology).8, 9 The association of cause and effect for lead is attributed to Hippocrates about 400 B.C. Georgius Agricola in the sixteenth century knew enough about the occupational and environmental occurrences of certain diseases and substances encountered to write books on occupational diseases. Ever since, the list of toxicants has grown longer.10 And it will be the synthesizing minded environmental professional who will have to address diseases like Morgellons and other unique diseases that went environmentally wrong in the reality of the world nanotechnology. It’s not a quick fix. Many of the collective engineering, scientific, industrial hygiene, and occupational physicians have had to take care of the mycotoxins and biofilms created from simple mold infestation in the workplace and in the home. The city of New Orleans after hurricane Katrina is just one mold spore time bomb, causing its residents arthritis, Crohns disease, diabetes, and other diseases, to name just a few.11
Water pollution is any physical or chemical change in water that may adversely offset organisms. It is global in scope, but the types of pollution vary according to a country’s level of development and economic stature. In the poorer nations, water pollution is predominantly caused by human and animal wastes, pathogens (bacteria, fungi, and virus), parasites from their waste, and sediment from unsound farming and timbering practices. The rich nations also suffer from these problems, but with their more extravagant lifestyles and widespread industry, they create an additional assortment of potentially hazardous pollutants: heat, toxic metals, acids, pesticides, endocrine disruptors in waste water from medications/chemo, and new nano biological sensors for illegal drug monitoring and biological pesticides.12, 13
The use of the biological pesticide Bacillus Thuringiensis for mosquito control alone in Santa Monica, California left a tale of illogic. If you use a biological agent that is now called a biological pesticide that is made up of the DNA of a Bacillus bacteria from soil and the other half from the DNA of syphilis then it is only logical that 6 months after spraying you would get an outbreak of syphilis in individuals who had some blood generational relative in the past and have an epidemic of this disease. It is simple homeopathic logic to the synthesizing minded environmentalist.
Our EPA air permits only regulate 6 pollutants, with the watchful eye on others on the horizon. None address the use of electronic, psychotronic and information weaponry; high altitude ultra low frequency weapons; plasma, electromagnetic, sonic and ultrasonic weapons, laser weapons, strategic, theater, tactical or extraterrestrial weapons, chemical biological, environmental climate or tectonic weapons. Chemtrails will be part of the environmental professionals’ monitoring programs of the near future to prove it was not industries’ pollution nor a work- place exposure that cause the new diseases of nano and beyond technology.14 The way to protect the environment from these new environmental factors is only by maintaining one’s own health, environment and food sources to be as sound as the cry of a newborn baby through the universe.
Mold and Other Unique Diseases
Mycotoxin is a highly toxic principle produced by molds or fungi. One type, the aflatoxins, is a member of tricothecene group produced by the fusarium fungus. This has been identified in samples of the so called “yellow rain” in Southeast Asia, where it is said to have been the cause of many deaths among war refugees. Its presence there is subject to some conjecture, since the Fusarium fungus cannot germinate in the humid environment of that area unless it is altered through genetic manipulations by man. There is substantial evidence (blood tests, autopsies and contaminated gas masks) that the former U.S.S.R. has used such lethal agents in Afghanistan, just as many other countries have used these lethal agents since the dawn of history. The human body, once exposed to a mycotoxin, runs a triple risk to its toxic effects. The triple risk factors are direct toxic effects of the myctoxins, acquisition of mutated RNAi from the myctoxin’s parent fungus and creation of an internal biofilm, which will harbor a toxic soup of disease.15
Fungi grow all over this planet. They are found in the soil, on trees and in water. Their spores travel throughout the lands by the winds from the four corners of our world. Biosensor testing conducted by the U.S. military has resulted in an increased population of Aspergillus niger on homes, trees and other materials in various areas of the United States of America.16
Over the last decade, starting in the 1990’s, research has implicated many toxin-producing fungi, such as Stachybotrys, Penicillim, Aspergillus, and Fusarium species, to indoor air quality problems and building-related illnesses. Inhalation of mycotoxins, producing fungi in contaminated buildings, is the most significant exposure, however, dermal contact from handling contaminated materials and the chance of ingesting toxin-containing spores through eating, drinking and smoking is likely to increase exposure in a contaminated environment. Recent advances in technology have given laboratories the ability to test for specific mycotoxins without employing cost-prohibitive gas chromatography or high performance liquid chromatography techniques. Currently, surface, bulk food and feeds, and air samples can be analyzed relatively inexpensively for mycotoxins.
