Radiation exposure (disaster): Difference between revisions

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==Background==
==Background==
“Ionizing” radiation is electromagnetic or particulate in nature and has sufficient energy to cause ejection of an electron from an orbital shell of a target atom, thus creating charged particles or ions. Non-ionizing radiations, ( e.g., light, microwaves, and radiowaves), do not have sufficient energy to eject an electron from another atom. Ionization of biologically important molecules, e.g., DNA, can cause cellular death by several mechanisms. Ionizing radiation at higher doses can cause damage to actively dividing and undifferentiated cell types, e.g., stem and progenitor cells in the bone marrow, gastrointestinal system, and skin.
*“Ionizing” radiation is electromagnetic or particulate which can create charged particles or ions
*"Non-ionizing radiation" ( e.g., light, microwaves, and radiowaves) does not have sufficient energy to eject an electron from another atom
*Ionization of biologically important molecules, e.g., DNA, can cause cellular death
*Ionizing radiation at higher doses can cause damage to actively dividing and undifferentiated cell types, e.g., stem and progenitor cells in the bone marrow, gastrointestinal system, and skin


===Radiological and Nuclear Scenarios of Concerns===
===Radiological and Nuclear Scenarios of Concerns===
*Radiological Exposure Devices
*Radiological exposure devices
*Radiological Dispersal Devices
*Radiological dispersal devices
*Nuclear Power Plant Incidents/Accidents
*Nuclear power plant incidents/accidents
*Improvised Nuclear Devices
*Improvised nuclear devices


====Radiological Exposure Devices (RED)====
====Radiological Exposure Devices (RED)====
An RED is a device that can cause exposure to ionizing radiation without the knowledge of the person being exposed. Surreptitious placement of a radiation source could cause exposure to any number of persons. In addition, such surreptitious placement of an RED would almost certainly entail delayed discovery and notification of the healthcare community.  An undiscovered RED could cause serious injuries and illness.
*A RED is a device that can cause exposure to ionizing radiation without the knowledge of the person being exposed
 
*Surreptitious placement of a RED could delay discovery and notification of the healthcare community  
Injury expression is based on the radiation dose received, whether accidental or intentional in nature. Just as with industrial injuries, a concealed RED scenario could result in serious injuries. The numbers of injuries and illnesses will likely be relatively few, but this is variable and depends on the placement and type of the radiation source. Potential pathology could present in a range from cutaneous radiation syndrome (CRS, cutaneous syndrome or CS) with or without damage to subcutaneous tissues (acute local radiation injury or LRI) and with/without acute radiation syndrome (ARS). In CRS, deposition of ionizing radiation energy sufficient to cause damage to the epidermis and/or dermis may result in sloughing or desquamation of the outer layer of skin. Details specific to the injuries will be discussed in a future manuscript within this series.
*Injury is based on the radiation dose received, whether accidental or intentional in nature
*A concealed RED scenario could result in serious injuries


====Radiological Dispersal Devices (RDD)====
====Radiological Dispersal Devices (RDD)====
A  RDD is any device that is used to spread radioactive materials. More commonly thought of as an explosive device or “dirty bomb,” RDDs do not necessarily need to explode in order to spread radiological material into the environment. A non-explosive RDD could cause environmental contamination that could lead to human contamination. Examples may include the use of facility ventilation systems, fumigation systems, etc. Improvised explosive devices (IEDs) are detonated almost every day in Iraq and Afghanistan and cause numerous deaths and disfigurements due to physical trauma. The explosion of a device with radioactive materials could cause additional injury, internal contamination, and panic. Persons near the epicenter of an explosion of a dirty bomb will sustain physical trauma, thermal burns, and embedded foreign bodies including radioactive shrapnel.   
*Any device used to spread radioactive material; more commonly thought of as an explosive device or “dirty bomb"
 
