Advanced search
Publication Cover
International Journal of Neuroscience Volume 78, 1994 - Issue 3-4
Submit an article Journal homepage
14
Views
7
CrossRef citations to date
0
Altmetric
Original Article

Effects of Prefrontal Cortex Lesions on Visual Evoked Potential Augmenting/Reducing

Janet L. Blenner College of Health and Human Services, San Diego State University, San Diego, California
&
Charles D. Yingling Departments of Anesthesia, Neurological Surgery and Otolaryngology, University of California, San Francisco, California
Pages 145-156 | Received 18 Apr 1994, Published online: 07 Jul 2009

References

  • Blenner J. L., Yingling C. D. Modality specificity of evoked potential augmenting/reducing. Electroencephalography and clinical Neurophysiology 1993; 88: 131–142
  • Braff D. L., Geyer M. A. Sensorimotor gating and schizophrenia. Human and animal model studies. Archives of General Psychiatry 1990; 47: 181–188
  • Bruneau N., Roux, Garreau B., Lelord G. Frontal auditory evoked potentials and augmenting‐reducing. Electroencephalography and clinical Neurophysiology 1985; 62: 364–371
  • Brutkowski S. Functions of prefrontal cortex in animals. Physiological Reviews 1965; 45: 721–746
  • Buchsbaum M. Self‐regulation of stimulus intensity: augmenting/reducing and the average evoked response. Consciousness and self‐regulation, G. E. Schwartz, D. Shapiro. Plenum, New York 1976; 101–135
  • Buchsbaum M., Landau S., Murphy D., Goodwin F. Average evoked response in bipolar and unipolar affective disorders: relationship to sex, age of onset, and monoamine oxidase. Biological Psychiatry 1973; 7: 199–212
  • Buchsbaum M., Silverman J. Stimulus intensity control and the cortical evoked responses. Psychosomatic Medicine 1968; 30: 12–22
  • Butter C. M. Habituation of responses to novel stimuli in monkeys with selective frontal lesions. Science 1964; 144: 313–315
  • Connolly J. F., Gruzelier J. H., Manchanda R., Hirsch S. R. Visual evoked potentials in schizophrenia: intensity effects and hemispheric asymmetry. British Journal of Psychiatry 1983; 142: 152–155
  • Cooper J. R., Bloom F. E., Roth R. H. The biochemical basis of neuropharmacology5th Edition. Oxford University Press, New York 1986
  • Foote S. L., Morrison J. H. Extrathalamic modulation of cortical function. Annual Review of Neuroscience 1987; 10: 67–95
  • Gado M., Hanaway J., Frank R. Functional anatomy of the cerebral cortex by computed tomography. Journal of Computer Assisted Tomography 1979; 3: 1–19
  • Glaser E. M., Griffin J. P. Influences of cerebral cortex on habituation. Journal of Physiology (Land.) 1962; 160: 429–445
  • Hoffman W. F., Levin V. A., Wilson C. B. Evaluation of malignant glioma patients during the post‐irradiation period. Journal of Neurosurgery 1979; 60: 624–628
  • Iacono W. G., Gabbay F. H., Lykken D. T. Measuring the average evoked response to light flashes: the contribution of eye‐blink artifact to augmenting‐reducing. Biological Psychiatry 1982; 17: 897–911
  • Kimble D. P., Bagshaw M. H., Pribram K. H. The GSR of monkeys during orienting and habituation after selective partial ablations of the cingulate and frontal cortex. Neuropsychologia 1965; 3: 121–128
  • Knight R. T., Hillyard S. A., Woods D. L., Neville H. J. The effects of frontal and temporal‐parietal lesions on the auditory evoked potential in man. Electroencephalography and clinical Neurophysiology 1980; 50: 112–126
  • Knight R. T., Hillyard S. A., Woods D. L., Neville H. J. The effects of frontal cortex lesions on event‐related potentials during auditory selective attention. Electroencephalography and clinical Neurophysiology 1981; 52: 571–582
  • Knight R. T., Scabini D., Woods D. L. Prefrontal gating of auditory transmission in humans. Brain Research 1989; 504: 338–342
  • von Knorring L. An experimental study of visual average evoked responses (V. AER) and pain measures (PM) in patients with depressive disorders. Biological Psychology 1978a; 6: 27–38