During exponential growth, many fungi release low molecular weight, volatile organic compounds (VOCs) as products of secondary metabolism with a melting point of 81 degrees C or less. These compounds comprise a great diversity of chemical structure, including ketones, aldehydes, and alcohols, as well as moderately to highly modified aromatics and aliphatics. Cultural studies of some common household molds suggest that the composition of VOCs remains quantitatively stable over a range of growth media and conditions. Furthermore, the presence of certain marker compounds common to multiple species, such as 3-melthylfuran, may be monitored as a proxy for the presence of a fungal amplifier.17 This method has been suggested as a means of monitoring fungal contamination in grain storage facilities. Limited evidence suggests that exposure to low concentrations of VOCs may induce respiratory irritation independent of exposure to allergenic particulate. Volatile organic compounds may also arise through indirect metabolic effects. A well-known example of this is the fungal degradation of urea formaldehyde foam insulation. Fungal colonization of this material results in the cleavage of urea from the polymer, presumably to serve as a carbon or nitrogen source of primary metabolism. During this process formaldehyde is evolved as a derivative, contributing to a decline in indoor quality.18
Many fungi, mycotoxins, and their VOC’s are at a level of detection within the human body that is very hard to determine at relatively low costs. Tissue samples of blood, urine and even direct organ/tissue biopsy will determine the presence of a fungi, mycotoxin and/or their VOC’s To kill fungi and remove other substances, it is necessary to look at a variety of treatment modalities. Current anti-fungal formulations have been developed to address specific fungal infections. In many cases, it is very hard for the healthcare provider and physician to determine what species of fungi was present that created which specific mycotoxin, which is a billion dollar revenue to the pharmaceutical industry.
Fungal infections in AIDS patients have been observed in tissue biopsy reports to be growing within the tissue, and this causes great health risks to the patient and the environmental engineers who have to monitor HVAC systems within a hospital or hospice setting. The use of far-infrared as a treating modality can address the electromagnetic spectrum in micron and micrometers (nano level), which would be an ideal choice in treating fungal infected and other unique, diseased patients, HVAC surfaces (walls, ceilings, floors) and water. The far-infrared segment of the electromagnetic spectrum occurs just below, or “infra” to, red light as the next lowest energy band, as previously discussed.
Our tissues normally produce infrared energy for warmth and tissue repair. Tissue production of infrared energy is associated with a variety of healing responses. The Far-infrared travels the path of fresh water between the cells thus correcting the water molecules bond angle to a perfect hexagonal shape that then collects a total of 6 water molecules to form a collective microtubule of water. The microtubule then creates a fiber optic response that aligns all the molecules to respond to the correct mechanisms of the blueprint of the DNA. Once far-infrared is within the body at its total capacity, it is repealed. This occurs in all living forms of life and in any material that has moisture or a water molecule within its pores, such as cement which becomes 4-5 times stronger.19
Body tissues that need an infrared boost selectively absorb infrared rays after boosting a tissue’s infrared energy: The remaining rays pass onward harmlessly. This phenomenon is called “resonant absorption.” Our bodies radiate infrared energy from 8 to 14 microns. Palm healing, an ancient tradition in China, has used the healing properties of infrared rays for 3,000 years. Yogis in India also employ palm healing and recommended it especially for relieving eye strain.
