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| Radiation sickness by pharmacytimess |
Radiation
sickness
Overview
Radiation sickness is damage to your body
caused by a large dose of radiation often received over a short period of time
(acute). The amount of radiation absorbed by the body — the absorbed dose —
determines how sick you'll be.
Radiation sickness is also called acute
radiation syndrome or radiation poisoning. Radiation sickness is not caused by
common imaging tests that use low-dose radiation, such as X-rays or CT scans.
Although radiation sickness is serious and often
fatal, it's rare. Since the atomic bombings of Hiroshima and Nagasaki, Japan,
during World War II, most cases of radiation sickness have occurred after
nuclear industrial accidents, such as the 1986 explosion and fire that damaged
the nuclear power plant at Chernobyl, Ukraine.
Symptoms
The severity of signs and symptoms of
radiation sickness depends on how much radiation you've absorbed. How much you
absorb depends on the strength of the radiated energy, the time of your
exposures, and the distance between you and the source of radiation.
Signs and symptoms are also affected by the
type of exposure — such as total or partial body. The severity of radiation
sickness also depends on how sensitive the affected tissue is. For instance,
the gastrointestinal system and bone marrow are highly sensitive to radiation.
Initial signs and
symptoms
The initial signs and symptoms of treatable
radiation sickness are usually nausea and vomiting. The amount of time between
exposure and when these symptoms develop is a clue to how much radiation a
person has absorbed.
After the first round of signs and symptoms, a
person with radiation sickness may have a brief period with no apparent
illness, followed by the onset of new, more-serious symptoms.
If you've had a mild exposure, it may take
hours to weeks before any signs and symptoms begin. But with severe exposure,
signs and symptoms can begin minutes to days after exposure.
Possible symptoms include:
·
Nausea and vomiting
·
Diarrhea
·
Headache
·
Fever
·
Dizziness and
disorientation
·
Weakness and fatigue
·
Hair loss
·
Bloody vomit and
stools from internal bleeding
·
Infections
·
Low blood pressure
When to see a doctor
An accident or attack that causes radiation
sickness would no doubt cause a lot of attention and public concern. If such an
event occurs, monitor radio, television or online reports to learn about
emergency instructions for your area.
If you know you've been overexposed to
radiation, seek emergency medical care.
Causes
Radiation is the energy released from atoms as
either a wave or a tiny particle of matter. Radiation sickness is caused by
exposure to a high dose of radiation, such as a high dose of radiation received
during an industrial accident.
Sources of high-dose
radiation
Possible sources of high-dose radiation
include the following:
·
An accident at a
nuclear industrial facility
·
An attack on a nuclear
industrial facility
·
Detonation of a small
radioactive device
·
Detonation of a
conventional explosive device that disperses radioactive material (dirty bomb)
·
Detonation of a standard
nuclear weapon
Radiation sickness occurs when high-energy
radiation damages or destroys certain cells in your body. Regions of the body
most vulnerable to high-energy radiation are cells in the lining of your
intestinal tract, including your stomach, and the blood cell-producing cells of
bone marrow.
Complications
Having radiation sickness can contribute to
both short-term and long-term mental health problems, such as grief, fear and
anxiety about:
·
Experiencing a
radioactive accident or attack
·
Mourning friends or
family who haven't survived
·
Dealing with the
uncertainty of a mysterious and potentially fatal illness
·
Worrying about the
eventual risk of cancer due to radiation exposure
Prevention
In the event of a radiation emergency, stay
tuned to your radio or television to hear what protective actions local, state
and federal authorities recommend. Recommended actions will depend on the
situation, but you will be told to either stay in place or evacuate your area.
Shelter in place
If you're advised to stay where you are,
whether you're at home or work or elsewhere, do the following:
·
Close and lock all
doors and windows.
·
Turn off fans, air
conditioners and heating units that bring air in from outside.
·
Close fireplace
dampers.
·
Bring pets indoors.
·
Move to an inner room
or basement.
·
Stay tuned to your
emergency response network or local news.
·
Stay put for at least
24 hours.
Evacuate
If you're advised to evacuate, follow the
instructions provided by your local authorities. Try to stay calm and move
quickly and in an orderly manner. In addition, travel lightly, but take
supplies, including:
·
Flashlight
·
Portable radio
·
Batteries
·
First-aid kit
·
Necessary medicines
·
Sealed food, such as
canned foods, and bottled water
·
Manual can opener
·
Cash and credit cards
·
Extra clothes
Be aware that most emergency vehicles and
shelters won't accept pets. Take them only if you're driving your own vehicle
and going someplace other than a shelter.
