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* <b>Anaphylaxis:</b> 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 can be a broad range of triggers (food, insects, drugs etc.). Anaphylaxis rapidly develops after exposure to the trigger, usually within minutes. Patients should receive intramuscular adrenaline before an intravenous route is established and anti-inflammatory drugs (steroids, anti-histamines) should be initiated. Oxygen en fluids should be administered as swelling of the airway can result impair breathing and due to fluid loss is out of the circulation hypovolaemia can develop. | * <b>Anaphylaxis:</b> 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 can be a broad range of triggers (food, insects, drugs etc.). Anaphylaxis rapidly develops after exposure to the trigger, usually within minutes. Patients should receive intramuscular adrenaline before an intravenous route is established and anti-inflammatory drugs (steroids, anti-histamines) should be initiated. Oxygen en fluids should be administered as swelling of the airway can result impair breathing and due to fluid loss is out of the circulation hypovolaemia can develop. | ||
* <b>Asthma:</b> Patients with asthma who experience a cardiac arrest usually have a long period of hypoxaemia, however cardiac arrest is not necessarily related to asthma severity. Patients with acute severe asthma require oxygen, aggressive medical therapy and should be admitted to the critical care area. The main troubles encountered in the resuscitation of patients 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 during the ALS setting. Due to the hyperinflation of the lungs more energy might be required in defibrillating these patients, as the heart is isolated by air. | * <b>Asthma:</b> Patients with asthma who experience a cardiac arrest usually have a long period of hypoxaemia, however cardiac arrest is not necessarily related to asthma severity. Patients with acute severe asthma require oxygen, aggressive medical therapy and should be admitted to the critical care area. The main troubles encountered in the resuscitation of patients 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 during the ALS setting. Due to the hyperinflation of the lungs more energy might be required in defibrillating these patients, as the heart is isolated by air. | ||
* <b>Cardiac arrest after cardiac surgery: </b>Cardiac arrest after cardiac surgery is usually caused by specific causes | * <b>Cardiac arrest after cardiac surgery: </b>Cardiac arrest after cardiac surgery is usually caused by specific causes related as a consequence of the cardiac surgery, such as tamponade, hypovolaemia, myocardial ischaemia, tension pneumothorax, or pacing failure. Early resternotomy can be the key to survival, especially after repeated defibrillation has failed or if asystole is observed. When the sternum is opened internal cardioversion (output of 5-20J) and cardiac compression can be applied across the ventricles. | ||
* <b>Drowning: </b>Drowning is a common cause of accidental death. There are no differences between victims of salt water and fresh water drowning. Correction of hypoxia is critical in the outcome of these victims as cardiac arrest is a consequence of the hypoxia. Care should be taken to start immediate resuscitation and restore oxygenation, ventilation and perfusion. During BLS it is recommended to start the BLS with 5 rescue breaths. Rescue breathing is difficult after drowning due tot the presence of fluid in the airway and the high inflation pressure required after drowning. Furthermore regurgitation is common and removal of the regurgitated material during resuscitation is required. It is common for hypothermia to be present in victims of drowning, complicating the resuscitation attempt. After return of spontaneous circulation, pneumonia is common and patients are prone to develop acute respiratory distress syndrome (ARDS). | * <b>Drowning: </b>Drowning is a common cause of accidental death. There are no differences between victims of salt water and fresh water drowning. Correction of hypoxia is critical in the outcome of these victims as cardiac arrest is a consequence of the hypoxia. Care should be taken to start immediate resuscitation and restore oxygenation, ventilation and perfusion. During BLS it is recommended to start the BLS with 5 rescue breaths. Rescue breathing is difficult after drowning due tot the presence of fluid in the airway and the high inflation pressure required after drowning. Furthermore regurgitation is common and removal of the regurgitated material during resuscitation is required. It is common for hypothermia to be present in victims of drowning, complicating the resuscitation attempt. After return of spontaneous circulation, pneumonia is common and patients are prone to develop acute respiratory distress syndrome (ARDS). | ||
* <b>Electrocution:</b> Electrocution can result in multi-system injury and usually occur in the workspace in adult or at home in children. The direct effects of an electric shock on tissues, for instance paralysis of the respiratory system or muscles, VF in the myocardium, ischemia due to coronary artery spasm or asystole can result in a cardiac arrest. Electrical burns can complicate the resuscitation and care should be taken to avoid further complications resulting from these burns. Adequate fluid therapy is required if there is significant tissue destruction. | * <b>Electrocution:</b> Electrocution can result in multi-system injury and usually occur in the workspace in adult or at home in children. The direct effects of an electric shock on tissues, for instance paralysis of the respiratory system or muscles, VF in the myocardium, ischemia due to coronary artery spasm or asystole can result in a cardiac arrest. Electrical burns can complicate the resuscitation and care should be taken to avoid further complications resulting from these burns. Adequate fluid therapy is required if there is significant tissue destruction. |
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