The use of high performance carbon fiber that is made from the filaments of man- made diamonds (zirconium), which is crystalline in structure, has been developed by MPS Global, Inc. in panels for FIR Therapy Rooms, and individual use Capsule DIMA. All panels create a steady stream of pure far-infrared radiant heat that is from 4 to 16 microns. There are no photons and 1/2 electron spin, which is the basic definition of FIR in any CRC Press Handbook of Physics text. The use of these panels will create a temperature of 16521 degrees C, which does not cause any burning of the skin or ill effects upon its surfaces. They are the environmental answer to new nanotechnology-created diseases the next generation of environmentalists will have to correct. The melting point of many mycotoxin VOC’s is 81 degrees C and when using FIR radiant heat at 165 degrees C the compounds are evaporated off, or out of the body or surface area, for environmental remedial activity.
Part II is continued at:
drhildy.proboards46.com/index.cgi?board=drhildypapers&action=display&thread=1163658571
FAR-INFRARED RADIANT HEAT (FIR RH) TYPE REMEDIATION for MOLD and OTHER UNIQUE DISEASES
Dr. Hildegarde Staninger, RIET-1
Industrial Toxicologist/IH,
Doctor of Integrative Medicine
Integrative Health Systems, LLC
415 3/4th N. Larchmont Blvd.,
Los Angeles, CA 90004
Tel: 323-466-2599 Fax: 323-466-2774
(Under construction)
Staninger Report
www.staningerreport.com
www.1cellonelight.com/store
© October 18, 2006,
NREP Annual Conference in Nashville, TN for the
National Registry of Environmental Professionals,
P.0. Box 2099, Glenview, IL 60025
Phone: 847-724-6631 Fax: 847-724-4223
ABSTRACT
Far-Infrared Radiant Heat (FIR RH) has many known names, such as the bridge of Terra Hertz and many others. It is made up of no photons and only 1/2 electron spin that gives it its unique qualities to aid oneself in the remediation of the contamination within one’s own body and in one’s indoor environment. We naturally acquire it from the sun with all the other spectrum specific wavelengths of visible and invisible light. It is the grounding rod of the life force of a single cell, just as it is the universal remedial means for purifying many different items that have a common molecule of water in them. A detailed account of its applications in environmental health and engineering will be discussed in its application of mold and other unique diseases that have affected our bodies, homes, workplaces and environment.
What is Far-Infrared?
It is hard to explain something that one cannot see with the naked eye, but every evening, every one of us looks up into the heavens to see the twinkling stars that make up our universe. We called the first stars born in the galaxies the “heavens.” That beginning emerged in a specific range of radiant heat as a luminous speck of dust and energy called “Infrared.” Infrared is usually divided into 3 spectral regions: near, mid and far-infrared. The boundaries between the near, mid, and far-infrared regions are not agreed upon and can vary, but all create radiant heat. 1
Any object that has a temperature (i.e. radiates heat) emits infrared energy or IR. Therefore, basically all celestial objects and other living organisms emit some infrared. The wavelength at which an object radiates most intensely depends on its temperature. When a person is ill, they will lose radiant heat within their body. The electromagnetic spectrum is composed of three segments of wavelength: near, mid and far- infrared. They are measured in microns or micrometers (a micron = 1/1,000,000 or 0.000,001).1
It is interesting to note that this process may be viewed as losing light within one’s body as seen in chemical luminescence tests, which are currently being used to aid in the treatment of chronic diseases, such as cancer, diabetes, liver and polycystic kidney disease. In general, as the temperature of an object cools, it shows up more prominently at farther infrared wavelengths. This means that some infrared wavelengths are better suited for studying certain objects than others, such as far-infrared.1
The far-infrared segment of the electromagnetic spectrum occurs just below, or “infra” to red light as the next lowest energy band. This band of light is not visible to human eyes but can be seen by special cameras that translate infrared into visible colors, such as the way thermal cameras do.2, 3 We can, however, feel this type of light, which we perceive as heat. The sun produces most of its energy in the infrared segment of the spectrum. Our atmosphere has a “window” in it that allows infrared rays in the 7 to 14 micron ranges to safely reach the earth’s surface. When warmed, the earth radiates infrared rays in the 7-14 micron bands, with peak output at 10 microns.
Our tissues normally produce infrared energy for warmth and tissue repair. Tissue production of infrared energy is associated with a variety of healing responses. At times, the infrared energy in our tissues may require a boost to a higher level to ensure the fullest healing possible for tissue repair.