Diagnosis
When a person has experienced known or
probable exposure to a high dose of radiation from an accident or attack,
medical personnel take a number of steps to determine the absorbed radiation
dose. This information is essential for determining how severe the illness is
likely to be, which treatments to use and whether a person is likely to
survive.
Information important for determining an
absorbed dose includes:
·
Known
exposure. Details about
distance from the source of radiation and duration of exposure can help provide
a rough estimate of the severity of radiation sickness.
·
Vomiting
and other symptoms. The time between
radiation exposure and the onset of vomiting is a fairly accurate screening
tool to estimate absorbed radiation dose. The shorter the time before the onset
of this sign, the higher the dose. The severity and timing of other signs and
symptoms also may help medical personnel determine the absorbed dose.
·
Blood
tests. Frequent blood
tests over several days enable medical personnel to look for drops in
disease-fighting white blood cells and abnormal changes in the DNA of blood
cells. These factors indicate the degree of bone marrow damage, which is
determined by the level of an absorbed dose.
·
Dosimeter. A device called a dosimeter can measure
the absorbed dose of radiation but only if it was exposed to the same radiation
event as the affected person.
·
Survey
meter. A device such as
a Geiger counter can be used to survey people to determine the body location of
radioactive particles.
·
Type
of radiation. A part of the
larger emergency response to a radioactive accident or attack would include
identifying the type of radiation exposure. This information would guide some
decisions for treating people with radiation sickness.
Treatment
The treatment goals for radiation sickness are
to prevent further radioactive contamination; treat life-threatening injuries,
such as from burns and trauma; reduce symptoms; and manage pain.
Decontamination
Decontamination involves removing external
radioactive particles. Removing clothing and shoes eliminates about 90 percent
of external contamination. Gently washing with water and soap removes
additional radiation particles from the skin.
Decontamination prevents radioactive materials
from spreading more. It also lowers the risk of internal contamination from
inhalation, ingestion or open wounds.
Treatment for damaged
bone marrow
A protein called granulocyte
colony-stimulating factor, which promotes the growth of white blood cells, may
counter the effect of radiation sickness on bone marrow. Treatment with this
protein-based medication, which includes filgrastim (Neupogen), sargramostim
(Leukine) and pegfilgrastim (Neulasta), may increase white blood cell
production and help prevent subsequent infections.
If you have severe damage to bone marrow, you
may also receive transfusions of red blood cells or blood platelets.
Treatment for internal
contamination
Some treatments may reduce damage to internal
organs caused by radioactive particles. Medical personnel would use these
treatments only if you've been exposed to a specific type of radiation. These
treatments include the following:
·
Potassium
iodide (ThyroShield, Iosat). This is a nonradioactive form of iodine.
Iodine is essential for proper thyroid function. If you're
exposed to significant radiation, your thyroid will absorb radioactive iodine
(radioiodine) just as it would other forms of iodine. The radioiodine is
eventually cleared from the body in urine.
If you take potassium iodide, it may fill "vacancies"
in the thyroid and prevent the absorption of radioiodine. Potassium iodide
isn't a cure-all and is most effective if taken within a day of exposure.
·
Prussian
blue (Radiogardase). This type of dye
binds to particles of radioactive elements known as cesium and thallium. The
radioactive particles are then excreted in feces. This treatment speeds up the
elimination of the radioactive particles and reduces the amount of radiation
cells may absorb.
·
Diethylenetriamine
pentaacetic acid (DTPA). This
substance binds to metals. DTPA binds to particles of the radioactive
elements plutonium, americium and curium. The radioactive particles pass out of
the body in urine, thereby reducing the amount of radiation absorbed.
Supportive treatment
If you have radiation sickness, you may
receive additional medications or interventions to treat:
·
Bacterial infections
·
Headache
·
Fever
·
Diarrhea
·
Nausea and vomiting
·
Dehydration
·
Burns
·
Sores or ulcers
End-of-life care
A person who has absorbed very large doses of
radiation has little chance of recovery. Depending on the severity of illness,
death can occur within two days or two weeks. People with a lethal radiation
dose will receive medications to control pain, nausea, vomiting and diarrhea.
They may also benefit from psychological or pastoral care.
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