Nuclear Radiation Detox

Buddy

The Living Force
In light of the current meltdowns of nuclear fuel rods in Japan at the moment, I thought this thread might be rather timely.

I originally wanted to get some info from the following sites:

How to Detoxify Radiation and Radioactivity From Your Body
Naturopathic, Homeopathic, Nutritional and Medical Ways to Detoxify Your Body of Radiation Exposure or Poisoning.
_http://www.radiationdetox.com/

The Epson Salt Bath
_http://www.radiationdetox.com/ebook/0707RadiationDetox.pdf


...but the website has probably been very busy because their bandwidth is currently exceeded, so I found a page that has some of the info from that site included, so I'll reprint it here:

Radiation Detox

How to Detox Your Body of Depleted Uranium Residues, the Effects of Radiation, and Radioactive Contamination

It's sad but true that there are thousands of scientific references and medical studies out there on the fact that radiation and radioactivity can harm you, yet despite millions of dollars spent by the government to study radiation, virtually nothing is available about a detoxification diet or nutritional supplements you might use if you are exposed to radioactive contamination.

Here's some of the information we do know from the only book in the world on the topic. Keep this information in the back of your mind as it may one day help save you or someone you know.

Most people are aware taking potassium iodide (KI) or potassium iodate (KIO3) tablets will help block your thyroid gland from absorbing radioactive iodine should there ever be a dirty bomb explosion or nuclear power plant mishap such as the Three Mile Island incident. In 1999, another such accident happened in Tokaimura, Japan where several individuals died from radiation exposure in a fuel processing facility.

What people don't recognize is that potassium iodide or iodate tablets only protect the thyroid gland and do not provide protection from any other radiation exposure, so taking them should not give you a false sense of security. It's important to detox your body after radioactive exposure!

One question is, what do you do if KI or KIO3 tablets aren't available during an emergency? Interestingly enough, according to research by Ken Miller, health physicist at the Hershey Medical Center, he found that an adult could get a blocking dose of stable iodine by painting 8 ml of a 2 percent tincture of Iodine on the abdomen or forearm approximately 2 hours prior to I-131 contamination. Potassium iodine tablets are best, but if they're not available this is the next best thing.

An entirely different problem arises after you've been exposed to radioactive contamination because now you have to get rid of any radioactive particles you may have ingested through the air you breathed, water you drank, or food you ate. Some people suggest Epson salt, Clorox or clay baths to remove any residues on your skin and to leach out any heavy metals you may have absorbed, but the big worry is internal contamination. To gain some insights into what to do, we have to turn to the story of the atomic bombing of Nagasaki.

At the time of the atomic bombing, Tatsuichiro Akizuki, M.D. was Director of the Department of Internal Medicine at St. Francis's Hospital in Nagasaki and he fed his staff and patients a strict diet of brown rice, miso and tamari soy soup, wakame, kombu and other seaweed, Hokkaido pumpkin, and sea salt. He also prohibited the consumption of sugar and sweets since they suppress the immune system.

By imposing this diet on his staff and patients, no one succumbed to radiation poisoning whereas the occupants of hospitals located much further away from the blast incident suffered severe radiation fatalities.

Much of this positive result has to do with the fact that the sea vegetables contain substances that bind radioactive particles and escort them out of the body. This is why seaweed sales usually skyrocket after radiation disasters, and why various seaweeds and algae are typically used to treat radiation victims.

In Chernobyl, for instance, spirulina was used to help save many children from radiation poisoning. By taking 5 grams of spirulina a day for 45 days, the Institute of Radiation Medicine in Minsk even proved that children on this protocol experienced enhanced immune systems, T-cell counts and reduced radioactivity. Israeli scientists have since treated Chernobyl children with doses of natural beta carotene from Dunaliella algae and proved that it helped normalize their blood chemistry. Chlorella algae, a known immune system builder and heavy metal detoxifier, has also shown radioprotective effects. Because they bind heavy metals, algae should therefore be consumed after exposure to any type of radioactive contamination.

In 1968 a group of Canadian researchers at McGill University of Montreal, headed by Dr. Stanley Skoryna, actually set out to devise a method to counteract the effects of nuclear fallout. The key finding from their studies was that sea vegetables contained a polysaccharide substance, called sodium alginate, which selectively bound radioactive strontium and eliminated it from the body.

Sodium alginate is found in many seaweeds, especially kelp, and since that time the Russians have been seriously researching the use of their own kelps from Vladivlostok, from which they have isolated the polysaccharide U-Fucoidan, which is another radioactive detoxifier. Because miso soup was so effective in helping prevent radiation sickness, the Japanese have also done research identifying the presence of an active ingredient called zybicolin, discovered in 1972, which acts as a binding agent to also detoxify and eliminate radioactive elements (such as strontium) and other pollutants from the body.

The kelps and algaes aren't the only natural foods with radio-detoxifying effects. In terms of fluids to drink, black and green tea have shown "radioprotective effects" whether consumed either before or after exposure to radiation. This anti-radiation effect was observed in several Japanese studies, and studies from China also suggest that the ingredients in tea are radioactive antagonists.

In short, after any sort of radioactive exposure you want to be eating seaweeds and algaes along with almost any type of commercial heavy metal chelating formula to bind radioactive particles and help escort them out of the body. Whether you're worried about depleted uranium, plutonium or other isotopes, this is the wise thing to do which can possibly help, and certainly won't hurt. Many nutritional supplements have been developed for the purpose of detoxifying heavy metals, most of which contain the algaes and plant fibers and other binding substances.

