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Lesson Four
Purpose: To determine your percent accuracy in listening for resonance. Materials: The SALT #1 and SALT #2 solutions you made for Lesson One. Method: Move the SALT #1 and SALT #2 labels to the bottom of the bottles so you can not tell which bottle is which. 1. Turn the Syncrometer ON. 2. Start with the test switch OFF. 3. Mix the bottles up, select one at random, and place it on the right plate. 4. Listen to the current. 5. Flip the plate switch ON and make your second probe. 6. Resonance indicates a SALT #1, no resonance indicates SALT #2. Check the bottom. Remember to rest after the SALT #1, whether or not you heard resonance. 7. Repeat steps 3 through 5 a number of times. Work toward getting three out of three correct. Practice every day.
Trouble shooting: a) If you repeat this experiment and you keep getting the same bottles “"wrong”", start over. You may have accidentally contaminated or mislabeled the outside of the bottle, or switched bottle caps. b) If you get different bottles wrong each time, the plates may be contaminated. Wash the outside of the bottles and rinse with filtered water and dry. Wipe the plates very gently too, with filtered water and dry. Or replace the plates. c) If all the bottles read the same, your filtered water is polluted. Change the filter. |
Lesson Four
Purpose: To determine your percent accuracy in listening for resonance. Materials: The SALT #1 and SALT #2 solutions you made for Lesson One. Method: Move the SALT #1 and SALT #2 labels to the bottom of the bottles so you can not tell which bottle is which. 1. Turn the Syncrometer ON. 2. Start with the test switch OFF. 3. Mix the bottles up, select one at random, and place it on the right plate. 4. Listen to the current. 5. Flip the plate switch ON and make your second probe. 6. Resonance indicates a SALT #1, no resonance indicates SALT #2. Check the bottom. Remember to rest after the SALT #1, whether or not you heard resonance. 7. Repeat steps 3 through 5 a number of times. Work toward getting three out of three correct. Practice every day.
Trouble shooting: a) If you repeat this experiment and you keep getting the same bottles “"wrong”", start over. You may have accidentally contaminated or mislabeled the outside of the bottle, or switched bottle caps. b) If you get different bottles wrong each time, the plates may be contaminated. Wash the outside of the bottles and rinse with filtered water and dry. Wipe the plates very gently too, with filtered water and dry. Or replace the plates. c) If all the bottles read the same, your filtered water is polluted. Change the filter. 471 | ||
Preparing Test Substances
It is possible to prepare dry substances for testing such as a piece of lead or grains of pesticide. They can simply be put in a plastic bag and placed on the test plate. However, I prefer to place a small amount (the size of a pea) of the substance into a ½ ounce bottle of filtered water. There will be many chemical reactions between the substance and the water to produce a number of test substances all contained in one bottle. This simulates the situation in the body. Within the body, where salt and water are abundant, similar reactions may occur between elements and water. For example, a strip of pure (99.9% pure) copper placed in filtered water might yield copper hydroxide, cuprous oxide, cupric oxide, copper dioxide, and so forth. These may be similar to some of the reaction products one might expect in the body, coming from a copper IUD, copper bracelet or the copper from metal tooth fillings. Since the electronic properties of elemental copper are not the same as for copper compounds, we would miss many test results if we used only dry elemental copper as a test substance.
Impure Test Substances
It is not necessary to have pure test substances. For instance, a tire balancer made of lead can be easily obtained at an auto service station. Leaded gasoline and lead fishing weights also make good test substances for lead. There is a disadvantage, though, to using impure test substances. You are including the extra impurities in your test. If your lead object also has tin in it, you are also testing for tin. Usually, you can infer the truth by some careful maneuvering. If you have searched your kidneys for leaded gasoline, fishing weights and tire balancers and all 3 are resonant with your kidneys, you may infer that you have lead in your kidneys, since the common element in all 3 items is |
Preparing Test Substances
It is possible to prepare dry substances for testing such as a piece of lead or grains of pesticide. They can simply be put in a plastic bag and placed on the test plate. However, I prefer to place a small amount (the size of a pea) of the substance into a ½ ounce bottle of filtered water. There will be many chemical reactions between the substance and the water to produce a number of test substances all contained in one bottle. This simulates the situation in the body. Within the body, where salt and water are abundant, similar reactions may occur between elements and water. For example, a strip of pure (99.9% pure) copper placed in filtered water might yield copper hydroxide, cuprous oxide, cupric oxide, copper dioxide, and so forth. These may be similar to some of the reaction products one might expect in the body, coming from a copper IUD, copper bracelet or the copper from metal tooth fillings. Since the electronic properties of elemental copper are not the same as for copper compounds, we would miss many test results if we used only dry elemental copper as a test substance.
