Acute radiation syndrome
| Acute radiation syndrome | |
|---|---|
| Radiation causes cellular degradation by autophagy. | |
| Synonyms | Radiation poisoning, radiation sickness, radiation toxicity
|
| Specialty | Critical care medicine |
| Symptoms | Nausea, vomiting, loss of appetite, fatigue, headache
|
| Usual onset | Within minutes to days |
| Duration | Weeks to months |
| Types | Bone marrow syndrome, gastrointestinal syndrome, neurovascular syndrome |
| Causes | High-dose ionizing radiation over a short period
|
| Diagnosis | History of exposure, clinical symptoms, CBC
|
| Treatment | Supportive care, blood transfusion, antibiotics, colony-stimulating factors, stem cell transplant
|
| Prognosis | Dose-dependent |
| Frequency | Rare
|
Acute radiation syndrome (ARS), also known as radiation sickness or radiation poisoning, is a serious medical condition caused by exposure to a high dose of ionizing radiation over a short period of time. ARS affects rapidly dividing cells and can damage tissues in multiple organ systems. Symptoms may begin within minutes to hours and progress over several days to weeks.
Signs and Symptoms[edit]
The clinical course of ARS is classically divided into stages:
- Prodromal stage: Initial symptoms including nausea, vomiting, anorexia, headache, and fatigue appear within hours.
- Latent stage: Apparent improvement or lack of symptoms lasting hours to weeks.
- Manifest illness stage: Depending on the dose and exposed tissues, characteristic syndromes develop.
- Recovery or death: Depending on severity and treatment, patients may recover or deteriorate.
ARS Subtypes[edit]
ARS is categorized into three primary syndromes based on the dose and tissues affected:
- Hematopoietic syndrome (0.7–10 Gy): Damage to bone marrow causes aplastic anemia, increasing risk of infections, anemia, and bleeding.
- Gastrointestinal syndrome (6–30 Gy): Damage to the intestinal epithelium leads to severe diarrhea, vomiting, and abdominal pain. Death is often due to infection and fluid loss.
- Neurovascular syndrome (>30 Gy): High doses result in cerebral edema, ataxia, seizures, and coma. Symptoms appear rapidly and are invariably fatal.
Cause[edit]
Acute radiation syndrome results from exposure to external sources of high-dose ionizing radiation, typically above 0.7 Gy (70 rads), over minutes. Common causes include:
- Nuclear accidents
- Atomic bombings
- Radiation therapy accidents
- Improper handling of industrial or research isotopes
Damage occurs primarily in rapidly dividing cells, especially those in the bone marrow, gastrointestinal tract, and skin. DNA damage, oxidative stress, and cell death lead to multi-organ failure at higher doses.
Diagnosis[edit]
Diagnosis is based on:
- Documented or suspected exposure to ionizing radiation
- Onset of characteristic symptoms
- Repeated CBCs to monitor blood cell depletion
- Use of biological dosimetry or chromosomal aberration testing, such as dicentric chromosome assay
Treatment[edit]
The cornerstone of ARS management is **supportive care**:
- **Fluid and electrolyte replacement**
- **Infection control** with antibiotics, antifungals, and antivirals
- **Blood transfusions** and platelet transfusions
- **Colony-stimulating factors** (e.g., filgrastim) to promote bone marrow recovery
- **Stem cell transplant** in cases of irreversible bone marrow failure
Decontamination[edit]
If radioactive material remains:
- External: remove clothing, wash skin
- Internal: treat with specific agents like potassium iodide (for radioiodine), prussian blue, or DTPA
Prognosis[edit]
Prognosis depends on:
- **Total absorbed dose** and **rate of exposure**
- **Partial vs. whole-body exposure**
- **Access to prompt supportive care**
Doses <1 Gy generally have good outcomes, while >10 Gy typically result in poor prognosis. Survivors of moderate exposure may develop leukemia, thyroid cancer, or other malignancies years later.
Epidemiology[edit]
ARS is rare but has been documented in mass radiation events. Key historical incidents:
- Atomic bombings of Hiroshima and Nagasaki
- Chernobyl disaster
- Goiania accident
- Tokaimura nuclear accident
Prevention[edit]
Occupational safety[edit]
Radiation workers must follow:
- ALARA principles (As Low As Reasonably Achievable)
- Use of personal protective equipment (PPE)
- Routine monitoring with dosimeters
Emergency preparedness[edit]
Governments and agencies maintain:
- Radiation emergency plans
- Distribution of potassium iodide
- Public education for nuclear fallout scenarios
Related conditions[edit]
See also[edit]
- Effects of nuclear explosions on human health
- Ionizing radiation
- Radiation safety
- Radiation protection
- Radiation hormesis
- Internal contamination
References[edit]
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