Basically, an anti-radiation diet should focus on the following foods:

· Miso soup
· Spirulina, chlorella and the algaes (kelp, etc.)
· Brassica vegetables and high beta carotene vegetables
· Beans and lentils
· Potassium, calcium and mineral rich foods
· High nucleotide content foods to assist in cellular repair including spirulina, chlorella, algae, yeast, sardines, liver, anchovies and mackerel
· Cod liver oil and olive oil
· Avoid sugars and sweets and wheat
· A good multivitamin/multimineral supplement


Yet another benefit of the sea vegetables rarely discussed is their high mineral content, which is a bonus in the case of radioactive exposure. Consuming natural iodine, such as in the seaweeds, helps prevent the uptake of iodine-131 while iron inhibits the absorption of plutonium-238 and plutonium-239. Vitamin B-12 inhibits cobalt-60 uptake (used in nuclear medicine), zinc inhibits zinc-65 uptake and sulfur is preventative for sulfur-35 (a product of nuclear reactors) incorporation by the body.

Since nuclear workers are potentially exposed to radioactive sulfur, this means that workers in the atomic power industry need a higher content of sulfur in their diet. MSM supplements provide a source of dietary sulfur, but thiol supplements such as cysteine, lipoic acid and glutathione serve double-duty in this area because they help detoxify the body and attack all sorts of other health problems as well.

The immune system is usually hit hard after radiation exposure, and a number of steps can be taken to help prevent opportunistic infections after a radioactive incident. Though the full dimensions of the protective mechanism is still unknown, Siberian ginseng is one form of ginseng that exerts a definite radioprotective effect and has been demonstrated to lessen the side effects of radiation. It was widely distributed by the Soviet Union to those exposed Chernobyl radiation and is commonly used to help cancer patients undergoing radiation therapy.

Consuming Reishi mushrooms is another proven way to bolster your immune system after radiation exposure and helps reduce the damage from radiation. It's been used to decrease radiation sickness in animals and help them recover faster after potentially deadly exposure.

Panax ginseng has prevented hemorrhaging after radiation exposure, prevents bone marrow death and stimulates blood cell formation, so it's another supplement to add to one's protocol. In short, yeasts, beta glucans, bee pollen and various forms of ginseng have all been shown to bolster the immune system after radiation incidents. In terms of radiation burns, aloe vera has a proven ability to treat serious radiation burns and offers other radioprotective effects, and can easily be grown in your house.

The amino acid L-Glutamine can be used to help repair the intestine in case of the gastrointestinal syndrome usually suffered due to radiation exposure, and a variety of substances can help rebuild blood cells to prevent hematopoietic syndrome. Those particular foods include beet juice, liver extract, spleen extract, and shark alkyglycerols. Most oncologists don't know that shark liver oil, with alkyglycerols, can help platelet counts rebound in days.

Depleted uranium is currently in the journalistic spotlight because US weapons are made from this material, and after being fired leave a legacy of depleted uranium dust in the environment, which anyone can absorb. Because the kidneys are usually the first organs to show chemical damage upon uranium exposure, military manuals suggest doses or infusions of sodium bicarbonate to help alkalinize the urine if this happens. This makes the uranyl ion less kidney-toxic and promotes excretion of the nontoxic uranium carbonate complex.

In areas contaminated by depleted uranium dusts, it therefore makes sense to switch to drinking slightly alkaline water and to favor a non-acidic diet to assist in this detoxification. Any of the heavy metal detoxifiers, such as miso soup, chlorella, spirulina and seaweeds, are also commonsense warranted.

Another thing you can do is use homeopathics for radiation exposure. People commonly argue over whether homeopathics work or not, but if you assume the position that they produce no results whatsoever then you must also assume that they certainly won't hurt you, which means the only loss from using them is a few dollars. Frankly, there are countless cases and double-blind studies where homeopathic tinctures do provoke physical healing effects in the body. Therefore they are a viable adjunct treatment option. One homeopathic, in particular, is URANIUM NITRICUM (nitrate of uranium) which homeopaths suggest should be used in cases of depleted uranium exposure or uranium poisoning. Not just soldiers or civilians exposed to battlefield dusts, but uranium miners and radiation workers may find it quite useful.

While we've discussed just a few of the many supplements and protocols you can use to help detox the body of the lingering results of radioactive contamination, including the residues of depleted uranium, the last thing that might be of interest is that there is a plant that is a natural geiger counter. The spiderwort plant is so sensitive to changes in radiation levels (its petals change color upon exposure) that it's often used as a natural radiation detector (dosimeter), just as they use canaries in mines as detectors of poisonous gas. Some people like knowing that they have an ongoing monitoring system for radiation in the environment, and this is just another tip available in "How to Neutralize the Harmful Effects of Radiation or Radioactive Exposure."

_http://www.assatashakur.org/forum/afrikan-wholistic-health/26610-radiation-detox.html
Original source:
_http://www.radiationdetox.com/depleted-uranium-detox.htm

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Note: this info hasn't been posted on the forum best I can tell from searching and I don't know how objective/accurate it is. Everyone is welcome and invited to correct anything herein and to add to the info for everyone's benefit. Thanks! :)
 
Here's a link to Mark Sircus's information on nuclear contamination treatments.

http://blog.imva.info/medicine/treatments-nuclear-contamination

He recommends the following: Iodine – Glutathione – Natural Chelation – Clay – Baking Soda
 
Thanks!

Sodium Bicarbonate (Baking Soda) and magnesium baths also, apparantly (see below).

Besides having iodine on hand for emergencies, we can grow (and, at present, purchase) herbs and foods that prevent our bodies from storing radioactive particles. Some of these foods and herbs even remove radioactive particles from our bodies. As we are all already being affected by radiation released by numerous sources, eating these foods and doing detoxification and chelation protocols regularly is a good idea.

If you have been exposed to too many X-rays or CAT scans, if you fly too much, work with diagnostic medical equipment or are environmentally sensitive and have ingested elevated levels of radioactive contaminated food, air or water, you also want to partake of the following protocol on a regular basis.

Sodium Bicarbonate (Baking Soda)

The oral administration of sodium bicarbonate diminishes the severity of the changes produced by uranium in the kidneys.

