Der Anaesthesist
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Various animals models and several different methods are used in cardiopulmonary resuscitation (CPR) research. The animals used most frequently are dogs and pigs, but in each species thorax configurations, which might be an important factor in the mechanism of blood flow during CPR, are at great variance. The influence of anesthetics on cardiopulmonary and cerebral functions during and following resuscitation are largely unknown, and accordingly there is great variance in the techniques employed by individual researchers. ⋯ Thorax compressions are characterized by frequency, direction (sagittal, transversal), technique (mechanical, manual), relationship of time between compression and relaxation (50:50, 40:60), and depth of compression (power used, esophageal pressure, arterial blood pressure). Effects of CPR techniques are demonstrated during CPR by cardiovascular parameters. In addition to recording of blood pressure and blood flow, examination of regional perfusion rates using radioactive microsphere techniques is common. 24-h surveillance and extensive neurological tests are carried out during recovery following CPR.
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Randomized Controlled Trial Clinical Trial
[Dose-dependence of the analgesic action of metamizol].
Whereas dipyrone is used in many countries in clinical practice at doses up to 2.5 g, the dose-response relationship of the analgesic effect has not been investigated in humans. In the present study, doses of 0.5, 1.0, 1.5, 2.0, and 2.5 g dipyrone (Novalgin) were applied orally as film-coated tablets to 18 volunteers in a randomized, placebo-controlled, double-blind design. Pain attenuation was quantified following constant and painful electrical stimulation of tooth pulp at different time intervals up to 7 h after drug administration. ⋯ Maximal analgesia was observed 1 h after administration of the tablets, independent of the dose. An increase in analgesic effect related to dose was observed at this time, the increase being less pronounced with doses exceeding 1.5 g. Generally, analgesia persisted longer with increasing dose.(ABSTRACT TRUNCATED AT 250 WORDS)
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Randomized Controlled Trial Clinical Trial
[Suppression of blood pressure increases during intubation: lidocaine or fentanyl?].
The hypertensive response to anesthetic induction with endotracheal intubation may be harmful in patients with cardiovascular disease, increased intracranial pressure, or anomalies of the cerebral vessels. Recommendations for attenuating the reflex hypertension and tachycardia elicited by upper airway irritation are therefore manifold. Besides minimizing the cardiovascular response, anesthesia induction for patients at risk must also satisfy the following requirements: it must be applicable regardless of patient collaboration, prevent impairment of cerebral blood flow, and avoid arousal of the patient; it should neither be time-consuming nor affect the duration or modality of the ensuing anesthesia. ⋯ The two equally simple induction procedures were compared to anesthesia induction with thiopental alone. In both patient groups no significant effect of lidocaine on the pressure response could be observed. Fentanyl lowered the pressure response slightly though significantly in brain-tumor patients only (p less than 0.05), but showed a significant pressure-lowering action persisting over the whole observation period in all patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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The central cholinergic syndrome developed in a 5 1/2-year-old child after premedication with midazolam and a short volatile anesthetic. Diagnosis was made more difficult because of a history of nephrotic syndrome, convulsions, relative acetylcholinesterase deficiency and chronic medication with a corticosteroid. Successful management of such cases depends on a through differential diagnosis before the institution of physostigmine therapy. Intensive postoperative monitoring is strongly recommended.
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Cardiovascular arrest may be followed by severe respiratory insufficiency due to an increase in the pressure in the pulmonary vascular system, an alteration in capillary permeability, or both. Extracorporeal circulation (ECC), on the other hand, can lead to a change in capillary integrity ('capillary leakage') caused by the unphysiologic perfusion patterns and/or activation of various mediator systems. Pulmonary hyperhydration (increased extravascular lung water [EVLW]) seems to be the most important factor limiting pulmonary function in this situation. ⋯ After ECC a transient increase in EVLW could be demonstrated in the controls, indicating an altered fluid flux even in 'uncomplicated' courses; 5 h after ECC lung water content had again reached baseline values. In contrast, there was a significant increase in EVLW in the 'complicated group' immediately after ECC (+2.60 ml/kg) and 5 h after ECC (+1.38 ml/kg); in consequence, the paO2 was significantly decreased (-180 mmHg) while Qs/Qt was increased (+6.79%). It is concluded that the combination of two factors that potentially damage pulmonary tissue and increase lung water content (reanimation due to circulatory arrest and extracorporeal circulation) lead to a significant increase in extravascular lung water combined with a deterioration of pulmonary function, resulting in severe respiratory failure.