*Do ''not'' necessarily need to explode in order to spread radiological material into the environment
The amount of physical damage from a RDD would depend upon the amount and type of explosives used. The additional radiological consequences would depend upon the radiological source and the physical properties as well as the explosive device. Removal of foreign bodies would require that healthcare providers wear appropriate personal protective equipment (PPE) and have access to radiation monitoring equipment, including ring dosimeters for physicians who have to remove radioactive shrapnel. Management of internal contamination by inhalation or via wounds might be required for some of the casualties.
**Non-explosive RDD could cause environmental contamination that could lead to human contamination (e.g. use in facility ventilation systems, fumigation systems, etc.)
*Explosion of an improvised explosive devices (IED) with radioactive material could cause additional injury, internal contamination, and panic
*Persons near the epicenter of an explosion of a dirty bomb will sustain physical trauma, thermal burns, and embedded foreign bodies including radioactive shrapnel.   
*Amount of physical damage from RDD would depend on amount and type of explosives used; additional radiological consequences would depend on source and physical properties as well as explosive device
*Removal of foreign bodies would require healthcare providers wear PPE and have access to radiation monitoring equiment (e.g. ring dosimeters)
*Management of internal contamination via inhalation or wounds might be required for some patients


====Nuclear Power Plant (NPP) Incident/Accident====
====Nuclear Power Plant (NPP) Incident/Accident====
The Fukushima Japan nuclear power plant disaster in March of 2011 was highly unusual and the first time that such a serious situation at a nuclear power plant resulted from an environmental disaster.6 The Pacific Ocean earthquake caused a 13-15 meter tsunami to hit the shore of Japan at the site of the nuclear power plant (NPP) at Fukushima. Thousands of people were evacuated because of radiological concerns associated with the crippled power plant. Predictably, radioactive materials released from the damaged reactor(s) received much hype in the media and heightened public concern about exposure to radioactive contamination. Emphasizing the public’s preoccupation with radiation-related consequences, the radiological concerns overshadowed the deaths and the displacement of tens of thousands of people from the effects of the tsunami. 
*The Fukushima Japan nuclear power plant disaster in March of 2011 was highly unusual and the first time that such a serious situation at a nuclear power plant resulted from an environmental disaster.
 
*Nuclear power plants use the energy created by the fissioning of atomic nuclei ("splitting" of the atom) to generate electricity. *Heat generated during fission process converts water to steam, which then is used to drive electricity-generating turbines
Nuclear power plants use the energy created by the fissioning of atomic nuclei — often referred to as the” splitting of the atom” — to generate electricity. In nuclear power the heat generated during the fission process converts water to steam, which is then used to drive electricity-generating turbines. Water is continually circulated through the reactor core via coolant pumps to control temperatures. The loss of power to coolant pumps or other interruptions of cooling capabilities to the reactors, can allow the reactor core to overheat. This is known as a loss-of-coolant-accident (LOCA).  Without the ability to cool the reactors, the radioactive core can begin to melt, hence the term “melt-down.
*Loss of power to coolant pumps can allow reactor core to overheat, which can then cause the radioactive core to "melt-down".


====Nuclear Device Detonation====
====Nuclear Device Detonation====
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**Shock or bomb blast (50%)
**Shock or bomb blast (50%)
**Radiation (15%)
**Radiation (15%)
 
*The detonation of any kind or size of nuclear weapon would be expected to cause massive physical damage to a community and untold psychological devastation to its population. In 2009, the National Security Staff released the first edition of Planning Guidance for the Response to a Nuclear Detonation10  In this document, planners categorized the devastation, types of physical damage, and types of human injuries based upon distance from the detonation epicenter in zones. The second edition of this document, released in June 2010, updated recommendations and guidance based on intensive modeling efforts to try to further quantify the effects of a nuclear detonation in an urban American city. Part of the updates to the guidance includes further refinement of the proposed damage zones. The document’s authors called the area closest to the epicenter the Severe Damage (SD) zone; the adjacent area the Moderate Damage (MD) zone; and the affected area furthest away from the epicenter, the Light Damage (LD) zone. In addition, a dangerous fallout (DF) radiation zone, which is determined by the scattering of radiological material, is also defined3. The presumed “safe” and “dangerous” distances away from the epicenter vary from scenario to scenario in modeling efforts and would be made after-the-fact by the incident commander based upon types of damage found on the ground.  Zone determinations would depend upon:  
It was not until 2004 that the U.S. government published the National Response Plan (NRP), now called the National Response Framework8 that outlined the federal response to national-level incidents. In 2005, 15 all-hazards national planning scenarios were developed for incident specific response planning. The first of these scenarios describes a 10 kiloton (10 kT) improvised nuclear device (IND) detonation. In response to this scenario, the Federal Emergency Management Agency (FEMA) began to plan and prepare for response to a detonation of an IND. Effective response and recovery actions following the detonation of a small nuclear weapon are thought to be entirely feasible thorough implementation of the National Incident Management System (NIMS) and the incident command system (ICS).
 
