Articles: anesthetics.
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Five healthy, nonpregnant volunteers were studied before and after induction of lumbar epidural anesthesia to determine the cause of central hypothermia during epidural anesthesia. Cutaneous heat loss was measured from 10 area-weighted sites using thermal flux transducers. Oxygen consumption was measured and converted to heat production in watts (W). ⋯ Analysis of the tremor patterns suggests that oscillations recorded during epidural anesthesia in nonpregnant individuals is normal thermoregulatory shivering. Shivering occurred sooner and was more intense during iced saline infusion than during epidural anesthesia, despite comparable central hypothermia. The low intensity of shivering during epidural anesthesia, and in some individuals the delay in onset, may result from blockade of afferent cutaneous cold signals.
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Clinical Trial Controlled Clinical Trial
Haemodynamic interactions of muscle relaxants and sufentanil in coronary artery surgery.
The haemodynamic interactions between sufentanil (S) and muscle relaxants (MR) were studied in 40 ASA physical status III or IV patients (four groups of ten) scheduled for coronary artery bypass grafting (ABG). Group I received pancuronium (P) 0.08 mg.kg-1, Group II received vecuronium (V) 0.1 mg.kg-1, Group III received atracurium (A) 0.5 mg.kg-1 and Group IV metocurine 0.1 mg.kg-1 plus pancuronium 0.02 mg.kg-1 (M-P). Sufentanil, 20 micrograms.kg-1 was administered before sternotomy, 10 micrograms.kg-1 being injected before tracheal intubation and 10 micrograms.kg-1 afterwards. ⋯ The CO did not change from baseline values but SVR decreased in all groups. There was no evidence of new myocardial ischaemia according to the ECG monitoring and there was no significant difference in the HR changes between patients who had or who had not received beta-blockers in any group. We conclude that within the present study conditions and design, HR and blood pressure changed least with pancuronium.
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Anesthesia and analgesia · Apr 1991
Computerized continuous infusion of intravenous anesthetic drugs during pediatric cardiac surgery.
We evaluated the efficacy of a computer-assisted continuous infusion device (CACI) using a two-drug infusion of midazolam and sufentanil as an anesthetic technique during pediatric cardiac surgery. Seventeen pediatric patients were anesthetized with CACI using age-appropriate pharmacokinetic models for administering sufentanil and midazolam. Predicted CACI plasma concentrations were correlated with assayed plasma drug concentrations at eight predefined intervals. ⋯ We found that plasma levels predicted by CACI provided a reasonable approximation of measured plasma concentrations for both drugs. The median absolute prediction error for sufentanil during cardiopulmonary bypass was compared with measurements made off of cardiopulmonary bypass (both pre and post cardiopulmonary bypass) and were 49% and 32%, respectively, and for midazolam 44% and 32%, respectively. We conclude that (a) current kinetic models provide a reasonable estimate of plasma drug concentrations, and (b) the ease of administration and targeted plasma level provided by the CACI system is an alternative to inhalation anesthesia using calibrated vaporizers.
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Ugeskrift for laeger · Mar 1991
[Serum concentration of lidocaine and its active metabolite monoethylglycinexylidine during fiberoptic bronchoscopy under local anesthesia].
Fiberoptic bronchoscopy was performed in local anaesthesia with lidocaine in 16 patients. Serum concentrations of lidocaine and its active metabolite monoethylglycinexylidide (MEGX) were measured at regular intervals up to 120 min. after administration. Lidocaine was administered as aerosol in the upper respiratory tract and as solution in the bronchial tree. ⋯ The highest median S-MEGX concentration, 1.7 mumol/l, was measured 120 min. after administration. The highest individual S-MEGX was 3.5 mumol/l. The highest, although insignificant, correlation coefficients were found between lidocaine dose expressed in mg/kg body weight and S-lidocaine and S-MEGX.
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Sufentanil, a synthetic opioid that is 5-10 times as potent as fentanyl, has been suggested for use during neurosurgical procedures because it maintains cardiovascular stability and produces hypnosis without the use of additional anesthetic agents. Doses as low as 2.5 micrograms.kg-1 are reported to create deep levels of anesthesia as demonstrated by EEG changes to high-amplitude delta-waves. However, there are no reports concerning the effects of sufentanil on blood flow and metabolism in the human brain. ⋯ The increase in metabolic activity with sufentanil during hypocapnia might be caused by an alkalosis-induced stimulation of glycolysis. It might also be related to a reduction in the depth of anesthesia, although neither the EEG nor the hemodynamic parameters indicated this. This study shows that the coupling between CBF and metabolism is well maintained and that the cerebrovascular response to CO2 is unimpaired during high-dose sufentanil anesthesia.