Casuïstiek: Aanpak elektriciteitsletsels

Auteur Topic: Casuïstiek: Aanpak elektriciteitsletsels  (gelezen 2858 keer)

0 gebruikers (en 1 gast bekijken dit topic.

RAdeR

  • Hoofd Rode Kruis Noodhulpteam, BLS instructeur
  • Senior gebruiker
  • ****
  • Berichten: 14,616
Gepost op: 11 januari 2014, 21:43:55
Abstract:
Thunderstorms and lightning are uncommon in the Arabian Gulf. Lightning is a giant spark of
electricity in the atmosphere or between atmosphere and ground. Most frequently fatalities after
the lightning injury are due to direct lightning strike and cardiorespiratory arrest. It is essential
that acute care physicians as well as paramedical personnel are aware of lightning injury and its
management. This is a case of a field worker who was struck by lightning while working, which
led to a cardiorespiratory arrest.
A young male was brought to the emergency room with a history of having been struck by
lightning while he was at work in the desert on a roadside project in a thunderstorm. The
lightning injury was witnessed by his colleagues and they started immediate basic life support
when they found him unconscious without a pulse. He was intubated, ventilated and started on
vasopressors in the nearest primary health centre. He was then transferred to an intensive care
unit. He was weaned off vasopressors and ventilation by day four and was extubated then
transferred to the ward and subsequently discharged home.
Awareness of the danger posed by lightning injury is essential. Early life support is important for
better outcome of lightning induced cardiorespiratory arrest.
Keywords: lightning injury; cardiorespiratory arrest basic and advanced cardiac life support

Introduction
Lightning injuries are the third most common cause of weather-related casualties in the United
States1 but rare in the Middle East. These injuries occur as a result of direct strike, contact injury,
side splash, ground current, or an upward streamer. It is commonly associated with a mild to
severe burn and cardiorespiratory arrest is the frequent cause of death. Twenty per cent of
lightning strike patients die at the scene.2 The majority of deaths are due to cardiac arrest.3 To
improve the outcome, it is essential to provide immediate basic or advanced life support to these
patients at the scene. This is a case of lightning injury which resulted in cardiorespiratory arrest
at the scene and immediate life support lead to a positive outcome.

Case report
A 24 year old male patient was brought to the emergency department with a history of having
been struck by lightning while he was working on a road project in the desert during a
thunderstorm. One of his co-workers witnessed the lightning strike and found him unconscious
without any pulse or breathing. He immediately started basic life support and then transported
the patient to the nearest primary health center within five minutes away. In the primary health
centre, he was unconscious, hypotensive with palpable pulse. He was intubated and started on
dopamine 7 mcg/kg/minute and transferred to the tertiary care hospital.
On arrival at the hospital, his heart rate (HR) was 122 beats/minute with no arrhythmia, oxygen
saturation was 99 per cent on the ventilator with fraction inspired oxygen (Fio2) of 0.4, and
blood pressure was 113/56 mm Hg. He was localizing to pain with pupils equal and reacting to
light. He had 25 per cent superficial to deep burns, on his shoulders, arm and upper chest. His
electrocardiogram (ECG) was normal but he had a rupture of the right tympanic membrane. He
was then transferred to the surgical intensive care unit (SICU).
In SICU he was connected to a ventilator, started on daily required intravenous fluid, anti-ulcer
prophylaxis and flamazine ointment and given local dressing for his burn. His ECG was normal,
but his cardiac biomarkers and lactate levels were elevated (Figure 1). He remained
hemodynamically stable with the same dose of dopamine. On day two after a sedation vacation,
he was able to obey simple commands and capable of moving all his limbs. He was weaned off
dopamine by day three and weaned from the ventilator and extubated by day four. He was on
tramadol and paracetamol for analgesia and a high caloric/high protein diet. He was transferred
to the burns unit on day seven and discharged home on day ten. After a year, burns on his
sternum were keloid and he underwent excision under anesthesia.

