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Clinical application of event related potentials in patients with brain tumours and traumatic head injuries

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Summary

Event related potential recording and psychometric evaluation of cognitive impairment were carried out on 21 patients with brain tumours, 21 patients with severe head injuries and 24 controls. The tumour and trauma patients who met the psychometric inclusion criteria for dementia, but not the non-demented patients, had significantly longer N2 and P3 latencies than the controls. In assessing individual patients P3 latency correctly differentiated between demented and non-demented patients in 81% of cases (for N2 latency 77%). Particularly P3 latency may provide a practical and objective measure of mental impairment in neurosurgical disorders producing dementia. Marked asymmetry in N2 and P3 amplitudes between hemispheres was observed in a number of cases. No significant relationship was found between diminution of N2 and P3 components and side of lesion.

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References

  1. Brown, W. S., Marsh, J. T., LaRue, A., Event-related potentials in psychiatry: differentiating depression and dementia in the elderly. Bull. Los Angeles neurol. Soc.47 (1982), 91–107.

    PubMed  Google Scholar 

  2. Callaway, E., Tueting, P., Koslow, S. H., (eds.), Event-related Brain Potentials in Man. New York: Academic Press. 1978.

    Google Scholar 

  3. CIPS: Collegium Internationale Psychiatriae Scalarum, Internationale Skalen für Psychiatrie. Weinheim: Beltz. 1977.

    Google Scholar 

  4. Courjon, J., Mauguiere, F., Revol, M. (eds.), Clinical Applications of Evoked Potentials in Neurology. New York: Raven Press. 1982.

    Google Scholar 

  5. Gaillard, A. W. K., Ritter, W., (eds.), Tutorials in Event Related Potential Research: Endogenous Components. Amsterdam: North-Holland Publishing Company. 1983.

    Google Scholar 

  6. Goodin, D. S., Squires, K. C., Starr, A., Long latency event-related components of the auditory evoked potential in dementia. Brain101 (1978), 635–648.

    PubMed  Google Scholar 

  7. Halgren, E., Squires, N. K., Wilson, C. L., Rohrbaugh, J. W., Babb, T. L., Crandall, P. H., Endogenous potentials generated in the human hippocampal formation and amygdala by infrequent events. Science210 (1980), 803–805.

    PubMed  Google Scholar 

  8. Halliday, A. M., (ed.), Evoked Potentials in Clinical Testing. Edinburgh: Churchill Livingstone. 1982.

    Google Scholar 

  9. Johnson, R.,Jr., Fedio, P., P300 activity in patients with unilateral temporal lobectomies: a preliminary report. In: Preliminary Poster Reports of the 7. International Conference of Event Related Potentials of the Brain (Denoth, F., ed.), pp. 182–183. Florence. 1983.

  10. 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. Electroenc. clin. Neurophysiol.50 (1980), 112–124.

    Google Scholar 

  11. Michel, F., Peronnet, F., Schott, B., A case of cortical deafness: Clinical and electrophysiological data. Brain Lang.10 (1980), 367–377.

    PubMed  Google Scholar 

  12. Okada, Y. C., Kaufman, L., Williamson, S. J., The hippocampal formation as a source of the slow endogenous potentials. Electroenc. clin. Neurophysiol.55 (1983), 417–426.

    Google Scholar 

  13. Owen, M. P., Brown, R. H., Spetzler, R. F., Nash, C. L., Jr., Brodkey, J. S., Nulsen, F. E., Excision of intramedullary arteriovenous malformation using intraoperative spinal cord monitoring. Surg. Neurol.12 (1980), 271–276.

    Google Scholar 

  14. Peronnet, F., Michel, F., The asymmetry of the auditory evoked potentials in normal man and in patients with brain lesions. In: Prog. Clin. Neurophysiol. (Desmedt, J. E., ed.), Vol. 2, pp. 130–141. Basel: Karger. 1977.

    Google Scholar 

  15. Pfefferbaum, A., Wenegrat, B. G., Ford, J. M., Roth, W. T., Kopell, B. S., Clinical application of the P 3 component of eventrelated potentials. II. Dementia, depression and schizophrenia. Electroenc. clin. Neurophysiol.59 (1984), 104–124.

    Google Scholar 

  16. Raudzens, P. A., Shetter, A. G., Intraoperative monitoring of brain-stem auditory evoked potentials. J. Neurosurg.57 (1982), 341–348.

    PubMed  Google Scholar 

  17. Ritter, W., Simson, R., Vaughan, H. G., Jr., Event-related potentials and two sequential stages of information processing in physical and semantic discrimination. Psychophysiol.20 (1983), 168–179.

    Google Scholar 

  18. Ritter, W., Vaughan, H. G., Jr., Simson, R., On relating eventrelated potential components to stages of information processing. In: Tutorials in Event Related Potential Research: Endogenous Components (Gaillard, A. W. K., Ritter, W., eds.), pp. 143–158. Amsterdam: North-Holland Publishing Company. 1983.

    Google Scholar 

  19. Simson, R., Vaughan, H. G., Jr., Ritter, W., The scalp topography of potentials associated with missing visual or auditory stimuli. Electroenc. clin. Neurophysiol.40 (1976), 33–42.

    Google Scholar 

  20. Syndulko, K., Hansch, E. C., Cohen, S. N., Pearce, J. W., Goldberg, Z., Montan, B., Tourtellotte, W. W., Potvin, A. R., Long-latency event-related potentials in normal aging and dementia. Adv. Neurol.32 (1982), 279–285.

    PubMed  Google Scholar 

  21. Vaughan, H. G., Jr., Ritter, W., The sources of auditory evoked responses recorded from the human scalp. Electroenc. clin. Neurophysiol.28 (1970), 360–367.

    Google Scholar 

  22. Wood, C. C., Allison, T., Goff, W. R., Williamson, P. D., Spencer, D. D., On the neural origin of P 300 in man. Prog. Brain Res.54 (1980), 51–56.

    PubMed  Google Scholar 

  23. Wood, C. C., McCarthy, G., Squires, N. K., Vaughan, H. G., Jr., Woods, D. L., MacCallum, W. C., Anatomical and physiological substrates of event-related potentials. Two case studies. Ann. N.Y. Acad. Sci.425 (1984), 681–721.

    PubMed  Google Scholar 

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Author notes

  1. H. M. Olbrich, D. Zerbin, L. Lanczos, E. Lodemann & M. P. Engelmeier

    Present address: Department of Psychiatry, University Hospital, Essen, Germany

  2. H. E. Nau & W. Grote

    Present address: Neurosurgical Clinic, University Hospital, Essen, Germany

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    1. H. M. Olbrich
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    2. H. E. Nau
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    3. D. Zerbin
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    4. L. Lanczos
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    5. E. Lodemann
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    6. M. P. Engelmeier
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    7. W. Grote
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    Olbrich, H.M., Nau, H.E., Zerbin, D. et al. Clinical application of event related potentials in patients with brain tumours and traumatic head injuries. Acta neurochir 80, 116–122 (1986). https://doi.org/10.1007/BF01812285

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