Body tissues that need an infrared boost selectively absorb infrared rays. The tissue will only use the infrared rays in the areas where it is needed. After boosting a tissue’s infrared energy, the remaining rays pass on harmlessly. This phenomenon is called “resonant absorption.” Our bodies radiate infrared energy through the skin at 3 to 50 microns, with most of the output at 9.4 microns. Our palms emit infrared energy in the level of 8 to 14 microns. If you put your hands on top of each other, but do not allow them to touch, and spin them fast like a tumble weed in a western movie, then stop them and bring the palms near each other but do not let them touch, you will feel a radiant heat. This is infrared energy. Palm healing, an ancient tradition in China, has used the healing properties of infrared rays for 3,000 years. Yogis in India also employ palm healing and recommend it, especially for relieving eyestrain.
Astronomers at the Space Telescope Science Institute, the COBE/DIRBE Science Team and NASA have determined that in the far-infrared range, the stars have all vanished. Instead we now see very cold matter (140 Kelvin or less). Huge, cold clouds of gas and dust in our own galaxy, as well as in nearby galaxies, glow in far-infrared light. In some of these clouds, new stars are just beginning to form. Far-infrared observations can detect these first stars called protostars long before they “turn on” visibly by sensing the heat they radiate as they contract. And maybe this far–infrared light of the cosmos is the simple speck of luminous dust that was used to create all living matter eons of years ago from the pulsation of divine love.4
FDA, EPA and Nanotechnology
Nanotechnlogy is the ability to control things at an atomic and molecular scale of between one and 100 nanometers and has been met with enthusiasm across a variety of industries. Critics highlight the murky area of how nanoparticles affect toxicity and say nanoparticles should be treated as new, potentially harmful materials and tested for safety accordingly.5
Unlike pharmaceuticals, which must go through a series of pre-market approvals, finished dietary supplements need no pre-market approval. Under the Dietary Supplement Health and Education Act (DSHEA), which is part of the Food and Cosmetic Act, only ingredients not marketed in the US before October 1994 must be approved by FDA before use in consumer products. Thus, as it stands, pre-market regulation of nanotechnology in dietary supplements, biological pesticides, and other man made nanotechnology does not fall under FDA, EPA, OSHA, FIFRA and other regulatory agencies in the USA, just for the simple reason that the nanotechnology is so small that the conventional regulatory laboratory methods do not have equipment to measure at 9 decimals below the zero and are only addressing 3 and 4 decimals (ppm, ppb, and ppt).
In 2005, the Woodrow Wilson International Center stated that more than $30 billion in manufactured goods, according to Lux Research, almost doubled the previous year. The market analyst projects that by 2014, 15 % of all globally manufactured goods will incorporate nanotechnology. So, as environmentalists, engineers and scientists, how do we monitor and keep our bodies, workplace and environment safe from its own self?6
Transcending Global Economy by Protecting the Land, Air and Sea
“If there is magic in this planet, it is water,” wrote Loren Eisely. Covering 70% of the earth’s surface and making up two-thirds or more of the weight of living organisms, water is indispensable to life. Not only does it affect humans, animals, and plants, but also the earth’s life force.
