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A Clinical and Statistical Study of the Phases of Electroplexy

Published online by Cambridge University Press:  29 January 2018

P. C. Tresise  and
N. S. Stenhouse
P. C. Tresise
Affiliation:
Royal Perth Hospital, Perth, Western Australia, 6005
N. S. Stenhouse
Affiliation:
Raine Medical Statistics Unit, University of Western Australia, Nedlands, Western Australia, 6009
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Extract

In a previous paper (Tresise and Stenhouse, 1968a), the authors quantitated the normal time response patterns in the phases of electroplexy, where the four anaesthetics, methohexitone sodium, thiopentone, amylobarbitone sodium and diazepam were used in sub-anaesthetic doses. Patients treated without anaesthesia were included in the study. The dependence of the times of subsequent events on the time of clonus onset in the orbicularis oculi muscles were also established. The statistical technique employed in that study was simple linear regression. The interrelationships between the various factors indicated the desirability of extending the study by the use of multiple regression techniques. This paper presents the results of the extended study.

Type
Papers
Information
The British Journal of Psychiatry , Volume 123 , Issue 574 , September 1973 , pp. 319 - 328
Copyright
Copyright © Royal College of Psychiatrists, 1973 

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References

Bazett, H. C., and Penfield, W. G. (1922). ‘A study of Sherringtons decerebrate animal in chronic as well as the acute condition.Brain, 45, 185265.CrossRefGoogle Scholar
Bracchi, I., Decandia, M., and Gualtierotti, T. (1966). ‘Frequency stabilisation in the motor centres of the spinal and caudal brain stem.American Journal of Physiology, 210 (5), 1170–7.CrossRefGoogle ScholarPubMed
Brazier, M. A. B. (1954). The Action of Anaesthetics on the Nervous System with special reference to the Brain Stem Reticular System in Brain Mechanisms (ed. Dela-fresnaye, J. F.), pp. 163–99. Oxford: Blackwell Scientific Publications.Google Scholar
Brazier, M. A. B. (1968). The Electrical Activity of the Nervous System, 3rd Ed. London: Pitman Medical Publishing Go. Ltd.Google Scholar
Broughton, R., Meter-Ewart, K., and Andermann, F. (1968). ‘H-reflex studies and effects of i.v. diazepam (Valium) in subacute sclerosing leuco-encephalitis.Electroencephalography and Clinical Neurophysiology, 24, 281–94.Google Scholar
Carlson, K. E., and Alston, W. (1966). ‘The effect of intramuscular diazepam on sustained ankle clonus.Archives of Physical Medicine and Rehabilitation, 47, 781–6.Google ScholarPubMed
Cobb, S., Bailey, A. A., and Holtz, P. R. (1917). ‘On genesis and inhibition of extensor rigidity.American Journal of Physiology, 44, 239.CrossRefGoogle Scholar
Cook, J. B., and Nathan, P. W. (1967). ‘On the site of action of diazepam in spasticity in man.Journal of the Neurological Sciences, 5, 33–7.CrossRefGoogle ScholarPubMed
Cooper, C. D. (1963). ‘Comparative effects of diazepam, chlormezanone and corisoprodal in musculo-skeletal disorders.Western Medicine, 4 (Suppl.), 34.Google Scholar
Davenport, V. (1949). ‘Relation between brain and plasma electrolytes and electroshock seizure in adrenalectomised rats.American Journal of Physiology, 156, 322–7.CrossRefGoogle Scholar
Delisle Burns, B. (1963). ‘Central control of respiratory movements.British Medical Bulletin, 19, 79.CrossRefGoogle Scholar
Denny-Brown, D. (1960). ‘Diseases of the basal ganglia. Their relation to disorders of movement. I.Lancet, i, 10991105.CrossRefGoogle Scholar