The detonation of any kind or size of nuclear weapon would be expected to cause massive physical damage to a community and untold psychological devastation to its population. In 2009, the National Security Staff released the first edition of Planning Guidance for the Response to a Nuclear Detonation10  In this document, planners categorized the devastation, types of physical damage, and types of human injuries based upon distance from the detonation epicenter in zones. The second edition of this document, released in June 2010, updated recommendations and guidance based on intensive modeling efforts to try to further quantify the effects of a nuclear detonation in an urban American city. Part of the updates to the guidance includes further refinement of the proposed damage zones. The document’s authors called the area closest to the epicenter the Severe Damage (SD) zone; the adjacent area the Moderate Damage (MD) zone; and the affected area furthest away from the epicenter, the Light Damage (LD) zone. In addition, a dangerous fallout (DF) radiation zone, which is determined by the scattering of radiological material, is also defined3. The presumed “safe” and “dangerous” distances away from the epicenter vary from scenario to scenario in modeling efforts and would be made after-the-fact by the incident commander based upon types of damage found on the ground.  Zone determinations would depend upon:  
*The yield of the weapon
*The yield of the weapon
*Whether the detonation was  at a height or at ground level, and
*Whether the detonation was  at a height or at ground level, and
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*Principles of exposure
*Principles of exposure
**Different radioactive particles have diff effects at same absorbed dose- so use effective dose for comparison  
**Different radioactive particles have diff effects at same absorbed dose- so use effective dose for comparison  
**Eeffect of radiation based on time of exp, distance and shielding  
**Effect of radiation based on time of exp, distance and shielding  
**Dose decreases rapidly with square of distance and decreases on 1/9th if triple distance  
**Dose decreases rapidly with square of distance and decreases on 1/9th if triple distance  
**Lead is an effective shield  
**Lead is an effective shield  
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===Biological Principles===
===Biological Principles===
*some cells may die but if cells role not critical for survival, may not see effect  
*Some cells may die but if cells role not critical for survival, may not see effect  
*rapidly dividing cells (e.g. GI and bone marrow) are most vulnerable  
*Rapidly dividing cells (e.g. GI and bone marrow) are most vulnerable  
*dose ~1Gy, cells survive but get CA later  
*Dose ~1Gy, cells survive but get cancer later  
*radiation induced CA dose related  
*Radiation-induced cancer dose related  
*leukemia within 2 yrs, solid tumors 5-10 or more yrs
*[[Leukemia]] within 2 yrs, solid tumors 5-10 or more yrs
*Beta rays from fallout only burn exposed skin
 
==Clinical Features==
*Presentation dependant on nature of exposure
**See [[acute radiation syndrome]], [[blast injuries]]
**May be asymptomatic
*Radiation burn like thermal [[burn]] but signs can occur after a few days, vascular insufficiency after several months and causing necrosis of previously healed skin


==Differential Diagnosis==
==Differential Diagnosis==
{{MCI types}}
{{MCI types}}


==Diagnosis==
==Evaluation==
* Evaluate and stabilize any life threatening physical injuries (ABC's)
* Decontaminate after stabilized
**Check for external contamination
***document location, dose rate and/or count measurements initial and after decontamination, and description of decontamination methods/agents used
**Check for internal contamination
***swab both nostrils
***24-hour stool and 24-hour urine samples
***Identify radionuclide (chemical form), solubility and particle character
***Document suspected route of contamination.
**External exposure to ionizing radiation
***document location and position of patient relative to source of radiation at time of exposure, as well as time and duration of exposure (including dosimeter information if applicable)
*CBC q6-8h x 2-3 days
*Amylase; baseline and at 24h post exposure


==Treatment==
==Management==
*can be localized or whole body, internal or external deposition and contamination  
*Can be localized or whole body, internal or external deposition and contamination  
*mostly not emergency, just tx sxs and supportive care
*Mostly not emergency, just treatment symptoms and supportive care
*Consider contacting health physicist and/or radiation safety officer for help


