Anesthesia and analgesia
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Anesthesia and analgesia · Aug 1999
Effects of one minimum alveolar anesthetic concentration sevoflurane on cerebral metabolism, blood flow, and CO2 reactivity in cardiac patients.
We investigated the cerebral hemodynamic effects of 1 minimum alveolar anesthetic concentration (MAC) sevoflurane anesthesia in nine male patients scheduled for elective coronary bypass grafting. For measurement of cerebral blood flow (CBF), a modified Kety-Schmidt saturation technique was used with argon as an inert tracer gas. Measurements of CBF were performed before the induction of anesthesia and 30 min after induction under normocapnic, hypocapnic, and hypercapnic conditions. Compared with the awake state under normocapnic conditions, sevoflurane reduced the mean cerebral metabolic rate of oxygen by 47% and the mean cerebral metabolic rate of glucose by 39%. Concomitantly, CBF was reduced by 38%, although mean arterial pressure was kept constant. Significant changes in jugular venous oxygen saturation were absent. Hypocapnia and hypercapnia caused a 51% decrease and a 58% increase in CBF, respectively. These changes in CBF caused by variation of Paco2 indicate that cerebrovascular CO2 reactivity persists during 1 MAC sevoflurane anesthesia. ⋯ We used a modified Kety-Schmidt saturation technique to investigate the effects of 1 minimum alveolar anesthetic concentration (MAC) sevoflurane on cerebral blood flow, metabolism, and CO2 reactivity in cardiac patients. We found that the global cerebral blood flow and global cerebral metabolic rate of oxygen remained coupled and that cerebrovascular CO2 reactivity is not impaired by the administration of 1 MAC sevoflurane.
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Anesthesia and analgesia · Aug 1999
Assessing the relative quality of anesthesiology and critical care medicine Internet mailing lists.
We studied the relative quality of a subset of anesthesiology and critical care medicine Internet mailing lists regarding the publishing capacity of their members to compare them with the major journals and conferences regarding these specialties. Using systematic searches on MEDLINE and according to the Science Citation Index 1995, we investigated the impact factor of mailing list subscribers, of the first authors of the selected articles, and of the first authors of published abstracts from conferences. We studied six mailing lists, seven journals, and four conferences. Journals and conferences showed a higher percentage of published authors and higher average impact factor among their first authors than the mailing lists did per subscriber. However, when only the subset of publishing authors from the three media was considered, no significant differences were found. We conclude that qualified authors may be found among the subscribers of Internet medical mailing lists on anesthesiology and critical care medicine. These professional discussion groups could complement peer-reviewed publications and conferences in professional information exchange and continuing medical education. ⋯ Internet publishing is not governed by rules that assure certain basic quality standards. Methods for assessing these standards are needed. We compared discussion groups with medical journals and conferences on anesthesiology and critical care medicine by calculating the impact factor of their members and first authors, respectively. Our study shows that qualified authors may be found in all three media.
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Anesthesia and analgesia · Aug 1999
Ventilatory response to CO2 in children with obstructive sleep apnea from adenotonsillar hypertrophy.
We measured the ventilatory response to CO2 as an indicator of respiratory control dysfunction in children with obstructive sleep apnea (OSA) scheduled for adenotonsillectomy. Measurements were performed in unpremedicated children via an endotracheal tube under 0.4%-0.5% end-tidal halothane anesthesia. Mean ventilatory CO2 response slopes for 11 children with OSA requiring adenotonsillectomy (Group I) were compared with those for 14 children without OSA requiring adenotonsillectomy (Group II) and 15 children without OSA requiring nonairway surgery (Group III). The mean ventilatory slope corrected for body surface area for Groups I, II, and III were 539 +/- 338, 828 +/- 234, and 850 +/- 380 mL.min-1.mm Hg ETCO2(-1).m-2, respectively (P < 0.05, Group I versus Groups II and III). Historical data--including snoring, apneic episodes > 10 s, daytime hypersomnolence, and nocturnal enuresis--defined those with OSA. Obesity occurred more frequently in patients with OSA and with depressed ventilatory responses (P < 0.001). Children with OSA from adenotonsillar hypertrophy have a diminished ventilatory response to CO2 stimulation, compared with those without OSA symptoms. The depressed response may account, in part, for the reported increased risk of perioperative respiratory complications in this population. ⋯ Children with obstructive sleep apnea undergoing adenotonsillar surgery are at risk of postoperative respiratory compromise. We found that patients with a clinical history suggesting obstructive sleep apnea have a diminished ventilatory response to CO2 rebreathing, compared with controls.
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Anesthesia and analgesia · Aug 1999
The combined effects of sevoflurane and remifentanil on central respiratory activity and nociceptive cardiovascular responses in anesthetized rabbits.
We studied the effects of sevoflurane and remifentanil, alone and in combination, on phrenic nerve activity (PNA), resting heart rate (HR), arterial pressure (MAP), and changes in HR (delta HR) and MAP (delta MAP) evoked by electrical stimulation of tibial nerves in anesthetized rabbits. The 50% effective dose (95% confidence intervals) for the depressant effects of sevoflurane on delta HR, delta MAP, and PNA were 2.3 (1.8%-2.6%), 2.7 (2.3%-2.9%), and 3.4 (3.1%-3.7%), respectively, and for remifentanil were 0.100 (0.050-0.132), 0.850 (0.720-1.450), and 0.090 (0.080-0.145) microgram.kg-1.min-1, which were reduced to 0.046 (0.021-0.065), 0.110 (0.080-0.200), and 0.030 (0.020-0.040) microgram.kg-1.min-1, respectively, by 1% sevoflurane. Depression of evoked cardiovascular responses relative to PNA was greater for sevoflurane and less for remifentanil both alone and in combination with sevoflurane. Sevoflurane acted synergistically with remifentanil on PNA and delta MAP, but not delta HR, for which their combined effect was additive. Coadministration of 1% sevoflurane with the highest infusion rate of remifentanil (1.6 micrograms.kg-1.min-1) used during combined administration reduced resting HR and MAP by 25% (P < 0.05) and 41% (P < 0.05), respectively, which was greater than the predicted reductions of only 14% and 15% if their combined effects had been additive. We conclude that sevoflurane caused a relatively greater depression of nociceptive cardioaccelerator and pressor responses compared with PNA and vice versa for remifentanil. When coadministered, their combined effects on PNA, resting HR, MAP, and delta MAP were synergistic, whereas they were merely additive for delta HR. ⋯ Although sevoflurane caused relatively greater depression of nociceptive cardiovascular responses compared with phrenic nerve activity, remifentanil either alone or combined with sevoflurane caused a much greater depression of phrenic nerve activity than cardio-accelerator and pressor responses. This could imply that, during major surgery using anesthesia combining sevoflurane and remifentanil, spontaneous ventilation is not acceptable, and depression of the resting circulation may be much greater than anticipated.