II. Precautions
- Consider Lightning Injury in patients found outside after a storm, unconscious or amnestic
III. Pathophysiology
- Average lightning bolt
- Current: 10,000 to 200,000 amps (undirectional, DC-like current)
- Voltage: 5 to 30 Million up to 1 Billion Volts
- Duration: 10 to 100 ms
- Temperature: 30,000 Kelvin (53,000 F) which is 5 fold higher than the surface of the sun
- Most of the lightning energy "flashes over" the body instead of through the body
- Responsible for 85% survival rate from lightning strike
- Mechanisms
- Direct strike (<5% of lightning injuries)
- Main lightning strike passes through patient (typically entering at the head) into ground
- Most dangerous mechanism, but rare
- Results in Cardiac Arrest, severe neurologic and other internal injuries
- Minimal external superficial signs of injury (due to short duration)
- Contact exposure
- Patient in contact with an object (e.g. fence, indoor plumbing) in the path of lightning
- Side splash
- Lightning jumps from primary object (e.g. tree) into the nearby patient on its path to the ground
- Ground current (50% of lightning injuries, most common)
- Lightning after striking an object, diffuses along ground and may contact a patient standing nearby
- Current may flow from ground up one leg and down the other (if standing with legs apart)
- Upward streamer
- Upward current passing back up from the ground toward the clouds, passing through the patient
- Less current than a direct strike, but with risk of significant internal injuries
- Blunt Trauma
- Primary Trauma occurs from large forces generated when superheated to rapidly cooled (e.g. TM Rupture)
- Tertiary Trauma occurs when the patient is thrown by the current
- Direct strike (<5% of lightning injuries)
IV. Exam
- See Trauma Evaluation
- Head (potential lightning entry point)
- Skull Fracture
- Intracranial injury
- Cervical Spine
- Ears
- Tympanic Membrane Rupture (50% of lightning strike survivors)
- Sensorineural Hearing Loss
- Eyes (exam includes Visual Acuity and fundoscopic exam)
- Emergency ophthalmology consult for significant acute Eye Trauma or Decreased Visual Acuity
- Transient Mydriasis (common with lightning strikes, do not confuse with fixed-dilated pupils in brain injury)
- Corneal Abrasions
- Intraocular Hemorrhage
- Hyphemia
- Uveitis
- Retinal Detachment
- Orbital Fracture
- Macular Holes
- Cataracts (delayed 2-4 years from lightning strike)
- Cardiopulmonary
- Early Cardiopulomonary Resuscitation may sustain a patient through cardiac and respiratory center acute injury
- Cardiac Arrest (esp. Asystole)
- Most common cause of death
- However, sinus nodal automaticity may restart after 1-2 minutes if no significant cardiac injury
- Respiratory Arrest
- Persistent Tachycardia
- Persistent Hypertension
- Takotsubo Cardiomyopathy (delayed)
- Neurologic
- Loss of consciousness
- Seizures
- Confusion
- Behavior changes
- Anterograde Amnesia
- Headaches
- Weakness
- Paresthesias
- Chronic Pain
- Keraunoparalysis (autonomic reflex with vasospasm in up to 60% of victims)
- Transient paralysis and sensory changes (legs more than arms)
- Transient Cyanosis, pallor, immobile and pulseless legs secondary to vasospasm
- Evaluate first as Head Injury and Spinal Injury
- Typically resolves in 4-6 hours (although may cause Chronic Pain in some cases)
- Persistent neurologic deficits (Hypoxia or Hemorrhage related)
- Hypoxic encephalopathy
- Peripheral Neuropathy
- Intracranial Hemorrhage
- Cerebrovascular Accident
- Progressive Myelopathy and other Movement Disorders (delayed)
- Neuropsychiatric complications such as memory, concentration, behavior, PTSD (delayed)
- Skin
- Significant superficial Burn Injury is uncommon (short duration of lightning contact)
- Ferning or feathering (Lichtenberg figure)
- Occurs when Red Blood Cells are extruded through capillary beds
- Pathognomonic for Lightning Injury
- Transient injury, that resolves within 4 hours (but may persist for days)
- Linear burn
- Steam injury to wet or sweaty skin that occurred when lightning flashed over the surface
- Chest and axilla most often affected
- Punctate burn
- Grouped, small round burns form typically where lightning exits the body
- Thermal Burn
- Secondary to clothing that lights on fire, or metals (e.g. belts, rings, necklaces) that are superheated
- May result in full thickness burns when these metal items are heated to >1000 degrees
- Musculoskeletal
- Tertiary Trauma (e.g. patient thrown)
- Hypotension in a patient with intact cardiopulmonary function suggests Hypotension due to Traumatic Injury
- Compartment Syndrome is less common in lightning strikes than with Electrical Burns (brief exposure)