Impure Test Substances
It is not necessary to have pure test substances. For instance, a tire balancer made of lead can be easily obtained at an auto service station. Leaded gasoline and lead fishing weights also make good test substances for lead. There is a disadvantage, though, to using impure test substances. You are including the extra impurities in your test. If your lead object also has tin in it, you are also testing for tin. Usually, you can infer the truth by some careful maneuvering. If you have searched your kidneys for leaded gasoline, fishing weights and tire balancers and all 3 are resonant with your kidneys, you may infer that you have lead in your kidneys, since the common element in all 3 items is 472 | ||
lead. (You will learn how to specify a tissue, such as your kidneys, later.) Using pure chemicals gives you certainty in your results. You can purchase pure chemicals from chemical supply companies (see Sources). Your pharmacy, a child's chemistry set, a paint store, or biological supply company can also supply some.
You can make test substances out of your hand soap, water softener salt, and laundry detergent by putting a small amount (1/16 tsp.) in a ½ ounce glass bottle and adding about 2 tsp. filtered water. (Or for quick testing just put them dry or wet in a sealed plastic baggy.) Always use a plastic spoon. Here are some suggestions for finding sources of toxic products to make your own toxic element test. If the product is a solid, place a small amount in a plastic bag and add a tablespoon of filtered water to get a temporary test product. For permanent use put it in a small amber glass bottle. If the product is a liquid, pour a few drops into a glass bottle and add about 2 tsp. filtered water. Keep all toxic substances in glass bottles for your own safety. Small amber glass dropper bottles can be purchased by the dozen at drug stores (also see Sources). Seal your test bottles with tape for safety and to prevent evaporation.
Aflatoxin: scrape the mold off an orange or piece of bread; wash hands afterward. Acetone: paint supply store or pharmacy. Arsenic: 1/16 tsp. of arsenate pesticide from a garden shop. A snippet of flypaper. Aluminum: a piece of aluminum foil (not tin foil) or an aluminum measuring spoon. |
lead. (You will learn how to specify a tissue, such as your kidneys, later.) Using pure chemicals gives you certainty in your results. You can purchase pure chemicals from chemical supply companies (see Sources). Your pharmacy, a child's chemistry set, a paint store, or biological supply company can also supply some.
You can make test substances out of your hand soap, water softener salt, and laundry detergent by putting a small amount (1/16 tsp.) in a ½ ounce glass bottle and adding about 2 tsp. filtered water. (Or for quick testing just put them dry or wet in a sealed plastic baggy.) Always use a plastic spoon. Here are some suggestions for finding sources of toxic products to make your own toxic element test. If the product is a solid, place a small amount in a plastic bag and add a tablespoon of filtered water to get a temporary test product. For permanent use put it in a small amber glass bottle. If the product is a liquid, pour a few drops into a glass bottle and add about 2 tsp. filtered water. Keep all toxic substances in glass bottles for your own safety. Small amber glass dropper bottles can be purchased by the dozen at drug stores (also see Sources). Seal your test bottles with tape for safety and to prevent evaporation.
