Cardiac Arrest

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Survival of cardiac arrest continues to be very poor. Survival is dependent on the characteristics of the cardiac arrest, on the patient’s medical history, and the time between the cardiac arrest en start of resuscitation. The introduction of the automated external defibrillator (AED) has dramatically increased survival of out-of-hospital cardiac arrest victims.

Basic Life Support

To increase survival after cardiac arrest it is vital to decrease the time to resuscitation. The training of persons in basic life support can increase bystander participation in performing cardiopulmonary resuscitation. A straightforward protocol has been created to execute basic life support. The following steps can be followed to perform basic life support.

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If at any stage the patient is consciousness, has normal ventilation or recovers consciousness find out what is wrong with the person and get help if needed. Repeated reassessment is necessary to detected deterioration of his condition.

Automatic external defibrillator (AED)

The automatic external defibrillator is a complex device that analysis rhythm of patients and can deliver a shock to defibrillate patients. It detect whether a patient has ventricular fibrillation or an other arrhythmia. When in detects a shockable rhythm it advises the user to deliver the shock, all settings are automatically adjusted. It also remembers the events so that the tracing can be recovered and analysed after the resuscitation.

When the AED is attached during BLS let the AED assess the rhythm. Do not manipulate the person while the AED assess the rhythm to prevent motion artefact disturbing the detection algorhythm. Follow the instructions of the AED, this can be either a shock of no shock. After shock or non-shock immediately continue with chest compressions and rescue breaths. Continue with cardiopulmonary resuscitation until the AED rechecks the rhythm.

Advanced Life Support

Basic life support the cornerstone to the treatment of cardiac arrest. Early and high quality cardiopulmonary resuscitation is critical to survival. In the hospital setting trained expert en technical equipment can facilitate cardiac arrest management. The only intervention besides proper BLS and early defibrillation to increase survival is the administration of adrenaline. The advanced life support protocol deviates into two strategies encountered in the setting of cardiac arrest; a shock protocol and no-shock protocol.

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Special circumstances

In all circumstances the normal protocol for BLS and ALS is the cornerstone in the treatment of cardiac arrest. However some conditions encountered during resuscitation or as a cause of cardiac arrest, can affect the procedure.

  • Anaphylaxis:Anaphylaxis is a life-threatening hypersensitivity reaction and can be accompanied by airway/breathing/circulation problems due to swelling of the mucosa. The cause of the anaphylaxis should be identified and patients should receive adrenaline intramuscular before an intravenous route is established and anti-inflammatory drugs (steroids, anti-histamines) should be initiated.
  • Asthma: Main troubles encountered in resuscitation of patient with asthma relates to the underlying lung disease. In general increased lung resistance makes ventilation of these patients difficult and can increase the risk of gastric inflation. Early intubation is indicated in these patients. Due to the hyperinflation of the lungs more energy might be required in defibrillating these patients, as the heart is isolated by air.
  • Cardiac arrest after cardiac surgery: Cardiac arrest after cardiac surgery is usually caused by specific causes possibly related as a consequence of the cardiac surgery. Early resternotomy can be the key to survival, especially after repeated defibrillation has failed or of asystole is observed.
  • Drowning: Drowning is a common cause of accidental death. Correction of hypoxia is critical in the outcome of these victims. Care should be taken to start immediate resuscitation and restore oxygenation, ventilation and perfusion.
  • Electrocution: Electrocution can result in multi-system injury and usually occur in the workspace in adult or at home in children. The direct effects of electric shock on tissue, for instance paralysis of respiratory system or muscles, VF in the myocardium, ischemia due to coronary artery spasm or asystole can result in a cardiac arrest setting. Electrical burns can complicate the resuscitation setting and care should be taken to avoid further complication resulting from these burns, adequate fluid therapy is required if there is significant tissue destruction.
  • Electrolyte disorder: Electrolyte abnormalities are common in potassium disorders. During cardiac arrest treatment of these abnormalities is no different than in the normal clinical setting.
  • Hyperthermia: Exogenous or endogenous hyperthermia can result in heat stress, progressing to heat exhaustion and results in heat stroke. Heat stroke can lead to varying levels of organ dysfunction accompanied by mental changes. Rapid cooling of the victim should occur as soon as possible.
  • Hypothermia: In hypothermia (<35oC) it is difficult to detect signs of life. Therefore resuscitation should proceed according to standard protocols. Resuscitation during hypothermia is difficult, the thorax is stiff and the heart is less responsive to medication. Furthermore drug metabolism is slowed, resulting in increased plasma levels of medication. Medication should be administered at double intervals. As a result of rewarming vasodilatation occurs and fluid administration may be required. Rhythm disturbances usually seen after hypothermia are bradycardia, atrial fibrillation followed by VF and asystole. Second to resuscitation warming of the body temperature by external and internal methods should be started.
  • Poisoning: Accidental poisoning in children or by therapeutic or recreational drugs in adults are the main causes of poisoning. Respiratory arrest is more common after poisoning. Early intubation can prevent pulmonary aspiration. Care should be taken when performing mount-to-mouth ventilation in de presence of certain chemical poisoning.
  • Pregnancy: If a cardiac arrest occurs during pregnancy the safety of the fetus should always be considered. Due to the growth of the uterus compression of the inferior vena cava and aorta can occur and as a result venous return and cardiac output is compromised. Furthermore the increased abdominal pressure can increase the risk of pulmonary aspiration and can hamper proper ventilation; therefore early intubation can lower risks and ease cardiopulmonary resuscitation. An emergency hysterotomy or caesarean section needs to be considered, if gestational age is after 20 weeks. After 20 weeks the size of the uterus is large enough to compromise cardiac output.
  • Traumatic Cardiorespiratory Arrest: Blunt trauma can cause commotio cordis if there is an impact to the chest wall over the heart. This impact can cause arrhythmias and is sometimes seen in during sports. Penetrating trauma can be cause for and emergency thoracotomy. It is important to treat the resuscitation according to protocol and treat reversible causes.

References

  1. ESC Textbook of Cardiovascular Medicine, 2nd Edition
  2. J.P. Nolan et al. / Resuscitation 81 (2010) 1219–1276