Neuropsychological changes in a young, healthy population after controlled hypotensive anesthesia Anesth Analg 1986;65:955-9. We investigated the effect of controlled hypotension during halothane anesthesia on brain functions as measured by neuropsychological tests. Anesthesia in 17 patients included controlled hypotension, whereas in another 27 patients hy-no significant changes in EEG power during the induction of hypotension. Hypotensive anesthesia was not associated with greater postoperative impairment than normoterzsive anesthesia. Both groups did show short-term postoperative impairment of memory and learning. For at least the first 24 hrs after administration of a general anesthetic agent such as halothane, there is interference with consolidation of memory. This impairment was not apparent in follozuup examinations 6 months later. potension wus not induced during surgery for correction of facial abnormalities. lntraoperative EEG recording showed
Stimulation-induced transport of K+ in the submandibular salivary gland of cats and dogs anesthetized with pentobarbital was studied with an extracellular K+-specific microelectrode. Electrical stimulation of the para-sympathetic chorda-lingual nerve caused a rapid transient increase in extracellular K+ concentration from 2.2 to 18.7 meq/liter in the cat and from 2.3 to 15.2 meq/liter in the dog. Eventually the K+ concentration fell below the prestimulatory level, indicating uptake of K+ by the gland cells. In case of prolonged stimulation (2-10 min), the uptake began during stimulation. However, a further reduction in extracellular K+ concentration occurred upon cessation of stimulation, a result that demonstrated that the cells did not fully recover their K+ ,content during stimulation. The latency of the release of K+, defined as the time from the beginning of stimulation to the point at which, the K+-specific microelectrode signal had increased by 2 mV, was 0.6 s in the cat and 0.8 s in the dog. Because these are overestimates of the "true" latencies, we conclude that the K+ release begins simultaneously with the hyperpolarization of the acinar cell membrane.
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