Aflatoxin: scrape the mold off an orange or piece of bread; wash hands afterward. Acetone: paint supply store or pharmacy. Arsenic: 1/16 tsp. of arsenate pesticide from a garden shop. A snippet of flypaper. Aluminum: a piece of aluminum foil (not tin foil) or an aluminum measuring spoon. 473 | ||
Aluminum silicate: a bit of salt that has this free running agent in it. Asbestos: a small piece of asbestos sheeting, an old furnace gasket, 1/4 inch of a clothes dryer belt that does not say “"Made in USA”", or a crumb of building material being removed due to its asbestos content (ask a contractor). Barium: save a few drops from the beverage given clients scheduled for an X-ray. Lipstick that has barium listed in the ingredients. Benzene: an old can of rubber cement (new supplies do not have it). A tsp. of asphalt crumbs from a driveway. Beryllium: a piece of coal; a few drops of “"coal oil”" or lamp oil. Bismuth: use a few drops of antacid with bismuth in it. Bromine: bleached “"brominated”" flour. Cadmium: scrape a bit off a galvanized nail, paint from a hobby store. Cesium: scrape the surface of a clear plastic beverage bottle. CFCs (freon): ask an electronics expert for a squirt from an old aerosol can that used freon as a cleaner. (Squirt into water, outdoors, put the water in a sample bottle.) Chromate: scrape an old car bumper. Cobalt: pick out the blue and green crumbs from detergent. A sample of cobalt containing paint should also suffice. Chlorine: a few drops of pure, old fashioned Clorox.TM Copper: ask your hardware clerk to cut a small fragment off a copper pipe of the purest variety or a ¼ inch of pure copper wire. Ergot: a teaspoon of rye grains, or rye bread. Add grain alcohol to preserve. Ether: automotive supply store (engine starting fluid). Ethyl alcohol (grain alcohol): the purest “"drinking”" alcohol available. EverclearTM in the United States, ProtecTM (potable) in Mexico. |
Aluminum silicate: a bit of salt that has this free running agent in it. Asbestos: a small piece of asbestos sheeting, an old furnace gasket, 1/4 inch of a clothes dryer belt that does not say “"Made in USA”", or a crumb of building material being removed due to its asbestos content (ask a contractor). Barium: save a few drops from the beverage given clients scheduled for an X-ray. Lipstick that has barium listed in the ingredients. Benzene: an old can of rubber cement (new supplies do not have it). A tsp. of asphalt crumbs from a driveway. Beryllium: a piece of coal; a few drops of “"coal oil”" or lamp oil. Bismuth: use a few drops of antacid with bismuth in it. Bromine: bleached “"brominated”" flour. Cadmium: scrape a bit off a galvanized nail, paint from a hobby store. Cesium: scrape the surface of a clear plastic beverage bottle. CFCs (freon): ask an electronics expert for a squirt from an old aerosol can that used freon as a cleaner. (Squirt into water, outdoors, put the water in a sample bottle.) Chromate: scrape an old car bumper. Cobalt: pick out the blue and green crumbs from detergent. A sample of cobalt containing paint should also suffice. Chlorine: a few drops of pure, old fashioned Clorox.TM Copper: ask your hardware clerk to cut a small fragment off a copper pipe of the purest variety or a ¼ inch of pure copper wire. Ergot: a teaspoon of rye grains, or rye bread. Add grain alcohol to preserve. Ether: automotive supply store (engine starting fluid). Ethyl alcohol (grain alcohol): the purest “"drinking”" alcohol available. EverclearTM in the United States, ProtecTM (potable) in Mexico. 474 | ||
Fiberglass: snip a fragment from insulation. Fluoride: ask a dentist for a small sample. Formaldehyde: purchase 37% at a pharmacy. Use a few drops only for your sample. Gasoline: gas station (leaded and unleaded). Gold: ask a jeweler for a crumb of the purest gold available or use a wedding ring. Kerosene: gas station. Lead: wheel balancers from a gas station, weights used on fishing lines, lead solder from electronics shop. Mercury: a mercury thermometer (there is no need to break it), piece of amalgam tooth filling. Methanol: paint supply store (wood alcohol). Nickel: a nickel plated paper clip, a washed coin. Patulin (apple mold): cut a sliver of washed, bruised apple. PCB: water from a quarry known to be polluted with it (a builder or electrical worker may know a source). Platinum: ask a jeweler for a small specimen. Propyl alcohol: rubbing alcohol from pharmacy (same as propanol or isopropanol). Use a few drops only, discard the rest. Do not save it. PVC: glue that lists it in the ingredients (polyvinyl chloride). Radon: leave a glass jar with an inch of filtered water in it standing open in a basement that tested positive to radon using a kit. After 3 days, close the jar. Pour about 2 tsp. of this water into your specimen bottle. Silicon: a dab of silicon caulk. Silver: ask a jeweler for a crumb of very pure silver. Silver solder can be found in electronics shops. Snip the edge of a very old silver coin. Sorghum mold: 1/8 tsp. sorghum syrup. Styrene: a chip of styrofoam. Tantalum: purchase a tantalum drill bit from hardware store. |