The kidneys are usually the first organs to show chemical damage upon uranium exposure. Old military manuals suggest doses or infusions of sodium bicarbonate to help alkalinize the urine if this happens. This makes the uranyl ion less kidney-toxic and promotes excretion of the nontoxic uranium-carbonate complex. The oral administration of sodium bicarbonate diminishes the severity of the changes produced by uranium in the kidneys. So useful and strong is sodium bicarbonate that at Los Alamos National Laboratory in New Mexico, researcher Don York has used baking soda to clean soil contaminated with uranium. Sodium bicarbonate binds with uranium, separating it from the dirt; so far, York has removed as much as 92 percent of the uranium from contaminated soil samples.
[...]
Sodium bicarbonate can safely remove paint, grease, oil and smoke residue, decreasing workers’ exposure to harsh chemicals and eliminating much of the hazardous waste associated with other cleaners. “Sodium bicarbonate is able to clean in areas where other substances pose fire hazards, because baking soda is a natural fire extinguisher,” says Kenneth Colbert, a general manager for Arm & Hammer. This is the reason it’s used by oncology centers to control chemo agent spills and it’s actually used intravenously to protect patients from the hazardous toxicity of chemotherapy.

“Uranium is one of the only metals that get significant bonding from carbonate. Just flushing a lot of bicarbonate through the system, along with whatever kidney support you are going to use, will be very helpful,” writes Dr. Chris Shade. There is no better therapy for radiation sickness then intense sodium bicarbonate (baking soda) and magnesium baths with the appropriate clay added in. Even sodium thiosulfate can be added to these baths and that instantly neutralizes any chlorine in the bath water while simultaneously providing sulfur for the vital sulfur pathways.
_http://blog.imva.info/medicine/treatments-nuclear-contamination


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Edit: expanded quote to include left out info.
 
What is Radiation?

Radiation is the energy carried by either electromagnetic waves or moving particles. Electromagnetic waves can vary in energy and wavelength. Quantum mechanics predicts that very short wavelength electromagnetic waves behave as uncharged particles, called photons. Therefore the distinction between waves and particles at short wavelengths as with X-ray and gamma rays is blurred.

Ions are atoms with too few or too many electrons. Ionising radiation is radiation that has enough energy to kick electrons out of atoms and therefore produce ions. X-rays and gamma rays are forms of ionising radiation.
_http://resource.npl.co.uk/docs/educate_explore/posters/bg_ionisingradiation_poster.pdf

Various types of ionizing radiation may be produced by radioactive decay, nuclear fission and nuclear fusion, and by particle accelerators and naturally occurring cosmic rays.
_http://en.wikipedia.org/wiki/Ionizing_radiation

Radiation is difficult to measure, we cannot detect it through any of our senses though we can measure it by indirect means.
_http://www.npl.co.uk/educate-explore/posters/ionising-radiation/

What is Radiation poisoning?

Radiation poisoning, radiation sickness or a creeping dose, is a form of damage to organ tissue caused by excessive exposure to ionizing radiation. Ionizing radiation consists of particles or electromagnetic waves that are energetic enough to detach electrons from atoms or molecules, thus ionizing them. Direct ionization from the effects of single particles or single photons produces free radicals, which are atoms or molecules containing unpaired electrons, that tend to be especially chemically reactive due to their electronic structure.
...damage done by ionizing radiation produces free radicals, even at room temperatures and below...
...Free radicals easily damage DNA, and ionizing radiation may also directly damage DNA by ionizing or breaking DNA molecules.
_http://en.wikipedia.org/wiki/Radiation_poisoning

Numerous studies demonstrated that the susceptibility of mammals to systemic infection from endogenous and exogenous organisms increased following exposure to ionizing radiation.
_http://en.wikipedia.org/wiki/Treatment_of_infections_after_accidental_or_hostile_exposure_to_ionizing_radiation


Signs and Symptoms (of Radiation poisoning)

Nausea and vomiting are usually the main symptoms.[5] The amount of time between exposure to radiation and the onset of the initial symptoms may be an indicator of how much radiation was absorbed,[5] as symptoms appear sooner with higher doses of exposure.[6]

The symptoms of radiation sickness become more serious (and the chance of survival decreases) as the dosage of radiation increases. A few symptom-free days may pass between the appearance of the initial symptoms and the onset of symptoms of more severe illness associated with higher doses of radiation.

Nausea and vomiting generally occur within 24–48 hours after exposure to mild (1–2 Sv) doses of radiation. Radiation damage to the intestinal tract lining will cause nausea, bloody vomiting and diarrhea. This occurs when the victim's exposure is 200 rems (1 Sv = 100 rems) or more. The radiation will begin to destroy the cells in the body that divide rapidly. These including blood, GI tract, reproductive and hair cells, and harms the DNA and RNA of surviving cells. Headache, fatigue, and weakness are also seen with mild exposure.[7]

Moderate (2–3.5 Sv of radiation) exposure is associated with nausea and vomiting beginning within 12–24 hours after exposure.[7] In addition to the symptoms of mild exposure, fever, hair loss, infections, bloody vomit and stools, and poor wound healing are seen with moderate exposure. Nausea and vomiting occur in less than 1 hour after exposure to severe (3.5–5.5 Sv) doses of radiation, followed by diarrhea and high fever in addition to the symptoms of lower levels of exposure. Very severe (5.5–8 Sv of radiation[citation needed]) exposure is followed by the onset of nausea and vomiting in less than 30 minutes followed by the appearance of dizziness, disorientation, and low blood pressure in addition to the symptoms of lower levels of exposure.

Severe exposure is fatal about 50% of the time. See criticality accident for a number of incidents in which humans have been accidentally exposed to such levels of radiation.

Longer term exposure to radiation, at doses less than that which produces serious radiation sickness, can induce cancer as cell-cycle genes are mutated. The probability cancer will develop is a function of radiation dose. In radiation-induced cancer the disease, the speed at which the condition advances, the prognosis, the degree of pain, and every other feature of the disease are not functions of the radiation dose to which the person is exposed.
_http://en.wikipedia.org/wiki/Radiation_poisoning

The severity of symptoms and illness (acute radiation sickness) depends on the type and amount of radiation, how long you were exposed, and which part of the body was exposed. Symptoms of radiation sickness may occur immediately after exposure, or over the next few days, weeks, or months.