Denny-Brown, D. (1960). ‘Diseases of the basal ganglia. Their relation to disorders of movement. II.Lancet, ii, 1155–62.Google Scholar
Derbyshire, A. J., Rempel, B., Forbes, A., and Lambert, E. F. (1936). ‘The effects of anaesthetics on potentials in the cerebral cortex of cat.American Journal of Physiology, 116, 577–96.CrossRefGoogle Scholar
Eccles, J. C. (1946). ‘Synaptic potentials of motor neurones.Journal of Neurophysiology, 9, 87120.CrossRefGoogle Scholar
Ekinci, M., Hsu, J. J., Bruck, M., et al. (1964). ‘Diazepam as an anti-convulsant agent in ECT.American Journal of Psychiatry, 120, 903–4.CrossRefGoogle ScholarPubMed
Feldman, S., and Wagman, I. H. (1962). ‘Hypothalamic effects on spinal reflexes and their alteration by pentobarbital.Experimental Neurology, 5, 260.CrossRefGoogle ScholarPubMed
Graham-Brown, G. (1911). ‘Studies in the physiology of the nervous system.Quarterly Journal of Experimental Physiology, 4, 273–88.Google Scholar
Hamilton, J. T. (1967). ‘Muscle relaxant activity of chlordiazepoxide and diazepam.Canadian Journal of Physiology and Pharmacology, 45, 191–9.CrossRefGoogle ScholarPubMed
Hodes, R. (1961). ‘Electrocortical synchronisation (ECS) in cats from reduction of proprioceptive drive caused by muscle relaxant (Flaxedil).Federation Proceedings, 20, 332.Google Scholar
Hodes, R. (1967). ‘Effects of age, consciousness and other factors on human electrically-induced reflexes (E.I.R.).Electroencephalography and Clinical Neurophysiology, Suppl. 25, 8091.Google Scholar
Holmberg, G. (1953). ‘The influence of oxygen administration on electrically-induced convulsions in Man.Acta Psychiatrica et Neurologica Scandinavica, 28, 365–86.Google ScholarPubMed
Holmberg, G. (1954). ‘Effect on electrically-induced convulsions on the number of previous treatments in a series.A.M.A. Archives of Neurology and Psychiatry, 71, 619–23.CrossRefGoogle ScholarPubMed
Holmberg, G. (1955). ‘Effect of certain factors in convulsions in electro-shock treatment.Acta Psychiatrica et Neurologica Scandinavica, Suppl. 98, 219.Google Scholar
Holmberg, G., Hard, G., and Ramquist, N. (1956). ‘Experiments in prolongation of convulsions induced by electro-shock treatment.Acta Psychiatrica et Neurologica Scandinavica, 31, 6170.CrossRefGoogle Scholar
Kalinowsky, L. B. (1947). Epilepsy and Convulsive Therapy . Research Publications of the Association for Research in Nervous and Mental Disease, No. 26, 175–83.Google Scholar
Kanjilal, J. C. (1964). ‘A clinical evaluation of “Valium” in cerebral palsy.British Journal of Clinical Practice, 18, 1922.Google Scholar
Kellar, A. D. (1945). ‘Generalised atonia and profound dysreflexia following transection of the brain stem through central pons.Journal of Neurophysiology, 8, 275–88.Google Scholar
Kino, E. E., Naquet, R., and Magoun, H. N. (1957). ‘Alterations in somatic afferent transmission through the thalamus by central mechanisms and barbiturates.Journal of Pharmacology and Experimental Therapeutics, 119, 4863.Google Scholar
Klein, R., and Early, D. F. (1948). ‘Observations in electrically-produced epileptic convulsions.Journal of Mental Science, 94, 581–8.Google ScholarPubMed
Klein, R. and Early, D. F. (1949). ‘Observations in electrically-produced epileptic convulsions.Journal of Mental Science, 95, 638–50.CrossRefGoogle ScholarPubMed
Mandell, A. J., and Bach, L. M. N. (1957). ‘Failure of the bulbar inhibitory reticular formation to affect somatic reflex activity in the unaesthetised cat.American Journal of Physiology, 190, 329–32.CrossRefGoogle ScholarPubMed