===Localized Exposure===
===Localized Exposure===
*by direct handling. patient survives eventhough dose high since exposure drops rapidly with distance  
* Treat wounds symptomatically
*rad burn like thermal burn- but signs can occur after a few days, vasc insuff after several months and causing necrosis of previously healed skin
**Close wounds within 35-48 hours
*tx c pain control, infc prophylaxsis, vasodilator tx, surg, skin graft,  
*By direct handling. patient survives even though dose high since exposure drops rapidly with distance  
*extent of penetration important factor in outcome  
*Treat [[burns]] with [[analgesia|pain control]], prophylactic [[antibiotics]], vasodilator treatment, surgery, skin graft,  
*beta rays from fallout only burn exposed skin
**Extent of penetration important factor in outcome  


===Whole Body Exposure===
===Whole Body Exposure===
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| 1 GY (100 rad) || Hematopoietic || Lymphocytopenia – 24-48 hours
| 1 GY (100 rad) || Hematopoietic || Lymphocytopenia – 24-48 hours
(worsens with increasing dose)
(worsens with increasing dose)
Thrombocytopenia, Anemia - weeks
[[Thrombocytopenia]], [[Anemia]] - weeks


|-
|-
| 6 Gy (600 rad) || Gastrointestinal || Nausea, vomiting, diarrhea with resulting hupovolemia and electrolyte shifts,  
| 6 Gy (600 rad) || Gastrointestinal || [[Nausea/vomiting]], [[diarrhea]] with resulting [[hypovolemia]] and electrolyte shifts,  
|-
|-
| 10 Gy (1000 rad)|| Neurovascular || Nausea, headache, lethargy, ataxia, confusion, seizures  
| 10 Gy (1000 rad)|| Neurovascular || Nausea, [[headache]], lethargy, [[ataxia]], [[confusion]], [[seizures]]
|-
|-
|}
|}
**Within 12hr, N/V for 48hr  
**Within 12hr, [[nausea/vomiting]] for 48hr  
**Dose >30 gy: CV and CNS effects - hypotension, cerebral edema, sz, n/v/d, ataxia, death  
**Dose >30 gy: cardiovascular and CNS effects - [[hypotension]], cerebral edema, [[seizure]], [[nausea/vomiting]]/[[diarrhea]], [[ataxia]], [[cardiac arrest|death]]
**Dose 10-30 gy: GI syndrome: N/V/D, then latent for 1 wk, then recurrent n/v/d this time with sepsis and death  
**Dose 10-30 gy: GI syndrome: [[nausea and vomiting]]/[[diarrhea]], then latent for 1 week, then recurrent nausea and vomiting/diarrhea this time with [[sepsis]] and death  
*hematopoetic syn- dose 2gy or higher- lymphocyte reduction within 48 hrs is indicator for rad exposure. get leukopenia and thrombocytopenia- bleeding and infc- may enhance recovery by hematopoetic factors  
*Hematopoietic symptoms- dose 2gy or higher- [[leukopenia|lymphocyte reduction]] within 48 hrs is indicator for rad exposure. get leukopenia and [[thrombocytopenia]]- bleeding and infection- may enhance recovery by hematopoietic factors  
*cutaneous syn- damaged skin may interact with other organ damage  
*Cutaneous symptoms- damaged skin may interact with other organ damage  
*amifostine- prophylactic radiation drug- causes hypotn as side effect unfortunately
*Amifostine- prophylactic radiation drug- causes hypotension as side effect  
*androstenediol- boosts immune system  
*Androstenediol- boosts immune system  
*bone marrow xplant not helpful  
*Bone marrow transplant not helpful  
*even if tx and survive hematopoetic syn, still die from radiation pneumonitis, denuded gi tract, hepatic and renal dysfunction
*Even if treatment and survive hematopoetic symptoms, still die from radiation pneumonitis, denuded GI tract, hepatic and renal dysfunction


===Internal Contamination===
===Internal Contamination===
*may enter thru burns, wounds, inhale, ingest  
*May enter thru burns, wounds, inhale, ingest  
*need to know type of radionuclide and chemical form  
*Need to know type of radionuclide and chemical form  
*need to tx quickly to be effective  
*Need to treatment quickly to be effective  
*reduce absorption, dilute, blockage, displacement by non radioactive materials, mobilization, chelation  
*Reduce absorption, dilute, blockage, displacement by nonradioactive materials, mobilization, chelation  
*potassium iodine for nuc weapon detonation or reactor breach- prevents radioiodine from accumulating in thyroid. take shortly after exp to be effective- if give too much get iodism  
*Potassium iodine for nuc weapon detonation or reactor breach- prevents radioiodine from accumulating in thyroid. take shortly after exp to be effective- if give too much get iodism  
*dose- 130 mg adults, 65 mg 3- 18ys, 32 mg 1mo- 3yr, 16 mg for age< 1mo  
*Dose- 130mg adults, 65mg 3- 18ys, 32mg 1mo- 3yr, 16mg for age< 1mo  
*chelators- calcium, zinc, only for plutonium or americium
*Chelators- calcium, zinc, only for plutonium or americium