Because it is difficult to determine the amount of radiation exposure from nuclear accidents, the best signs of the severity of the exposure are: the length of time between the exposure and the onset of symptoms, the severity of symptoms, and severity of changes in white blood cells. If a person vomits less than an hour after being exposed, that usually means the radiation dose received is very high and death may be expected.
_http://www.umm.edu/ency/article/000026.htm

Ingestion and inhalation

When radioactive compounds enter the human body, the effects are different from those resulting from exposure to an external radiation source. Especially in the case of alpha radiation, which normally does not penetrate the skin, the exposure can be much more damaging after ingestion or inhalation. The best prevention for radiation sickness is to minimize the dose suffered by the human, or to reduce the dose rate.

There are four standard ways to limit exposure:

1. Time: For people who are exposed to radiation in addition to natural background radiation, limiting or minimizing the exposure time will reduce the dose from the radiation source.
2. Distance: Radiation intensity decreases sharply with distance x, according to an inverse square law (in an absolute vacuum) .[3] practically i = Io e^(-ux)

Increasing distance from the radiation source reduces the dose according to the inverse-square law for a point source. Distance can sometimes be effectively increased by means as simple as handling a source with forceps rather than fingers.

3. Air substantially attenuates alpha and beta radiation.
4. Shielding: Barriers of lead, concrete, or water give effective protection from radiation formed of energetic particles such as gamma rays and neutrons. Some radioactive materials are stored or handled underwater or by remote control in rooms constructed of thick concrete or lined with lead. There are special plastic shields which stop beta particles and air will stop alpha particles. The effectiveness of a material in shielding radiation is determined by its halve value thicknesses, the thickness of material that reduces the radiation by half. This value is a function of the material itself and the energy and type of ionizing radiation.

Some generally accepted thicknesses of attenuating material are 5 mm of aluminum for Beta particles, and 3 inches of lead for gamma radiation.
_http://en.wikipedia.org/wiki/Ionizing_radiation

Nuclear reactor accidents

The first known incident of a reactor meltdown occurred in Canada in the NRX Reactor. Radiation poisoning was a major concern after the Chernobyl reactor accident. Thirty-one people died as an immediate result.[12]

Of the 100 million curies (4 exabecquerels) of radioactive material, the short lived radioactive isotopes such as 131I Chernobyl released were initially the most dangerous. Due to their short half-lives of 5 and 8 days they have now decayed, leaving the more long-lived 137Cs (with a half-life of 30.07 years) and 90Sr (with a half-life of 28.78 years) as main dangers.
_http://en.wikipedia.org/wiki/Radiation_poisoning
_http://en.wikipedia.org/wiki/Ionizing_radiation

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Added later: Some more general info:

The Difference Between Radioactive Contamination and Radiation Exposure

What Radioactive Contamination Is

Radioactive contamination occurs when radioactive material is deposited on or in an object or a person. Radioactive materials released into the environment can cause air, water, surfaces, soil, plants, buildings, people, or animals to become contaminated. A contaminated person has radioactive materials on or inside their body.

What External Contamination Is

External contamination occurs when radioactive material, in the form of dust, powder, or liquid, comes into contact with a person's skin, hair, or clothing. In other words, the contact is external to a person's body. People who are externally contaminated can become internally contaminated if radioactive material gets into their bodies.

What Internal Contamination Is

Internal contamination occurs when people swallow or breathe in radioactive materials, or when radioactive materials enter the body through an open wound or are absorbed through the skin. Some types of radioactive materials stay in the body and are deposited in different body organs. Other types are eliminated from the body in blood, sweat, urine, and feces.

What Radiation Exposure Is

Radioactive materials give off a form of energy that travels in waves or particles. This energy is called radiation. When a person is exposed to radiation, the energy penetrates the body. For example, when a person has an x-ray, he or she is exposed to radiation.

How Contamination Differs From Exposure

A person exposed to radiation is not necessarily contaminated with radioactive material. A person who has been exposed to radiation has had radioactive waves or particles penetrate the body, like having an x-ray. For a person to be contaminated, radioactive material must be on or inside of his or her body. A contaminated person is exposed to radiation released by the radioactive material on or inside the body. An uncontaminated person can be exposed by being too close to radioactive material or a contaminated person, place, or thing.

How Radioactive Contamination Is Spread

People who are externally contaminated with radioactive material can contaminate other people or surfaces that they touch. For example, people who have radioactive dust on their clothing may spread the radioactive dust when they sit in chairs or hug other people.

People who are internally contaminated can expose people near them to radiation from the radioactive material inside their bodies. The body fluids (blood, sweat, urine) of an internally contaminated person can contain radioactive materials. Coming in contact with these body fluids can result in contamination and/or exposure.

How You Can Limit Contamination

Since radiation cannot be seen, smelled, felt, or tasted, people at the site of an incident will not know whether radioactive materials were involved. You can take the following steps to limit your contamination.

1. Get out of the immediate area quickly. Go inside the nearest safe building or to an area to which you are directed by law enforcement or health officials.

2. Remove the outer layer of your clothing. If radioactive material is on your clothes, getting it away from you will reduce the external contamination and decrease the risk of internal contamination. It will also reduce the length of time that you are exposed to radiation.

3. If possible, place the clothing in a plastic bag or leave it in an out-of-the-way area, such as the corner of a room. Keep people away from it to reduce their exposure to radiation. Keep cuts and abrasions covered when handling contaminated items to avoid getting radioactive material in them.

4. Wash all of the exposed parts of your body using lots of soap and lukewarm water to remove contamination. This process is called decontamination. Try to avoid spreading contamination to parts of the body that may not be contaminated, such as areas that were clothed.

5. After authorities determine that internal contamination may have occurred, you may be able to take medication to reduce the radioactive material in your body.