Moruzzi, G., and Magoun, H. W. (1949). ‘Brain stem reticular formation and activation of the EEG.Electroencephalography and Clinical Neurophysiology, 1, 455.CrossRefGoogle ScholarPubMed
Nutter, D. O., and Massumi, R. A. (1965). ‘Diazepam in cardioversion.The New England Journal of Medicine, 273, 650–1.CrossRefGoogle ScholarPubMed
Penfield, D. W., and Jasper, H. (1954). Epilepsy and the Functional Anatomy of the Human Brain. London: J. and A. Churchill.CrossRefGoogle Scholar
Piette, Y. (1958). ‘L'electroencéphalogramme de la crise convulsive de l'electrochoc.Acta Neurologia et Psychiatrica Belgica, 58, 219–30.Google Scholar
Pollock, L. J., and Davis, L. (1927). ‘The influence of cerebellum upon the reflex activities of the decerebrate animal.Brain, 50, 277.CrossRefGoogle Scholar
Pollock, L. J., and Davis, L. (1927). ‘Studies in decerebration.Archives of Neurology and Psychiatry, 17, 1827.CrossRefGoogle Scholar
Pollock, L. J., and Davis, L. (1930). ‘The reflex activities of a decerebrate animal.Journal of Comparative Neurology, 50, 377409.CrossRefGoogle Scholar
Purves-Stewart, J., and Worster-Drought, C. (1952). The Diagnosis of Nervous Diseases, 10th Ed. London: Edward Arnold.Google Scholar
Rademaker, G. G. J., and Hoogerwerf, S. (1929). ‘L'action des muscles fléchisseurs et extenseurs du coude lors de la rigidité décérébrée.Archives Néerlandaises de Physiologie de l'Homme et des Animaux, 14, 445.Google Scholar
Randall, L. O., Heise, G. A., Schaller, W., Bagdon, R. E., Banziger, R., Boris, A., More, R. J., and Abrams, W. B. (1961). ‘Pharmacological and clinical studies on Valium.Current Therapeutic Research, 3, no. 9, 405–25.Google ScholarPubMed
Robson, J. G., Houseley, M. A., and Solis-Quiroga, O. H. (1963). ‘The mechanism of respiratory arrest with sodium pentobarbital and sodium thiopental.Annals of the New York Academy of Sciences, 109, part 2 495504.CrossRefGoogle Scholar
Schaller, W., Zabransky, F., and Kuehn, A. (1964). ‘Effects of benzodiazepines on central nervous system of cat.Archives Internationales de Pharmacodynamic et de Thérapie, 149, 467–83.Google Scholar
Sherrington, C. S. (1898). ‘Decerebrate rigidity and reflex co-ordination of movements.Journal of Physiology, 22, 319–22.CrossRefGoogle Scholar
Sternbach, L., and Reeder, F. (1961). ‘Quinazolines and 1–4 benzodiazepines.Journal of Organic Chemistry, 26, 4936–41.Google Scholar
Sternbach, L., and Reeder, F. (1961). ‘Quinazolines and 1–4 benzodiapines.Journal of Organic Chemistry, 26, 4488–97.Google Scholar
Strauss, H. and Landiz, G. (1938). ‘Metrazol convulsions their relation to epileptic attack.Proceedings of the Society for Experimental Biology and Medicine, 38, 369–70.Google Scholar
Tresise, P. C. (1965). ‘A new aspect of the diagnostic value of electrotherapy.Medical Journal of Australia, ii, 618.Google Scholar
Tresise, P. C. and Stenhouse, N. S. (1968a). ‘EGT phases with and without anaesthetic.British Journal of Psychiatry, 114, 1383–86.CrossRefGoogle Scholar
Tresise, P. C. and Stenhouse, N. S. (1968b). ‘Diagnostic electroplexy. A study of the clonus phase in EGT.Australian and New Zealand Journal of Psychiatry, 2, 147–54.CrossRefGoogle Scholar
Tresise, P. C. and Stenhouse, N. S. (1971). ‘A study of a respiratory related variation of muscle tone during the decrement of decerebrate tonicity in ECT.Journal of Neurology, Neurosurgery and Psychiatry, 34, 32–6.CrossRefGoogle ScholarPubMed
Walshe, F. M. R. (1923). ‘A case of complete decerebrate rigidity in man.Lancet, ii, 644–6.Google Scholar
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