- Distinguish pallor, pulselessness in Keraunoparalysis (see above)
- Pregnancy
- Fetal Monitoring (fetal mortality as high as 50% in some studies)
V. Labs (typically normal in lightning strike injury)
- Complete Blood Count
- Basic Chemistry Panel
-
Creatine Kinase (CK)
- Rhabdomyolysis is less common with Lightning Injury than with Electrical Burns
- Cardiac enzymes (Troponin)
- Urinalysis
VI. Diagnostics
- Indications for high risk patients (Wilderness Medical Society)
- Direct Strike suspected
- Loss of consciousness
- Focal neurologic deficit
- Chest Pain
- Dyspnea
- Major Trauma
- Cranial burns
- Leg burns
- Burn Injury >10% of TBSA
- Pregnancy
- Testing
- References
VII. Imaging
- CT or MRI Imaging
- As directed by Trauma Evaluation
VIII. Management
- Electrical Burns (Thousands of volts) and lightning injuries (Millions of volts) are treated differently
- Prehospital providers must Exercise environmental precautions to prevent their own injuries
- Active thunderstorms may delay rescue
- Patient handling does NOT pose a risk to rescuers
- Current from lightning strike is NOT maintained with the patient's body
- Contact with the patient does not risk Electrocution
- Transport all patients struck by lightning to an appropriate medical facility
-
Resuscitation and Stabilization should follow ACLS and Trauma protocols
- ABC Management
- Check for pulse at Carotid Artery (extremity pulses may be difficult to obtain with Vasoconstriction)
- Review all prehospital rhythm strips and EKGs for initial Arrhythmia
- Maintain continuous cardiac monitoring in the emergency department
- Initiate early cardiopulomonary Resuscitation
- Cardiac and Respiratory centers may be transiently stunned and resume spontaneous activity
- See Trauma Evaluation
- Review history with prehospital providers (e.g. tertiary Trauma, loss of consciousness)
- Be alert to tertiary Trauma (Head Injury, Cervical Spine Injury)
- Remove all clothing with risk of continued Thermal Burns (e.g. belts, shoes)
- Intravenous Access and initiate crystalloid
- Most lightning-related fatalities occur within the first hour from Asystole or Hypoxia-induced Cardiac Arrest
- Be ready with airway management, respiratory support and Defibrillation
- When multiple patients are injured, respiratory arrest and Cardiac Arrest receive first priority
- Unlike Mass Casualty Incidents, immediate Resuscitation has a higher chance of survival
- Brief Asystole with spontaneous return of rhythm may be followed by respiratory arrest
- Most patients not in Cardiac Arrest (except cranial burns) will survive with supportive care
- Transient Mydriasis occurs in lightning strikes and should not be confused with fixed-dilated pupils
- ABC Management
- Disposition
- Consultation with Otolaryngology, Ophthalmology, Cardiology, Neurology as needed
- Hospital Admission Indications
- Resuscitated after Cardiopulmonary Arrest (ICU)
- Neurologic deficits or Altered Level of Consciousness
- Abnormal EKG or Echocardiogram (telemetry monitoring for at least 24 hours)
- Discharge Indications
- Asymptomatic with normal examination, labs and diagnostics
- Follow-up regional burn center (risk of memory problems, Chronic Pain)
IX. Prevention
- During thunderstorms, when thunder is heard, seek shelter
- Precaution: Estimating time between thunder and lightning is not sufficient to ensure safety
- Safest enclosures
- Enclosed building (avoid touching electrical appliances or plumbing fixtures)
- All metal motor vehicle (without a convertible top)
- Avoid three sided shelters (e.g. bus shelters) as these are inadequate for complete protection
- Outdoors without access to safe enclosures
- Relocate to dense forest, cave or ravine
- Descend from summits and ridges
- Avoid single trees and open spaces
- Move away from water
- Swimmers should exit water and move away from shore
- Boaters should go below deck
- Assume lightning position if stranded in open areas
- Crouch with knees and feet together
- Place hands over each ear
- If available, crouch on top of backpack or sleep pad (may provide insulation from ground)
- Groups should separate
- Keep 20 feet between each person
- Prevents splash injury from person to person (or ground current affecting entire group)
- Store away metal objects (e.g. poles)
- Risk of Thermal Burns from contact
- Keep helmets on if available
- Prevents tertiary Trauma
X. Complications
- See Exam above
XI. Resources
- Patient Support (LS & ESSI)
XII. References
- Swadron and Paquette in Herbert (2019) EM:Rap 19(11): 14-5
- Walrath, Wood, Della-Giustina (2019) Crit Dec Emerg Med 33(6): 3-11
- Ritenhour (2008) Burns 34(5):585-94 [PubMed]