Fiberglass: snip a fragment from insulation. Fluoride: ask a dentist for a small sample. Formaldehyde: purchase 37% at a pharmacy. Use a few drops only for your sample. Gasoline: gas station (leaded and unleaded). Gold: ask a jeweler for a crumb of the purest gold available or use a wedding ring. Kerosene: gas station. Lead: wheel balancers from a gas station, weights used on fishing lines, lead solder from electronics shop. Mercury: a mercury thermometer (there is no need to break it), piece of amalgam tooth filling. Methanol: paint supply store (wood alcohol). Nickel: a nickel plated paper clip, a washed coin. Patulin (apple mold): cut a sliver of washed, bruised apple. PCB: water from a quarry known to be polluted with it (a builder or electrical worker may know a source). Platinum: ask a jeweler for a small specimen. Propyl alcohol: rubbing alcohol from pharmacy (same as propanol or isopropanol). Use a few drops only, discard the rest. Do not save it. PVC: glue that lists it in the ingredients (polyvinyl chloride). Radon: leave a glass jar with an inch of filtered water in it standing open in a basement that tested positive to radon using a kit. After 3 days, close the jar. Pour about 2 tsp. of this water into your specimen bottle. Silicon: a dab of silicon caulk. Silver: ask a jeweler for a crumb of very pure silver. Silver solder can be found in electronics shops. Snip the edge of a very old silver coin. Sorghum mold: 1/8 tsp. sorghum syrup. Styrene: a chip of styrofoam. Tantalum: purchase a tantalum drill bit from hardware store. 475 | ||
Tin: scrape a tin bucket at a farm supply. Tin solder. Ask a dentist for a piece of pure tin (used to make braces). Titanium: purchase a titanium drill bit from a hardware store. Toluene: a tube of glue that lists toluene as an ingredient. Tungsten: the filament in a burned out light bulb. Vanadium: hold a piece of dampened paper towel over a gas stove burner as it is turned on. Cut a bit of this paper into your specimen bottle and add 2 tsp. filtered water. Xylene: paint store or pharmacy. Zearalenone: combine leftover crumbs of three kinds of corn chips and three kinds of popcorn.
This list gets you off to a good start. Since few of these specimens are pure, there is a degree of logic that you must apply in most cases. If you are testing for barium in your breast, a positive result would mean that a barium-containing lipstick tests positive and a barium-free lipstick is negative. A chemistry set for hobbyists is a wonderful addition to your collection of test specimens. Remember, however, the assumptions and errors in such a system. A test for silver using silver chloride might be negative. This does not mean there is no silver present in your body; it only means there is no silver chloride present in the tissue you tested. You are bound to miss some toxins; don't let this discourage you. There is more than enough that you can find. The most fruitful kind of testing is, probably, the use of household products themselves as test substances. The soaps, colognes, mouthwash, toothpaste, shampoo, cosmetics, breads, dairy products, juices and cereals can all be made into test specimens. Put about 1/8 tsp. of the product in a small glass bottle, add 2 tsp. filtered water and ¼ tsp. grain alcohol to preserve it. For temporary purposes use a plastic baggy and water only. If you test positive to your household products in your |
Tin: scrape a tin bucket at a farm supply. Tin solder. Ask a dentist for a piece of pure tin (used to make braces). Titanium: purchase a titanium drill bit from a hardware store. Toluene: a tube of glue that lists toluene as an ingredient. Tungsten: the filament in a burned out light bulb. Vanadium: hold a piece of dampened paper towel over a gas stove burner as it is turned on. Cut a bit of this paper into your specimen bottle and add 2 tsp. filtered water. Xylene: paint store or pharmacy. Zearalenone: combine leftover crumbs of three kinds of corn chips and three kinds of popcorn.
This list gets you off to a good start. Since few of these specimens are pure, there is a degree of logic that you must apply in most cases. If you are testing for barium in your breast, a positive result would mean that a barium-containing lipstick tests positive and a barium-free lipstick is negative. A chemistry set for hobbyists is a wonderful addition to your collection of test specimens. Remember, however, the assumptions and errors in such a system. A test for silver using silver chloride might be negative. This does not mean there is no silver present in your body; it only means there is no silver chloride present in the tissue you tested. You are bound to miss some toxins; don't let this discourage you. There is more than enough that you can find. The most fruitful kind of testing is, probably, the use of household products themselves as test substances. The soaps, colognes, mouthwash, toothpaste, shampoo, cosmetics, breads, dairy products, juices and cereals can all be made into test specimens. Put about 1/8 tsp. of the product in a small glass bottle, add 2 tsp. filtered water and ¼ tsp. grain alcohol to preserve it. For temporary purposes use a plastic baggy and water only. If you test positive to your household products in your 476 | ||
white blood cells you shouldn't use them, even if you can not identify the exact toxin. For a list of toxins and solvents I use, see page 571. To order pure substances see Sources for “"chemicals for testing.”"