===External Contamination===
===External Contamination===
*clothes and exp skin- just clean up and prevent spread  
*Clothes and exp skin- just clean up and prevent spread  
*clean with soap and water  
*Clean with soap and water  
*if extremis- stabilize first, then decontam  
*If extremis- stabilize first, then decontam  
*do not abraid skin while cleaning
*Do not abraid skin while cleaning


===Contaminated Burns and Wounds===
===Contaminated Burns and Wounds===
#irrigate
#Irrigate
#excise only if long acting radionuclides  
#Excise only if long acting radionuclides  
#if whole body dose &gt;1gy, close wound asap to prevent portal of infc  
#If whole body dose >1gy, close wound asap to prevent portal of infc  
#in burns, radioactivity comes off with eschar and exudate
#In burns, radioactivity comes off with eschar and exudate


==Disaster Management==
==Disaster Management==
*preparation, crisis management, consequences  
*Preparation, crisis management, consequences  
*FBI is lead agency in terrorist incident  
*FBI is lead agency in terrorist incident  
*during consequence management, FEMA fed emerg management agency takes over  
*During consequence management, FEMA fed emerg management agency takes over  
*intervention- action to reduce exp and dose of radtn
*Intervention- action to reduce exposure and dose of radiation
*if dose 1 rem- stay in doors up to 2 days- evacuate for 1 wk if dose of 5 rem or more  
*If dose 1 rem- stay in doors up to 2 days- evacuate for 1 wk if dose of 5 rem or more  
*temp relocation if dose 3 rem in first month or 1 rem in subsequent month  
*Temperature relocation if dose 3 rem in first month or 1 rem in subsequent month  
*permanent resettlement if lifetime dose 100 rem  
*Permanent resettlement if lifetime dose 100 rem  
*pot iodine only if thyroid dose 100 mgy or more  
*Potassium iodine only if thyroid dose 100mgy or more  
*EMS occupational dose of 5 rem per yr dose not apply- allowable dose goes up for life saving event  
*EMS occupational dose of 5 rem per yr dose not apply- allowable dose goes up for lifesaving event  
*at dose of 0.1 gy/hr- ems may go in for short time but dose maybe life threatening
*At dose of 0.1 gy/hr- ems may go in for short time but dose may be life threatening


==See Also==
==See Also==
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[[Category:Toxicology]]  
[[Category:Toxicology]]  
[[Category:EMS]]
[[Category:EMS]]
[[Category:Military]]

Latest revision as of 15:18, 14 October 2019

Background

  • “Ionizing” radiation is electromagnetic or particulate which can create charged particles or ions
  • "Non-ionizing radiation" ( e.g., light, microwaves, and radiowaves) does not have sufficient energy to eject an electron from another atom
  • Ionization of biologically important molecules, e.g., DNA, can cause cellular death
  • Ionizing radiation at higher doses can cause damage to actively dividing and undifferentiated cell types, e.g., stem and progenitor cells in the bone marrow, gastrointestinal system, and skin

Radiological and Nuclear Scenarios of Concerns

  • Radiological exposure devices
  • Radiological dispersal devices
  • Nuclear power plant incidents/accidents
  • Improvised nuclear devices

Radiological Exposure Devices (RED)

  • A RED is a device that can cause exposure to ionizing radiation without the knowledge of the person being exposed
  • Surreptitious placement of a RED could delay discovery and notification of the healthcare community
  • Injury is based on the radiation dose received, whether accidental or intentional in nature
  • A concealed RED scenario could result in serious injuries

Radiological Dispersal Devices (RDD)