_http://www.bt.cdc.gov/radiation/contamination.asp
 
Even though the following is about Nuclear war, the info may still be helpful for dealing with the general issues and effects of nuclear radiation.

Nuclear War Survival Skills
Cresson H. Kearny
With Foreword by Dr. Edward Teller

Sample chapter:

Ch. 3: Psychological Preparations:

LEARNING WHAT TO EXPECT


The more one knows about the strange and fearful dangers from nuclear weapons and about the strengths and weakness' of human beings when confronted with the dangers of war, the better chance one has of surviving. Terror, a self-destructive emotion, is almost always the result of unexpected danger. Some people would think the end of the world was upon them if they happened to be in an area downwind from surface bursts of nuclear weapons that sucked millions of tons of pulverized earth into the air. They might give up all hope if they did not understand what they saw.

People are more likely to endure and survive if they learn in advance that such huge dust clouds, particularly if combined with smoke from great fires, may turn day into night as have some volcanic eruptions and the largest forest fires.

People also should expect thunder to crash in strange clouds, and the earth to shake. The sky may be lit with the flickering purples and greens of "artificial auroras" caused by nuclear explosions, especially those that are miles above the earth.

FEAR

Fear often is a life-saving emotion. When we believe death is close at hand, fear can increase our ability to work harder and longer. Driven by fear, we can accomplish, feats that would be impossible otherwise. Trembling hands, weak legs, and cold sweat do not mean that a person has become ineffective. Doing hard, necessary work is one of the best ways to keep one's fears under control.

Brave men and women who are self-confident admit their fears, even when the threat of death is remote. Then they plan and work to lessen the causes of their fears. (When the author helped Charles A. Lindbergh design a reinforced-concrete blast shelter for his family and neighbors, Lindbergh frankly admitted that he feared both nuclear attack and being trapped. He was able to lessen both of these fears by building an excellent blast shelter with two escape openings.)

TERROR

If the danger is unexpected enough or great enough, normal persons sometimes experience terror as well as fear. Terror prevents the mind from evaluating dangers and thinking logically. It develops in two stages, which have been described by Dr. Walo von Gregerz, a physician with much war experience, in his bookPsychology of Survival. The first stage is apathy: people become indifferent to their own safety and are unable even to try to save themselves or their families. The second stage is a compulsion to flee.

Anxiety, fear, and terror can result in symptoms very similar to those caused by radiation injury: nausea, vomiting, extreme trembling, diarrhea. Dr. von Gregerz has described terror as being "explosively contagious." However, persons who learn to understand the nature of our inherent human traits and behavior and symptoms are less likely to become terrorized and ineffective in the event of a nuclear attack.

EMOTIONAL PARALYSIS

The most common reaction to great danger is not terror, but a kind of numbing of the emotions which actually may be helpful. Dr. von Gregerz calls this "emotional paralysis. "This reaction allows many persons, when in the grip of great danger, to avoid being overwhelmed by compassionate emotions and horrible sights. It permits them to think clearly and act effectively.


NWSS Chapters:

Ch. 1: The Dangers from Nuclear Weapons: Myths and Facts
Ch. 2: Warnings and Communications
Ch. 3: Psychological Preparations
Ch. 4: Evacuation
Ch. 5: Shelter, the Greatest Need
Ch. 6: Ventilation and Cooling of Shelters
Ch. 7: Protection Against Fires and Carbon Monoxide
Ch. 8: Water
Ch. 9: Food
Ch. 10: Fallout Radiation Meters
Ch. 11: Light
Ch. 12: Shelter Sanitation and Preventive Medicine
Ch. 13: Surviving Without Doctors
Ch. 14: Expedient Shelter Furnishings
Ch. 15: Improvised Clothing and Protective Items
Ch. 16: Minimum Pre-Crisis Preparations
Ch. 17: Permanent Family Fallout Shelters for Dual Use
Ch. 18: Trans-Pacific Fallout

NWSS Appendices:

App. A: Instructions for Six Expedient Fallout Shelters
App. A.1: Door-Covered Trench Shelter
App. A.2: Pole-Covered Trench Shelter
App. A.3: Small-Pole Shelter
App. A.4: Aboveground, Door-Covered Shelter
App. A.5: Aboveground, Ridgepole Shelter
App. A.6: Aboveground, Crib-Walled Shelter
App. B: How to Make and Use a Homemade Shelter-Ventilating Pump
App. C: A Homemade Fallout Meter, the KFM
App. D: Expedient Blast Shelters
App. E: How to Make a Homemade Piston Pump
App. F: Providing Improved Ventalation and Light

Online version:
_http://www.oism.org/nwss/

Downloadable pdf:
_http://www.nukepills.com/docs/nuclear_war_survival_skills.pdf
 
This particular post deals with protecting the thyroid using Potassium Iodide (KI). The info comes from the CDC and includes recommended ingestion amounts for people of various ages and conditions.

CDC Radiation Emergencies

What is Potassium Iodide (KI)?

Potassium iodide (also called KI) is a salt of stable (not radioactive) iodine. Stable iodine is an important chemical needed by the body to make thyroid hormones. Most of the stable iodine in our bodies comes from the food we eat. KI is stable iodine in a medicine form. This fact sheet from the Centers for Disease Control and Prevention (CDC) gives you some basic information about KI. It explains what you should think about before you or a family member takes KI.

What does KI do?

Following a radiological or nuclear event, radioactive iodine may be released into the air and then be breathed into the lungs. Radioactive iodine may also contaminate the local food supply and get into the body through food or through drink. When radioactive materials get into the body through breathing, eating, or drinking, we say that “internal contamination” has occurred. In the case of internal contamination with radioactive iodine, the thyroid gland quickly absorbs this chemical. Radioactive iodine absorbed by the thyroid can then injure the gland. Because non-radioactive KI acts to block radioactive iodine from being taken into the thyroid gland, it can help protect this gland from injury.