Making Organ Specimens To test for toxic elements or parasites in a particular organ such as the liver or skin, you will need either a fresh or frozen sample of the organ or a prepared microscope slide of this organ. Meat purchased from a grocery store, fresh or frozen, provides you with a variety of organ specimens. Chicken, turkey, beef or pork organs all give the same results. You may purchase chicken gizzards for a sample of stomach, beef liver for liver, pork brains for brain, beef steak for muscle, throat sweet breads for thymus, tripe for stomach lining. Other organs may be ordered from a meat packing plant. Trim the marrow out of a bone slice to get bone marrow. Scrub the bone slice with hot water to free it of marrow to get a bone specimen. Choose a single piece of meat sample, rinse it and place it in a plastic bag. You may freeze it. To make a durable unfrozen sample, cut a small piece, the size of a pea, and place it in an amber glass bottle (½ oz.). Cover with two tsp. filtered water and ¼ tsp. of grain alcohol (pure vodka will do) to preserve it. These need not be refrigerated but if decay starts, make a fresh specimen. Pork brains from the grocery store may be dissected to give you the different parts of the brain. Chicken livers often have an attached gallbladder or piece of bile duct, giving you that extra organ. Grocery store “"lites”" provides you with lung tissue. For kidney, snip a piece off pork or beef kidney. Beef liver may supply you with a blood sample, too. Always wash hands and rinse with grain alcohol after handling raw meat. |
white blood cells you shouldn't use them, even if you can not identify the exact toxin. For a list of toxins and solvents I use, see page 571. To order pure substances see Sources for “"chemicals for testing.”"
Making Organ Specimens To test for toxic elements or parasites in a particular organ such as the liver or skin, you will need either a fresh or frozen sample of the organ or a prepared microscope slide of this organ. Meat purchased from a grocery store, fresh or frozen, provides you with a variety of organ specimens. Chicken, turkey, beef or pork organs all give the same results. You may purchase chicken gizzards for a sample of stomach, beef liver for liver, pork brains for brain, beef steak for muscle, throat sweet breads for thymus, tripe for stomach lining. Other organs may be ordered from a meat packing plant. Trim the marrow out of a bone slice to get bone marrow. Scrub the bone slice with hot water to free it of marrow to get a bone specimen. Choose a single piece of meat sample, rinse it and place it in a plastic bag. You may freeze it. To make a durable unfrozen sample, cut a small piece, the size of a pea, and place it in an amber glass bottle (½ oz.). Cover with two tsp. filtered water and ¼ tsp. of grain alcohol (pure vodka will do) to preserve it. These need not be refrigerated but if decay starts, make a fresh specimen. Pork brains from the grocery store may be dissected to give you the different parts of the brain. Chicken livers often have an attached gallbladder or piece of bile duct, giving you that extra organ. Grocery store “"lites”" provides you with lung tissue. For kidney, snip a piece off pork or beef kidney. Beef liver may supply you with a blood sample, too. Always wash hands and rinse with grain alcohol after handling raw meat. 477 | ||
I use ½ oz amber glass bottles with bakelite caps (see Sources) to hold specimens. However, plastic bags or other containers would suffice. After closing, each bottle is sealed with a ParafilmTM strip to avoid accidental loosening of the cap. You may use masking tape. To make a specimen of skin, use hangnail bits and skin peeled from a callous, not a wart. A few shreds will do. Remember, they must be very close to the test plate when in use; add 2 tsp. filtered water and ¼ tsp. grain alcohol.
Making a Complete Set of Tissue Samples My original complete set was made from a frozen fish. As it thawed, different organs were cut away and small pieces placed in bottles for preserving in filtered water and grain alcohol. In this way, organs not available from the grocery store could be obtained. The piece of intestine closest to the anus corresponds to our colon, the part closest to the stomach corresponds to our duodenum. The 2 layers of the stomach and different layers of the eye, the optic nerve and spinal cord were obtained this way. Another complete set of tissue samples were obtained from a freshly killed steer at a slaughter house. In this way the 4 chambers of the heart were obtained, the lung, trachea, aorta, vein, pancreas, and so forth.
Purchasing a Complete Set of Tissue Samples Slides of tissues, unstained or stained in a variety of ways for microscope study give identical results to the preparations made by yourself in the ways already described. This fact opens the entire catalog of tissue types for your further study. See Sources for places that supply them. |
I use ½ oz amber glass bottles with bakelite caps (see Sources) to hold specimens. However, plastic bags or other containers would suffice. After closing, each bottle is sealed with a ParafilmTM strip to avoid accidental loosening of the cap. You may use masking tape. To make a specimen of skin, use hangnail bits and skin peeled from a callous, not a wart. A few shreds will do. Remember, they must be very close to the test plate when in use; add 2 tsp. filtered water and ¼ tsp. grain alcohol.