  • Any device used to spread radioactive material; more commonly thought of as an explosive device or “dirty bomb"
  • Do not necessarily need to explode in order to spread radiological material into the environment
    • Non-explosive RDD could cause environmental contamination that could lead to human contamination (e.g. use in facility ventilation systems, fumigation systems, etc.)
  • Explosion of an improvised explosive devices (IED) with radioactive material could cause additional injury, internal contamination, and panic
  • Persons near the epicenter of an explosion of a dirty bomb will sustain physical trauma, thermal burns, and embedded foreign bodies including radioactive shrapnel.
  • Amount of physical damage from RDD would depend on amount and type of explosives used; additional radiological consequences would depend on source and physical properties as well as explosive device
  • Removal of foreign bodies would require healthcare providers wear PPE and have access to radiation monitoring equiment (e.g. ring dosimeters)
  • Management of internal contamination via inhalation or wounds might be required for some patients

Nuclear Power Plant (NPP) Incident/Accident

  • The Fukushima Japan nuclear power plant disaster in March of 2011 was highly unusual and the first time that such a serious situation at a nuclear power plant resulted from an environmental disaster.
  • Nuclear power plants use the energy created by the fissioning of atomic nuclei ("splitting" of the atom) to generate electricity. *Heat generated during fission process converts water to steam, which then is used to drive electricity-generating turbines
  • Loss of power to coolant pumps can allow reactor core to overheat, which can then cause the radioactive core to "melt-down".

Nuclear Device Detonation

  • 3 forms of energy released by nuclear detonation[1]
    • Heat (35% of total)
    • Shock or bomb blast (50%)
    • Radiation (15%)
  • The detonation of any kind or size of nuclear weapon would be expected to cause massive physical damage to a community and untold psychological devastation to its population. In 2009, the National Security Staff released the first edition of Planning Guidance for the Response to a Nuclear Detonation10 In this document, planners categorized the devastation, types of physical damage, and types of human injuries based upon distance from the detonation epicenter in zones. The second edition of this document, released in June 2010, updated recommendations and guidance based on intensive modeling efforts to try to further quantify the effects of a nuclear detonation in an urban American city. Part of the updates to the guidance includes further refinement of the proposed damage zones. The document’s authors called the area closest to the epicenter the Severe Damage (SD) zone; the adjacent area the Moderate Damage (MD) zone; and the affected area furthest away from the epicenter, the Light Damage (LD) zone. In addition, a dangerous fallout (DF) radiation zone, which is determined by the scattering of radiological material, is also defined3. The presumed “safe” and “dangerous” distances away from the epicenter vary from scenario to scenario in modeling efforts and would be made after-the-fact by the incident commander based upon types of damage found on the ground. Zone determinations would depend upon:
  • The yield of the weapon
  • Whether the detonation was at a height or at ground level, and
  • The topographical features of the terrain and its structures.

Basic Principles

Physical Properties

  • Radiation Types
    • Gamma and xrays - deep penetration
    • Alpha - hazard only if ingested/ inoculated since penetration only ~0.1mm
    • Beta/electrons - penetrate only a few centimeters
  • Dose
    • Rads - dose absorbed by specific tissue.
    • Gray (Gy) - international unit for absorbed dose. (1 Gy = 100 rads)
    • REM - "Effective Dose" (100 rem = 1 sievert = 1 Gy)
  • Principles of exposure
    • Different radioactive particles have diff effects at same absorbed dose- so use effective dose for comparison
    • Effect of radiation based on time of exp, distance and shielding
    • Dose decreases rapidly with square of distance and decreases on 1/9th if triple distance
    • Lead is an effective shield
  • Radiation decays with time
    • Iodine isotopes are short lived
    • Cesium, stontium, cobalt are longer-lived
    • Rate of decay also effects dose of exposure and may effect management decisions

Biological Principles

  • Some cells may die but if cells role not critical for survival, may not see effect
  • Rapidly dividing cells (e.g. GI and bone marrow) are most vulnerable
  • Dose ~1Gy, cells survive but get cancer later
  • Radiation-induced cancer dose related
  • Leukemia within 2 yrs, solid tumors 5-10 or more yrs
  • Beta rays from fallout only burn exposed skin

Clinical Features

  • Presentation dependant on nature of exposure
  • Radiation burn like thermal burn but signs can occur after a few days, vascular insufficiency after several months and causing necrosis of previously healed skin