Discussion
Thunderstorm and lightning injuries are rare events in the Arabian desert. Cardiorespiratory
arrest is the immediate cause of death in lightning injury patients. Awareness of lightning
injuries and the early need for basic or advanced life support will improve morbidity and
mortality of these patients. There is insufficient evidence on lightning injury and
cardiorespiratory arrest.
Lightning injuries as well as fatalities are reduced in United States of America (USA) but remain
a public health concern in the developing countries. In USA the lightning fatalities have dropped
to less than 0.3 per million population, but has remained high in Africa and South Asian
countries
Commonly ligthning strikes young males and they are 5.5 times more at risk of lightning injury.
In the USA, two thirds of lightning victims were enjoying water related leisure activities when
lightning struck whereas in Africa and South Asian countries, lightning fatalities are high among
the manual agriculture field workers
Risk of lightning injury is increased when individuals are unaware that open areas are unsafe
during a thunderstorm and a failure to understand that lightning poses a real danger. It is a
common belief that nothing attracts lightning but isolation, height and narrowness of objects are
risk factors for being struck by lightning. Two factors relevant to humans include cell phone
/iPod use which puts the user at risk of lightning injury as these electronic devices distract the
attention of the user during thunderstorms. Landline phone users are also at risk of lightning
injury as the hard wires to these devices act as a conduit for the lightning charge to enter and exit
from the structures. Manual labourers working in open fields or individuals playing golf during
a thunderstorm are also at risk of lightning injury.
Lightning injuries are classified into minor, moderate and severe. Loss of tympanic membrane
integrity and amnesia are minor injuries. Motor weakness, seizures and coma are considered
moderate injuries whereas severe lightning injuries can cause cardiorespiratory arrest and
hypoxic brain injury.
Lightning causes mild to moderate burns, as the contact period is brief. It can cause tympanic
membrane rupture due to barotrauma. Cardiorespiratory arrest can be primary due to the
lightning injury and usually these patients die. Secondary cardiorespiratory arrest, following
lighting injury can also occur due to paralysis of respiratory centers in the brain, causing hypoxia
and cardiac arrest. This can occur even if the heart regains spontaneous circulation but the patient
remains apneic. Lighting injuries rarely can cause severe stunned myocardium.
Lightning injury can be diagnosed by the history of being struck by lightning. Occasionally,
there can be a triad of arboreal burns, Lichtenberg figures; and a disheveled appearance of the
patient. Patients may be confused or amnestic. Severe lightning injury patients may present with
cardiorespiratory arrest. All patients with a history of a lightning injury should be evaluated for
tympanic membrane integrity. Ophthalmological examination should also discover visual acuity
and early cataract.
Severe lightning injury patients should be evaluated for any electrolyte abnormality, complete
blood count and cardiac biomarker levels. All these patients should have 12 lead ECG and
continuous ECG monitoring. Radiological evaluation depends on the severity of the injuries and
patient presentation. If the patient is hypotensive, presence of secondary injuries should be
evaluated.
Lightning injuries should be differentiated from high voltage electrical injuries. In high voltage
electrical injuries, commonly there will be entry and exist wounds, marked muscle injury,
rhabdomyolysis and renal impairment or failure; there will be no tympanic membrane injury.
In the management of lightning injuries airway control is necessary including, breathing
assistance, restoration of circulation, evaluation of disabilities and calculation of burn surface
area.
Cardiorespiratory resuscitation must be started as early as possible, preferably at the scene of the
lightning. As the risk of secondary cardiac arrest is high, resuscitation should be continued until
the airway is secured and ventilation is assisted.11 Prevention is the best means of safety against
lightning injuries. Optimal prevention is dictated by the proverb “when thunder roars, go
indoors!”
During a thunderstorm one should move away from towers/tall buildings, avoid shelter under a
tree, avoid open fields, hill or ridge tops. Additionally, one should avoid water, wet items, metal
objects and if camping in an open area, set up camp in a low area or in a valley. If indoors, stay
off corded phones, do not touch electric instruments, avoid plumbing, do not wash hands, take
shower or wash dishes and do not lie on concrete floors or lean against concrete walls.
Lightning may result in permanent disabilities due to cataract, neuropathies, deafness and
sympathetic instability. Reported mortality in lightning injury is 0-32 per cent. Prognoses is
poor if the patient has leg burns, cranial burns and or cardiopulmonary arrest.

Conclusion
Cardiorespiratory arrest is an immediate cause of death in lightning injury patients. Lightning
injuries are common in males and 25 per cent of these injuries occur while working outside
during a thunderstorm. The primary risk factor for a lightning injury is being unaware of the
danger of lightning injuries. Cardiorespiratory arrest in lightning injury patients could be
primarily due to a massive lightning injury or secondary due to paralysis of respiratory centers.
Earlier cardiopulmonary resuscitation is the key for a better outcome. Prevention of lightning
injuries can be dictated by the proverb “when thunder roars, go indoors!”.



klik hier voor het volledige artikel inclusief voetnoten en referenties.

Cite this article as:
Shaikh N, Ummunnisa F, Mahomed M, el-­‐Tamimi N.
Lightning injury in a desert,
Journal of Emergency Medicine, Trauma and Acute Care 2014:1
http://dx.doi.org/10.5339/jemtac.2014.1
Copyright:
2014 Shaikh, Ummunnisa, Mahomed, el-­‐Tamimi, licensee Bloomsbury Qatar Foundation Journals.
This is an open access article distributed under the terms of the Creative Commons Attribution
License  CC BY 3.0 which permits unrestricted use, distribution and reproduction in any medium, provided the original work is properly cited.



Het artikel onderschrijft het belang van Basic Life Support (slachtoffer had een hartstilstand op de werkplek na de blikseminslag, gereanimeerd door collega’s)
 
Het artikel onderschrijft het belang van snelle Advanced Life Support (ongevalslocatie was in woestijn, collega’s hebben slachtoffer over gebracht na het dichtsbijzijnde primary healthcare centrum) waar het slachtoffer nog steeds bewusteloos was maar wel weer een pols had. Men heeft het slachtoffer geintubeerd + beademing en dopamine gegeven.
 
Daarna is slachtoffer met de traumahelikopter overgebracht naar traumacentrum in Doha, alwaar de verdere behandeling plaats heeft gevonden op de chirurgische intensive care unit.
 
Zonder de directe basic life support en het snelle opstarten van ALS behandeling (intuberen + beademen en evt. gebruik maken van vasopressoren is cruciaal en dient zo snel mogelijk plaats te vinden) was het slachtoffer overleden cq. een overleving met ernstige gevolgen (hersenschade door het zuurstoftekort).
 
Voorts onderstreept men het verschil tussen het letsel door een blikseminslag en electrocutieletsel door bijv. hoogspanningsinstallaties.


Met dank aan 024