Making a Complete Set of Tissue Samples My original complete set was made from a frozen fish. As it thawed, different organs were cut away and small pieces placed in bottles for preserving in filtered water and grain alcohol. In this way, organs not available from the grocery store could be obtained. The piece of intestine closest to the anus corresponds to our colon, the part closest to the stomach corresponds to our duodenum. The 2 layers of the stomach and different layers of the eye, the optic nerve and spinal cord were obtained this way. Another complete set of tissue samples were obtained from a freshly killed steer at a slaughter house. In this way the 4 chambers of the heart were obtained, the lung, trachea, aorta, vein, pancreas, and so forth.
Purchasing a Complete Set of Tissue Samples Slides of tissues, unstained or stained in a variety of ways for microscope study give identical results to the preparations made by yourself in the ways already described. This fact opens the entire catalog of tissue types for your further study. See Sources for places that supply them. 478 | ||
Fig. 82 Some purchased parasite and tissue slides.
You now have a set of organ samples, either fresh, frozen, preserved or on slides. You also have a set of test substances, whether chemical compounds, or elements, or products. Your goal is to search in your own organs and body tissues for the substances that may be robbing you of health.
Body Fluid Specimens Each of these fluids should be prepared by putting about ¼ tsp. in a ½ oz amber glass bottle. Add about 2 tsp. filtered water and ¼ tsp. grain alcohol for preservation. Undiluted specimens do not work for reasons that are technical and beyond the scope of this book. It is important not to shake the specimen, but to mix gently. Urine. It is desired to have a pure, uninfected urine sample as a tissue specimen. Since this cannot be proved with certainty, obtain several urine samples from different persons |
Fig. 82 Some purchased parasite and tissue slides.
You now have a set of organ samples, either fresh, frozen, preserved or on slides. You also have a set of test substances, whether chemical compounds, or elements, or products. Your goal is to search in your own organs and body tissues for the substances that may be robbing you of health.
Body Fluid Specimens Each of these fluids should be prepared by putting about ¼ tsp. in a ½ oz amber glass bottle. Add about 2 tsp. filtered water and ¼ tsp. grain alcohol for preservation. Undiluted specimens do not work for reasons that are technical and beyond the scope of this book. It is important not to shake the specimen, but to mix gently. Urine. It is desired to have a pure, uninfected urine sample as a tissue specimen. Since this cannot be proved with certainty, obtain several urine samples from different persons 479 | ||
whom you believe to be healthy and make several test specimens in order to compare results. Label your specimens Urine A (child), Urine B (woman), Urine C (mine), and so forth. Semen. A sample from a condom is adequate. Aged specimens (sent by mail, unpreserved and unrefrigerated) work well also. Use one to ten drops or scrape a small amount with a plastic knife. Blood. One to ten drops of blood should be used. Clotted or chemically treated blood is satisfactory. A blood smear on a slide is very convenient. Milk. Cow's milk is too polluted with parasites to be useful. Electronically, a dead specimen is equivalent to a live specimen, so that pasteurization of the milk does not help. A human milk specimen is preferred. Saliva. Use your own, if you have deparasitized yourself and test negative to various fluke stages. Otherwise find a well friend or child.
Specifying a tissue is the most powerful investigative technique in your arsenal. Any of your tissue samples can be tested for any of your toxic substances. |
whom you believe to be healthy and make several test specimens in order to compare results. Label your specimens Urine A (child), Urine B (woman), Urine C (mine), and so forth. Semen. A sample from a condom is adequate. Aged specimens (sent by mail, unpreserved and unrefrigerated) work well also. Use one to ten drops or scrape a small amount with a plastic knife. Blood. One to ten drops of blood should be used. Clotted or chemically treated blood is satisfactory. A blood smear on a slide is very convenient. Milk. Cow's milk is too polluted with parasites to be useful. Electronically, a dead specimen is equivalent to a live specimen, so that pasteurization of the milk does not help. A human milk specimen is preferred. Saliva. Use your own, if you have deparasitized yourself and test negative to various fluke stages. Otherwise find a well friend or child.
Specifying a tissue is the most powerful investigative technique in your arsenal. Any of your tissue samples can be tested for any of your toxic substances. 480 |
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