Throughout history, the quality of drinking water has been a major factor in determining human welfare.7 Pollutants can range from toxic chemicals, bacteria, mold, virus, parasites, mineral fibers, radon, metals, and even the new nanotechnology products (biological pesticides and viral protein envelope technology).8, 9 The association of cause and effect for lead is attributed to Hippocrates about 400 B.C. Georgius Agricola in the sixteenth century knew enough about the occupational and environmental occurrences of certain diseases and substances encountered to write books on occupational diseases. Ever since, the list of toxicants has grown longer.10 And it will be the synthesizing minded environmental professional who will have to address diseases like Morgellons and other unique diseases that went environmentally wrong in the reality of the world nanotechnology. It’s not a quick fix. Many of the collective engineering, scientific, industrial hygiene, and occupational physicians have had to take care of the mycotoxins and biofilms created from simple mold infestation in the workplace and in the home. The city of New Orleans after hurricane Katrina is just one mold spore time bomb, causing its residents arthritis, Crohns disease, diabetes, and other diseases, to name just a few.11
Water pollution is any physical or chemical change in water that may adversely offset organisms. It is global in scope, but the types of pollution vary according to a country’s level of development and economic stature. In the poorer nations, water pollution is predominantly caused by human and animal wastes, pathogens (bacteria, fungi, and virus), parasites from their waste, and sediment from unsound farming and timbering practices. The rich nations also suffer from these problems, but with their more extravagant lifestyles and widespread industry, they create an additional assortment of potentially hazardous pollutants: heat, toxic metals, acids, pesticides, endocrine disruptors in waste water from medications/chemo, and new nano biological sensors for illegal drug monitoring and biological pesticides.12, 13
The use of the biological pesticide Bacillus Thuringiensis for mosquito control alone in Santa Monica, California left a tale of illogic. If you use a biological agent that is now called a biological pesticide that is made up of the DNA of a Bacillus bacteria from soil and the other half from the DNA of syphilis then it is only logical that 6 months after spraying you would get an outbreak of syphilis in individuals who had some blood generational relative in the past and have an epidemic of this disease. It is simple homeopathic logic to the synthesizing minded environmentalist.
Our EPA air permits only regulate 6 pollutants, with the watchful eye on others on the horizon. None address the use of electronic, psychotronic and information weaponry; high altitude ultra low frequency weapons; plasma, electromagnetic, sonic and ultrasonic weapons, laser weapons, strategic, theater, tactical or extraterrestrial weapons, chemical biological, environmental climate or tectonic weapons. Chemtrails will be part of the environmental professionals’ monitoring programs of the near future to prove it was not industries’ pollution nor a work- place exposure that cause the new diseases of nano and beyond technology.14 The way to protect the environment from these new environmental factors is only by maintaining one’s own health, environment and food sources to be as sound as the cry of a newborn baby through the universe.
Mold and Other Unique Diseases
Mycotoxin is a highly toxic principle produced by molds or fungi. One type, the aflatoxins, is a member of tricothecene group produced by the fusarium fungus. This has been identified in samples of the so called “yellow rain” in Southeast Asia, where it is said to have been the cause of many deaths among war refugees. Its presence there is subject to some conjecture, since the Fusarium fungus cannot germinate in the humid environment of that area unless it is altered through genetic manipulations by man. There is substantial evidence (blood tests, autopsies and contaminated gas masks) that the former U.S.S.R. has used such lethal agents in Afghanistan, just as many other countries have used these lethal agents since the dawn of history. The human body, once exposed to a mycotoxin, runs a triple risk to its toxic effects. The triple risk factors are direct toxic effects of the myctoxins, acquisition of mutated RNAi from the myctoxin’s parent fungus and creation of an internal biofilm, which will harbor a toxic soup of disease.15
Fungi grow all over this planet. They are found in the soil, on trees and in water. Their spores travel throughout the lands by the winds from the four corners of our world. Biosensor testing conducted by the U.S. military has resulted in an increased population of Aspergillus niger on homes, trees and other materials in various areas of the United States of America.16
Over the last decade, starting in the 1990’s, research has implicated many toxin-producing fungi, such as Stachybotrys, Penicillim, Aspergillus, and Fusarium species, to indoor air quality problems and building-related illnesses. Inhalation of mycotoxins, producing fungi in contaminated buildings, is the most significant exposure, however, dermal contact from handling contaminated materials and the chance of ingesting toxin-containing spores through eating, drinking and smoking is likely to increase exposure in a contaminated environment. Recent advances in technology have given laboratories the ability to test for specific mycotoxins without employing cost-prohibitive gas chromatography or high performance liquid chromatography techniques. Currently, surface, bulk food and feeds, and air samples can be analyzed relatively inexpensively for mycotoxins.