What KI cannot do

Knowing what KI cannot do is also important. KI cannot prevent radioactive iodine from entering the body. KI canprotect only the thyroid from radioactive iodine, not other parts of the body. KI cannot reverse the health effects caused by radioactive iodine once damage to the thyroid has occurred. KI cannotprotect the body from radioactive elements other than radioactive iodine—if radioactive iodine is not present, taking KI is not protective.

How does KI work?

The thyroid gland cannot tell the difference between stable and radioactive iodine and will absorb both. KI works by blocking radioactive iodine from entering the thyroid. When a person takes KI, the stable iodine in the medicine gets absorbed by the thyroid. Because KI contains so much stable iodine, the thyroid gland becomes “full” and cannot absorb any more iodine—either stable or radioactive—for the next 24 hours.

Iodized table salt also contains iodine; iodized table salt contains enough iodine to keep most people healthy under normal conditions. However, table salt does not contain enough iodine to block radioactive iodine from getting into your thyroid gland. You should not use table salt as a substitute for KI.

How well does KI work?

Knowing that KI may not give a person 100% protection against radioactive iodine is important. How well KI blocks radioactive iodine depends on

* how much time passes between contamination with radioactive iodine and the taking of KI (the sooner a person takes KI, the better),
* how fast KI is absorbed into the blood, and
* the total amount of radioactive iodine to which a person is exposed.

Who should take KI?

The thyroid glands of a fetus and of an infant are most at risk of injury from radioactive iodine. Young children and people with low stores of iodine in their thyroid are also at risk of thyroid injury.

Infants (including breast-fed infants): Infants need to be given the recommended dosage of KI for babies (see How much KI should I take?). The amount of KI that gets into breast milk is not enough to protect breast-fed infants from exposure to radioactive iodine. The proper dose of KI given to a nursing infant will help protect it from radioactive iodine that it breathes in or drinks in breast milk.

Children: The United States Food and Drug Administration (FDA) recommends that all children internally contaminated with (or likely to be internally contaminated with) radioactive iodine take KI, unless they have known allergies to iodine. Children from newborn to 18 years of age are the most sensitive to the potentially harmful effects of radioactive iodine.

Young Adults: The FDA recommends that young adults (between the ages of 18 and 40 years) internally contaminated with (or likely to be internally contaminated with) radioactive iodine take the recommended dose of KI. Young adults are less sensitive to the effects of radioactive iodine than are children.

Pregnant Women: Because all forms of iodine cross the placenta, pregnant women should take KI to protect the growing fetus. However, pregnant women should take only one dose of KI following internal contamination with (or likely internal contamination with) radioactive iodine.

Breastfeeding Women: Women who are breastfeeding should take only one dose of KI if they have been internally contaminated with (or are likely to be internally contaminated with) radioactive iodine. Because radioactive iodine quickly gets into breast milk, CDC recommends that women internally contaminated with (or are likely to be internally contaminated with) radioactive iodine stop breastfeeding and feed their child baby formula or other food if it is available. If breast milk is the only food available for an infant, nursing should continue.

Adults: Adults older than 40 years should not take KI unless public health or emergency management officials say that contamination with a very large dose of radioactive iodine is expected. Adults older than 40 years have the lowest chance of developing thyroid cancer or thyroid injury after contamination with radioactive iodine. They also have a greater chance of having allergic reactions to KI. [my note: really? i'd like a second opinion on that].

When should I take KI?

After a radiologic or nuclear event, local public health or emergency management officials will tell the public if KI or other protective actions are needed. For example, public health officials may advise you to remain in your home, school, or place of work (this is known as “shelter-in-place”) or to evacuate. You may also be told not to eat some foods and not to drink some beverages until a safe supply can be brought in from outside the affected area. Following the instructions given to you by these authorities can lower the amount of radioactive iodine that enters your body and lower the risk of serious injury to your thyroid gland.
How much KI should I take?

The FDA has approved two different forms of KI—tablets and liquid—that people can take by mouth after a nuclear radiation emergency. Tablets come in two strengths, 130 milligram (mg) and 65 mg. The tablets are scored so they may be cut into smaller pieces for lower doses. Each milliliter (mL) of the oral liquid solution contains 65 mg of KI.
According to the FDA, the following doses are appropriate to take after internal contamination with (or likely internal contamination with) radioactive iodine:

* Adults should take 130 mg (one 130 mg tablet OR two 65 mg tablets OR two mL of solution).
* Women who are breastfeeding should take the adult dose of 130 mg.
* Children between 3 and 18 years of age should take 65 mg (one 65 mg tablet OR 1 mL of solution). Children who are adult size (greater than or equal to 150 pounds) should take the full adult dose, regardless of their age.
* Infants and children between 1 month and 3 years of age should take 32 mg (½ of a 65 mg tablet OR ½ mL of solution). This dose is for both nursing and non-nursing infants and children.
* Newborns from birth to 1 month of age should be given 16 mg (¼ of a 65 mg tablet or ¼ mL of solution). This dose is for both nursing and non-nursing newborn infants.

How often should I take KI?

A single dose of KI protects the thyroid gland for 24 hours. A one-time dose at the levels recommended in this fact sheet is usually all that is needed to protect the thyroid gland. In some cases, radioactive iodine might be in the environment for more than 24 hours. If that happens, local emergency management or public health officials may tell you to take one dose of KI every 24 hours for a few days. You should do this only on the advice of emergency management officials, public health officials, or your doctor. Avoid repeat dosing with KI for pregnant and breastfeeding women and newborn infants. Those individuals may need to be evacuated until levels of radioactive iodine in the environment fall.

Taking a higher dose of KI, or taking KI more often than recommended, does not offer more protection and can cause severe illness or death.

Medical conditions that may make it harmful to take KI

Taking KI may be harmful for some people because of the high levels of iodine in this medicine. You should not take KI if

• you know you are allergic to iodine (If you are unsure about this, consult your doctor. A seafood or shellfish allergy does not necessarily mean that you are allergic to iodine.) or
• you have certain skin disorders (such as dermatitis herpetiformis or urticaria vasculitis).

