K
Koki Shimoji
Researcher at Kumamoto University
Publications - 7
Citations - 223
Koki Shimoji is an academic researcher from Kumamoto University. The author has contributed to research in topics: Reticular connective tissue & Somatosensory system. The author has an hindex of 5, co-authored 7 publications receiving 218 citations. Previous affiliations of Koki Shimoji include Tokyo Medical and Dental University.
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Epidural recording of spinal electrogram in man
TL;DR: A safe, simple method of recording human spinal electrogram (SEG) is described, based on established techniques for administering epidural anesthesia, which could be applied to the diagnosis of human spinal diseases and to physiological or pharmacological study of the human nervous system.
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Evoked spinal electrogram in a quadriplegic patient
Koki Shimoji,Koki Shimoji,Kano Tatsuhiko,Kano Tatsuhiko,Tohru Morioka,Tohru Morioka,Etsutaro Ikezono,Etsutaro Ikezono +7 more
TL;DR: The somatosensory evoked spinal electrogram showed a similar pattern to that evoked by peripheral nerve stimulation in this quadriplegic patient, similar to that in the normal subject.
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Differential effects of anesthetics on mesencephalic reticular neurons. I. Spontaneous firing patterns.
TL;DR: To obtain further information about the neuronal mechanisms involved in the state of anesthesia, long-term microelectrode recording of activity in the mesencephalic reticular formation in the cat was undertaken and spontaneous firing rates decreased as anesthesia deepened.
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Differential Effects of Anesthetics on Mesencephalic Reticular NeuronsII. Responses to Repetitive Somatosensory Electrical Stimulation
TL;DR: The differential effects of anesthetics on unitary behavior of the cat's mesencephalic reticular formation in response to repetitive electrical stimulation of the skin were studied by means of longterm microelectrode recording and computer analysis.
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Effects of acute hypocapnia and hypercapnia on neuromuscular transmission and on monosynaptic spinal reflex in wakeful man
TL;DR: Results indicate that both NMT and MSR in conscious man are facilitated by acute hypocapnia, and that NMT is inhibited by acute hypercapnia.