Differential Diagnosis

Mass casualty incident

Evaluation

  • Evaluate and stabilize any life threatening physical injuries (ABC's)
  • Decontaminate after stabilized
    • Check for external contamination
      • document location, dose rate and/or count measurements initial and after decontamination, and description of decontamination methods/agents used
    • Check for internal contamination
      • swab both nostrils
      • 24-hour stool and 24-hour urine samples
      • Identify radionuclide (chemical form), solubility and particle character
      • Document suspected route of contamination.
    • External exposure to ionizing radiation
      • document location and position of patient relative to source of radiation at time of exposure, as well as time and duration of exposure (including dosimeter information if applicable)
  • CBC q6-8h x 2-3 days
  • Amylase; baseline and at 24h post exposure

Management

  • Can be localized or whole body, internal or external deposition and contamination
  • Mostly not emergency, just treatment symptoms and supportive care
  • Consider contacting health physicist and/or radiation safety officer for help

Localized Exposure

  • Treat wounds symptomatically
    • Close wounds within 35-48 hours
  • By direct handling. patient survives even though dose high since exposure drops rapidly with distance
  • Treat burns with pain control, prophylactic antibiotics, vasodilator treatment, surgery, skin graft,
    • Extent of penetration important factor in outcome

Whole Body Exposure

Those persons who receive a significant exposure from radiation may experience acute radiation syndrome (ARS), a systemic illness caused by exposure to a level of ionizing radiation sufficient to cause damage to the hematopoietic, gastrointestinal, cardiovascular or central nervous system

Dose SubSyndrome Potential Signs and Symptoms
N/A Subclinical
1 GY (100 rad) Hematopoietic Lymphocytopenia – 24-48 hours

(worsens with increasing dose) Thrombocytopenia, Anemia - weeks

6 Gy (600 rad) Gastrointestinal Nausea/vomiting, diarrhea with resulting hypovolemia and electrolyte shifts,
10 Gy (1000 rad) Neurovascular Nausea, headache, lethargy, ataxia, confusion, seizures
  • Hematopoietic symptoms- dose 2gy or higher- lymphocyte reduction within 48 hrs is indicator for rad exposure. get leukopenia and thrombocytopenia- bleeding and infection- may enhance recovery by hematopoietic factors
  • Cutaneous symptoms- damaged skin may interact with other organ damage
  • Amifostine- prophylactic radiation drug- causes hypotension as side effect
  • Androstenediol- boosts immune system
  • Bone marrow transplant not helpful
  • Even if treatment and survive hematopoetic symptoms, still die from radiation pneumonitis, denuded GI tract, hepatic and renal dysfunction

Internal Contamination

  • May enter thru burns, wounds, inhale, ingest
  • Need to know type of radionuclide and chemical form
  • Need to treatment quickly to be effective
  • Reduce absorption, dilute, blockage, displacement by nonradioactive materials, mobilization, chelation
  • Potassium iodine for nuc weapon detonation or reactor breach- prevents radioiodine from accumulating in thyroid. take shortly after exp to be effective- if give too much get iodism
  • Dose- 130mg adults, 65mg 3- 18ys, 32mg 1mo- 3yr, 16mg for age< 1mo
  • Chelators- calcium, zinc, only for plutonium or americium

External Contamination

  • Clothes and exp skin- just clean up and prevent spread
  • Clean with soap and water
  • If extremis- stabilize first, then decontam
  • Do not abraid skin while cleaning

Contaminated Burns and Wounds

  1. Irrigate
  2. Excise only if long acting radionuclides
  3. If whole body dose >1gy, close wound asap to prevent portal of infc
  4. In burns, radioactivity comes off with eschar and exudate

Disaster Management

  • Preparation, crisis management, consequences
  • FBI is lead agency in terrorist incident
  • During consequence management, FEMA fed emerg management agency takes over
  • Intervention- action to reduce exposure and dose of radiation
  • If dose 1 rem- stay in doors up to 2 days- evacuate for 1 wk if dose of 5 rem or more
  • Temperature relocation if dose 3 rem in first month or 1 rem in subsequent month
  • Permanent resettlement if lifetime dose 100 rem
  • Potassium iodine only if thyroid dose 100mgy or more
  • EMS occupational dose of 5 rem per yr dose not apply- allowable dose goes up for lifesaving event
  • At dose of 0.1 gy/hr- ems may go in for short time but dose may be life threatening

See Also

References

  1. Waselenko JK, MacVittie TJ, Blakely WF, et al. Medical management of the acute radiation syndrome: recommendations of the Strategic National Stockpile Radiation Working Group. Ann Intern Med. 2004 Jun 15;140(12):1037-51.