People with thyroid disease (for example, multinodular goiter, Graves’ disease, or autoimmune thyroiditis) may be treated with KI. This should happen under careful supervision of a doctor, especially if dosing lasts for more than a few days.

In all cases, talk to your doctor if you are not sure whether to take KI.

What are the possible risks and side effects of KI?

When public health or emergency management officials tell the public to take KI following a radiologic or nuclear event, the benefits of taking this drug outweigh the risks. This is true for all age groups. Some general side effects caused by KI may include intestinal upset, allergic reactions (possibly severe), rashes, and inflammation of the salivary glands.

When taken as recommended, KI causes only rare adverse health effects that specifically involve the thyroid gland. In general, you are more likely to have an adverse health effect involving the thyroid gland if you

* take a higher than recommended dose of KI,
* take the drug for several days, or
* have pre-existing thyroid disease.

Newborn infants (less than 1 month old) who receive more than one dose of KI are at particular risk for developing a condition known as hypothyroidism (thyroid hormone levels that are too low). If not treated, hypothyroidism can cause brain damage. Infants who receive KI should have their thyroid hormone levels checked and monitored by a doctor. Avoid repeat dosing of KI to newborns.

Where can I get KI?

KI is available without a prescription. You should talk to your pharmacist to get KI and for directions about how to take it correctly. Your pharmacist can sell you KI brands that have been approved by the FDA.

_http://emergency.cdc.gov/radiation/ki.asp
 
Although Prussian blue is said to only be available via prescription, I'm including it here in the interests of overall thoroughness.

Prussian blue will help speed up the removal of cesium and thallium from the body:

Facts About Prussian blue

Prussian blue can remove certain radioactive materials from people’s bodies, but must be taken under the guidance of a doctor.

People may become internally contaminated (inside their bodies) with radioactive materials by accidentally ingesting (eating or drinking) or inhaling (breathing) them, or through direct contact (open wounds). The sooner these materials are removed from the body, the fewer and less severe the health effects of the contamination will be. Prussian blue is a substance that can help remove certain radioactive materials from people’s bodies. However, small amounts of contamination may not require treatment. Doctors can prescribe Prussian blue if they determine that a person who is internally contaminated would benefit from treatment.

What Prussian blue is

Prussian blue was first produced as a blue dye in 1704 and has been used by artists and manufacturers ever since. It got its name from its use as a dye for Prussian military uniforms. Prussian blue dye and paint are still available today from art supply stores.

People SHOULD NOT take Prussian blue artist’s dye in an attempt to treat themselves. This type of Prussian blue is not designed to treat radioactive contamination and is not made for that purpose. People who are concerned about the possibility of being contaminated with radioactive materials should go to their doctors for advice and treatment.
Use of Prussian blue to treat radioactive contamination

Since the 1960s, Prussian blue has been used to treat people who have been internally contaminated with radioactive cesium (mainly Cs-137) and nonradioactive thallium (once an ingredient in rat poisons). Doctors can prescribe Prussian blue at any point after they have determined that a person who is internally contaminated would benefit from treatment. Prussian blue will help speed up the removal of cesium and thallium from the body.

How Prussian blue works

Prussian blue traps radioactive cesium and thallium (mainly Tl-201) in the intestines and keeps them from being re-absorbed by the body. The radioactive materials then move through the intestines and are excreted (passed) in bowel movements. Prussian blue reduces the biological half-life1 of cesium from about 110 days to about 30 days. Prussian blue reduces the biological half-life of thallium from about 8 days to about 3 days. Because Prussian blue reduces the time that radioactive cesium and thallium stay in the body, it helps limit the amount of time the body is exposed to radiation.

Who can take Prussian blue

The drug is safe for most adults, including pregnant women, and children (2 ─12 years). Dosing for infants (ages 0 ─2 years) has not been determined yet. Women who are breast feeding their babies should stop breast feeding if they think they are contaminated with radioactive materials and consult with their doctors. People who have had constipation, blockages in the intestines, or certain stomach problems should be sure to tell their doctors before taking Prussian blue. Before taking Prussian blue, people also should be sure to tell their doctors about any other medicine they are taking.

How Prussian blue is given

Prussian blue is given in 500-milligram capsules that can be swallowed whole. People who cannot swallow pills can take Prussian blue by breaking the capsules and mixing the contents in food or liquid. Breaking open the capsules will cause people’s mouths and teeth to be blue during the time of treatment.

The dose of Prussian blue depends on the person’s age and the amount of contamination in the body. Prussian blue usually is given 3 times a day for a minimum of 30 days, depending on the extent of the contamination.
Side effects of Prussian blue

The most common side effects of Prussian blue are upset stomach and constipation. These side effects can easily be treated with other medications. People may have blue feces (stool) during the time that they are taking Prussian blue.

Where you can get Prussian blue

Prussian blue is available only by prescription. The CDC has included Prussian blue in the Strategic National Stockpile (SNS), a special collection of drugs and medical supplies that CDC keeps to treat people in an emergency.
Where you can get more information

More detailed information on Prussian blue can be found at the U.S. Food and Drug Administration Web site.

You may also call the CDC Public Response line at 1-800-311-3435 or visit _http://www.cdc.gov/netinfo.htm to request more information.

1Biological half-life is the time that it takes a substance in the body to be reduced by ½.

_http://emergency.cdc.gov/radiation/prussianblue.asp
 
Thank you for this very interesting information's.

I only knew from Irish moss and iodine tablets since the time were we germans
have to deal with the fallout from Tschernobyl, I was young but I remember my mother every morning applied us additional multivitamins, furthermore
we often have taken showers and it was forbidden to play in the rain…. Wether this helped us to deal with the radiation is a nother question, but we felt a little bit saver with this
small protection, and I think our detox diet also can provide a good support in such a situation.

Again thank you !
 
Thanks Bud - I've compiled some of this and sent it out to some folks.
 
