Showing papers on "Temporal cortex published in 1979"

Subicular input from temporal cortex in the rhesus monkey.

Abstract: The subicular cortices of the primate hippocampal formation form a physical and connectional link between the cortex of the temporal lobe and the hippocampus. Their direct connections with all classes of cortex in the temporal lobe except primary sensory cortex underscore the pivotal role of these areas in the potential interplay between the hippocampal formation and the association cortices.

An electrophysiologic indication of defective information storage in childhood autism.

Abstract: We used a combined behavioral and electrophysiological technique to test the hypothesis that storage of information is impaired in childhood autism. Endogenous event-related potentials associated with the random deletion of stimuli within a regular train of auditory or visual stimuli were examined in three autistic and three normal children. We found that all subjects were able to detect the stimulus deletions, but cortical potentials associated with stimulus omissions were smaller or absent in the autistic subjects. These results are consistent with dysfunction within the system that includes posterior parietal cortex and its connections with the mesolimbic temporal cortex and hippocampus.

Regional distribution of homocarnosine, homocarnosine-carnosine synthetase and homocarnosinase in human brain.

Abstract: Homocarnosine (HCarn) content varied over a 6-fold range in different regions of autopsied human brain, being highest in the dentate nucleus and the inferior olive, and lowest in the caudate nucleus and mesolimbic system. HCarn content was similar in biopsied and autopsied frontal cortex. Very little if any carnosine (Carn) was present in human brain, except for the olfactory bulb, where Carn may have comprised 20% of the imidazole dipeptides present. Only HCarn was present in human CSF. HCarn-Carn synthetase enzyme activity in biopsy specimens of human frontal and temporal cortex was approx 10 times greater than has been reported for rat cerebral cortex. The enzyme synthesized Carn 3–5 times as rapidly as HCarn, when β-alanine (β-Ala) or GABA substrate concentrations were 10 MM. The synthetase was found to have an apparent Km of 1.8 mM for β-Ala, and 8.8 mM for GABA. HCarn-Carn synthetase activity decreases rapidly after brain death, and was not detectable in autopsied brain specimens frozen more than 6 h after patients’deaths. Homocarnosinase activity was determined in brain, using L-[γaminobutyryl-1-14C]HCarn as substrate, and measuring radioactive GABA produced by hydrolysis of HCarn at pH 7.2 in the presence of Co2+ ions. Homocarnosinase activity was similar in biopsied and autopsied human cerebral cortex, and appeared to be stable for at least 10 h after death in unfrozen brain. Differences in the regional distribution of HCarn-Carn synthetase and homocarnosinase activities, as well as regional differences in GABA content in human brain, do not readily account for regional differences in HCarn content, nor do they suggest a physiological role for HCarn.

Brain tryptophan metabolism in schizophrenia: a post mortem study of metabolites of the serotonin and kynurenine pathways in schizophrenic and control subjects.

Abstract: Serotonin (5HT), its chief metabolite 5-hydroxyindoleacetic acid (5 HIAA), its precursor tryptophan, and kynurenine, another metabolite of tryptophan, have been measured in post mortem human brain samples. Concentrations of these metabolites were not found to be significantly different in putamen, hippocampus or temporal cortex from 23 normal subjects compared with 15 subjects in whom a diagnosis of schizophrenia could be restrospectively confirmed. The results have been analysed with respect to cause of death, medication and post mortem changes. Post mortem increases in tryptophan and kynurenine were observed. Some interrelationships between the variables measured within and between the different areas studied are discussed. It is concluded that there is no evidence for a generalised deficit of 5HT in the brain in schizophrenia, nor for gross changes in turnover along the serotonin or kynurenine pathways of tryptophan metabolism in brain.

Hemisphere Differences in Event Related Potentials and CNV’s Associated with Monaural Stimuli and Lateralized Motor Responses

Abstract: Hemispheric lateralization of cerebral processing of various kinds is well established, but the electrophysiological concomitants of such lateralization have proved more difficult to demonstrate. In the auditory system the principal projection is accepted as being to the temporal cortex contralateral to the stimulated ear, but with secondary projection to the ipsilateral temporal cortex. Lateralized motor resposes are, of course, even more clearly a function of the motor cortex contralateral to the responding limb.

The Effect of Hyperthyroidism Induced by Thyroideum Siccatum on the Central Nervous System: An Electron Microscopic Study

Abstract: Ten adult male rats were administered orally with thyroideum siccatum every day to produce a hyperfunctional state of thyroid hormone. They were examined electron microscopically for the fine structure of the brain. Clinically, experimental rats lost in weight, manifested a hyperactive, irritative attitude, and were in an aggressive state. Electron microscopically, the nerve cells showed a slight increase in the number of mitochondria in the frontal cortex, spiral and petaloid variation of ER in the thalamus. The specific findings in the experimental rats were variations of synapse observed in the frontal and temporal cortex, gyrus hippocampi, and thalamus, centering around the hypothalamus. They included meandering of the presynaptic membrane, formation of vacuoles by the presynaptic membrane, saccate projection of this membrane to the postsynapse, and changes in vacuoles which were torn off and fell into the dendrite. These variations occurred in the synaptic membrane and ER, probably because synthesis of the membrane had been accelerated remarkably by the action of thyroid hormones. They were considered to have brought about abnormalities to the conductive and transmission system. They seemed to be closely related with emotional disturbances and psychic symptoms, since such variations were particularly apparent in the hypothalamus.