During exponential growth, many fungi release low molecular weight, volatile organic compounds (VOCs) as products of secondary metabolism with a melting point of 81 degrees C or less. These compounds comprise a great diversity of chemical structure, including ketones, aldehydes, and alcohols, as well as moderately to highly modified aromatics and aliphatics. Cultural studies of some common household molds suggest that the composition of VOCs remains quantitatively stable over a range of growth media and conditions. Furthermore, the presence of certain marker compounds common to multiple species, such as 3-melthylfuran, may be monitored as a proxy for the presence of a fungal amplifier.17 This method has been suggested as a means of monitoring fungal contamination in grain storage facilities. Limited evidence suggests that exposure to low concentrations of VOCs may induce respiratory irritation independent of exposure to allergenic particulate. Volatile organic compounds may also arise through indirect metabolic effects. A well-known example of this is the fungal degradation of urea formaldehyde foam insulation. Fungal colonization of this material results in the cleavage of urea from the polymer, presumably to serve as a carbon or nitrogen source of primary metabolism. During this process formaldehyde is evolved as a derivative, contributing to a decline in indoor quality.18
Many fungi, mycotoxins, and their VOC’s are at a level of detection within the human body that is very hard to determine at relatively low costs. Tissue samples of blood, urine and even direct organ/tissue biopsy will determine the presence of a fungi, mycotoxin and/or their VOC’s To kill fungi and remove other substances, it is necessary to look at a variety of treatment modalities. Current anti-fungal formulations have been developed to address specific fungal infections. In many cases, it is very hard for the healthcare provider and physician to determine what species of fungi was present that created which specific mycotoxin, which is a billion dollar revenue to the pharmaceutical industry.
Fungal infections in AIDS patients have been observed in tissue biopsy reports to be growing within the tissue, and this causes great health risks to the patient and the environmental engineers who have to monitor HVAC systems within a hospital or hospice setting. The use of far-infrared as a treating modality can address the electromagnetic spectrum in micron and micrometers (nano level), which would be an ideal choice in treating fungal infected and other unique, diseased patients, HVAC surfaces (walls, ceilings, floors) and water. The far-infrared segment of the electromagnetic spectrum occurs just below, or “infra” to, red light as the next lowest energy band, as previously discussed.
Our tissues normally produce infrared energy for warmth and tissue repair. Tissue production of infrared energy is associated with a variety of healing responses. The Far-infrared travels the path of fresh water between the cells thus correcting the water molecules bond angle to a perfect hexagonal shape that then collects a total of 6 water molecules to form a collective microtubule of water. The microtubule then creates a fiber optic response that aligns all the molecules to respond to the correct mechanisms of the blueprint of the DNA. Once far-infrared is within the body at its total capacity, it is repealed. This occurs in all living forms of life and in any material that has moisture or a water molecule within its pores, such as cement which becomes 4-5 times stronger.19
Body tissues that need an infrared boost selectively absorb infrared rays after boosting a tissue’s infrared energy: The remaining rays pass onward harmlessly. This phenomenon is called “resonant absorption.” Our bodies radiate infrared energy from 8 to 14 microns. Palm healing, an ancient tradition in China, has used the healing properties of infrared rays for 3,000 years. Yogis in India also employ palm healing and recommended it especially for relieving eye strain.
The use of high performance carbon fiber that is made from the filaments of man- made diamonds (zirconium), which is crystalline in structure, has been developed by MPS Global, Inc. in panels for FIR Therapy Rooms, and individual use Capsule DIMA. All panels create a steady stream of pure far-infrared radiant heat that is from 4 to 16 microns. There are no photons and 1/2 electron spin, which is the basic definition of FIR in any CRC Press Handbook of Physics text. The use of these panels will create a temperature of 16521 degrees C, which does not cause any burning of the skin or ill effects upon its surfaces. They are the environmental answer to new nanotechnology-created diseases the next generation of environmentalists will have to correct. The melting point of many mycotoxin VOC’s is 81 degrees C and when using FIR radiant heat at 165 degrees C the compounds are evaporated off, or out of the body or surface area, for environmental remedial activity.
Part II is continued at:
drhildy.proboards46.com/index.cgi?board=drhildypapers&action=display&thread=1163658571