LQB said:
Thanks Bud - I've compiled some of this and sent it out to some folks.

Here's a sott article with more information. http://www.sott.net/articles/show/225893-Iodine-Tocotrienols-Berries-and-Lipoic-Acid-to-Protect-Against-Radiation-Exposure
 
Green clays, taken internally, are very effective. This site - _http://www.greenclays.com/ - has a clay blend that is meant specifically for ingestion. You can get green clay (bentonite or montmorillionite) from most health food stores, but make sure it is pure and not mixed with anything for cosmetic use.
 
anart said:
LQB said:
Thanks Bud - I've compiled some of this and sent it out to some folks.

Here's a sott article with more information. http://www.sott.net/articles/show/225893-Iodine-Tocotrienols-Berries-and-Lipoic-Acid-to-Protect-Against-Radiation-Exposure

Just sent that one out too - thanks anart! :)
 
In consideration of the fact that the keyword phrase "Nuclear Radiation Detox" is popular right now and in the interests of completeness, this post's contents also help to round out the picture, so is appropriate here, OSIT.

From Byron Richards, CCN Wellness Resources as carried on SoTT:

[Iodide is covered earlier in this thread, so i'm leaving out that portion of this article]

The author, Byron Richards, continues...

Protecting the thyroid with iodine seems to be about all that public health officials are willing to recommend to the public. However, there are other important steps every person should consider. Radiation interaction within your body generates massive amounts of damaging free radicals, in turn potentially inducing DNA damage that may lead to future cancer - often manifesting a decade or two later. This means it is a good idea to maximize your overall antioxidant defenses. Ideally, this system would be bolstered in advance to provide maximum defense. Unfortunately, the antioxidant defense systems of a majority of Americans are in shoddy condition.

Many nutrients contain antioxidants and many of these behave in your vital antioxidant network to protect your DNA from damage. In your diet these nutrients come from fruits, vegetables, whey protein, and whole grains. Additionally, almost any nutrient supplement with antioxidant properties, such as vitamin C, will help bolster your antioxidant team. I would suggest to everyone a broad-base of antioxidant support as the minimum. Indeed, a cocktail of antioxidants (selenium, vitamin C, N-acetyl cysteine, alpha lipoic acid, alpha-tocopherol succinate, and co-enzyme Q10) started 24 hours after a lethal level of radiation exposure has been show to be highly protective.

I would like to highlight three specific nutrients that have science showing they can protect your body against radiation damage: tocotrienols, berries, and lipoic acid.

Tocotrienols are a unique form of vitamin E that offers protection that regular vitamin E does not. In a recent animal experiment carried out by the U.S. Armed Forces Radiobiology Research Institute it was shown that gamma tocotrienol can protect against whole body radiation exposure.

Excessive radiation exposure damages DNA, especially DNA relating to the system in our bone marrow that produces all the red and white blood cells that are vital for survival. Therefore, radiation exposure has adverse consequences on circulatory health and immune system competence, disturbing energy balance and increasing the risk for cancer. Of particular importance are the haematopoietic stem cells (HSCs) that constantly rejuvenate blood and can become any of the white or red blood cells, as well as the haematopoietic progenator cells (HPCs) that transform into specific blood cells. Both HSCs and HPCs are the life force of blood cell rejuvenation and essential to your good health.

In this armed forces experiment where mice were exposed to non-lethal amounts of whole body radiation, there was a control group and a group fed gamma tocotrienol. Stem cell colonies (HSCs) were 80 - 86% maintained in the gamma tocotrienol treated mice, while they were 50% reduced in controls. Similarly, progenator cells (HPCs) had recovered completely within 7 days in the gamma tocotrienol treated mice, while they remained at 30% for weeks in the controls. A detailed analysis of the bone marrow showed that gamma tocotrienol maintained the regenerative integrity of bone marrow cells. The authors concluded that gamma tocotrienol "protected hematopoietic tissue by preserving the HSCs and HPCs and by preventing persistent DNA damage."

Another recent animal study shows that gamma tocotrienol can offset the adverse effects of radiation exposure, including the reduction of peroxynitrite, the most damaging free radical. This is important because as free radicals begin forming their reactions can cascade into producing large amounts of the most damaging of all free radicals, peroxynitrite. Short-circuiting peroxynitrite formation in response to radiation exposure is of immense importance to protecting DNA.

Lipoic acid is a very small and versatile fat- and water-soluble antioxidant. Animal studies show that it helps maintain the antioxidant defense system in multiple body tissues upon radiation exposure, especially protecting the brain, liver, spleen, kidney, and testes.

The health status of some 6,000 workers from Latvia who went to clean-up the Chernobyl Nuclear Power Plant has been followed for several decades. These workers suffered higher-than-normal rates of problems in their nervous, digestive, respiratory, cardiovascular, endocrine system (especially thyroid) and immunological systems.

A study conducted on some of these workers 10 years after the fact showed that 600 mg of lipoic acid for two months was able to normalize many, but not all, of their lab abnormalities. Too bad they didn't have protection prior to and during exposure. Pretreatment with lipoic acid has been shown to significantly reduce radiation exposure damage to the brain.

Recent animal research conducted by the United States Department of Agriculture showed that blueberry and strawberry extracts helped prevent brain damage from radiation exposure. Interestingly, the polyphenols of each fruit protected different areas of the brain - supporting a variety of dietary berry intake and/or supplements with multiple berries.

Having an adequate antioxidant defense system for more optimal health is common sense. During times of increased stress your needs for antioxidants rise - and this relates to any type of stress. Radiation exposure is simply one more type of stress - a rather nasty type. The demands in your life or existing health concerns may already be testing your antioxidant reserves. Bolstering your antioxidant defense system to compensate for a potential challenge is also common sense.
 
This is important as well - http://www.sott.net/articles/show/225895-DMSO-The-Antidote-for-Radiation-Poisoning
 
DMSA, as a heavy metal chelator, is also very helpful.
 
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