Der Anaesthesist
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Randomized Controlled Trial
[Removal of the laryngeal mask airway in the post-anesthesia care unit. A means of process optimization?].
Removal of the laryngeal mask airway in the post-anesthesia care unit could potentially contribute to a faster turnover from one operation to the next. The aim of this study was, therefore, to obtain an insight into the potential time saving and the safety of planned removal of the ProSeal™-LMA (PLMA) in the post-anesthesia care unit. ⋯ Planned PLMA removal in the recovery room after BIS-guided balanced anesthesia did not enable the anesthetist to be available earlier for induction of anesthesia in the following patient. Hence the anesthetist could not contribute to a faster turnover of cases. Obviously, with the type of close communication between surgeon and anesthetist dictated by the study protocol (announcement of expected end of surgery by the surgeon 20 min before end of surgery) it is possible for the patient to regain consciousness within a very small time window following the end of surgery. Following this kind of protocol, postponement of removal of the LMA in the recovery room does not seem to be attractive neither from a clinical nor an economic point of view. In contrast, removal of LMA in the recovery room should be restricted to occasional cases with an abrupt end of the operation or prolonged emergence from anesthesia. The obvious risk of hypoxemia necessitates continuous O(2) application and S(p)O(2) monitoring during transport to the recovery room.
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Patients with multiple trauma presenting with apnea or a gasping breathing pattern (respiratory rate <6/min) require prehospital endotracheal intubation (ETI) and ventilation. Additional indications are hypoxia (S(p)O(2)<90% despite oxygen insufflation and after exclusion of tension pneumothorax), severe traumatic brain injury [Glasgow Coma Scale (GCS)<9], trauma-associated hemodynamic instability [systolic blood pressure (SBP)<90 mmHg] and severe chest trauma with respiratory insufficiency (respiratory rate >29/min). The induction of anesthesia after preoxygenation is conducted as rapid sequence induction (analgesic, hypnotic drug, neuromuscular blocking agent). ⋯ Normoventilation should be the goal of mechanical ventilation. After arrival in the resuscitation room the ventilation will be controlled and guided with the help of arterial blood gas analyses. After temporary removal of a cervical collar, the cervical spine needs to be immobilized by means of manual in-line stabilization when securing the airway.
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High risk pulmonary embolism commonly presents with a variety of symptoms and is an acute life-threatening event. In patients showing unclear acute circulatory distress, pulmonary embolism should be quickly ruled out by computed tomography or echocardiography. The diagnostic steps and surgical treatment of pulmonary embolism in a 25-year-old female patient suffering from acute circulatory insufficiency resulting in cardiac arrest within 11 min after emergency hospital admission are reported. ⋯ The patient was successfully extubated the following day and despite the long resuscitation time the outcome was excellent without any neurological deficit. Recent publications addressing the advantages of primary embolectomy versus intravenous thrombolysis in acute circulatory distress caused by pulmonary embolism are discussed. Primary surgical treatment including cardiopulmonary bypass for right ventricular relief and re-establishing of systemic perfusion is recommended for patients with pulmonary embolism undergoing cardiopulmonary resuscitation.
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Intensive care medicine plays an important role in the medical care of patients as well as the economic success of hospitals. Knowledge and implementation of recent relevant scientific evidence are prerequisites for high quality care in intensive care medicine. ⋯ In 2010 and up to June 2011 many studies with high patient numbers have been published. The main topics were the treatment of respiratory failure, sepsis and investigations to improve analgosedation.