  • von Knorring L. Visual average evoked responses in patients with bipolar affective disorders. Neuropsychobiology 1978b; 4: 314–320
  • von Knorring L., Almay B. G. L., Johansson F., Terenius L. Endorphins in CSF of chronic pain patients, in relation to augmenting‐reducing response in visual average evoked response. Neuropsychobiology 1979; 5: 322–326
  • Konorski J., Lawicka W. Analysis of errors by prefrontal animals on the delayed response test. The frontal granular cortex and behavior, J. M. Warren, K. Akert. McGraw‐Hill, New York 1964; 271–294
  • Kraut M. A., Arezzo J. C., Vaughan H. G., Jr. Intracortical generators of the flash VEP in monkeys. Electroencephalography and clinical Neurophysiology 1985; 62: 300–312
  • LeBeau J., Petrie A. A comparison of the personality changes after (1) prefrontal selective surgery for the relief of intractable pain and for the treatment of mental cases; (2) cingulectomy and topectomy. Journal of Mental Science 1953; 99: 53–61
  • Loiselle D. L., Stamm J. S., Maitinsky S., Whipple S. C. Evoked potential and behavioral signs of attentive dysfunctions in hyperactive boys. Psychophysiology 1980; 17: 193–201
  • Lukas J. H., Siegel J. Cortical mechanisms that augment or reduce evoked potentials in cats. Science 1977; 198: 73–75
  • Luria A. R. Two kinds of motor perseveration in massive injury of the frontal lobes. Brain 1965; 88: 1–10
  • Luria A. R., Homskaya E. D. Frontal lobes and the regulation of arousal process. Attention: Contemporary Theory and Analysis, D. I. Mostofsky. Appleton‐Century‐Crofts, New York 1970; 303–330
  • Moruzzi G., Magoun H. W. Brain stem reticular formation and activation of the EEG. Electroencephalography and clinical Neurophysiology 1949; 1: 455–473
  • Milner B. Effects of different brain lesions on card sorting. Archives of Neurology 1963; 9: 100–110
  • Nauta W. J. H. Some efferent connections of the prefrontal cortex in the monkey. The Frontal Granular Cortex and Behavior, J. M. Warren, K. Akert. McGraw‐Hill, New York 1964; 397–409
  • Petrie A. Personality and the Frontal Lobes. The Blakiston Company, Philadelphia 1952
  • Petrie A. Some psychological aspects of pain and the relief of suffering. Annals of the New York Academy of Science 1960; 86: 13–27
  • Petrie A. Individuality in pain and suffering. University of Chicago Press, Chicago 1967
  • Pineda J. A., Holmes T. C., Foote S. L. Intensity‐amplitude relationships in monkey event‐related potentials: parallels to human augmenting‐reducing responses. Electroencephalography and clinical Neurophysiology 1991; 78: 456–465
  • Schooler C., Buchsbaum M., Carpenter W. T., Jr. Evoked response and kinesthetic measures of augmenting/reducing in schizophrenics: replications and extensions. Journal of Nervous and Mental Disease 1976; 163: 221–232
  • Skinner J. E., Yingling C. D. Central gating mechanisms that regulate event‐related potentials and behavior. Progress in clinical neurophysiology, J. E. Desmedt. S. Karger, Basel 1977; Vol. 1: 30–69
  • Weinberger D. R., Berman K. F., Zee R. F. Physiological dysfunction of dorsolateral prefrontal cortex in schizophrenia. I. Regional cerebral blood flow (rCBF) evidence. Archives of General Psychiatry 1986; 43: 114–125
  • Cecil textbook of medicine17th Edition, J. B. Wyngaarden, L. H. Smith, Jr. W. B. Saunders, Philadelphia, 10651985
  • Yamaguchi S., Knight R. T. Gating of somatosensory input by human prefrontal cortex. Brain Re search 1990; 521: 281–288
  • Yingling C. D., Skinner J. E. Regulation of unit activity in nucleus reticularis thalami by the mesencephalic reticular formation and the frontal granular cortex. Electroencephalography and clinical Neurophysiology 1975; 39: 635–642
  • Yingling C. D., Skinner J. E. Selective regulation of thalamic sensory relay nuclei by nucleus reticularis thalami. Electroencephalography clinical Neurophysiology 1976; 41: 476–482
  • Zuckerman M., Murtaugh T., Siegel J. Sensation seeking and cortical augmenting‐reducing. Psychophysiology 1974; 11: 535–542

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.