1.An experimental study for standardization of F wave in motor nerve conduction.
Tai Ryoon HAN ; Sun Gun CHUNG ; Jong Min LEE
Journal of the Korean Academy of Rehabilitation Medicine 1991;15(3):323-333
No abstract available.
Neural Conduction*
2.Techniques for studying the great auricular nerve conduction.
Geun Yeol JO ; Young Ill KOO ; In sun PARK
Journal of the Korean Academy of Rehabilitation Medicine 1993;17(1):130-133
No abstract available.
Neural Conduction*
3.Posterior antebrachial cutaneous nerve conduction study and a case report.
Yong Hyun NAM ; Won Hee SUH ; In Young SEONG
Journal of the Korean Academy of Rehabilitation Medicine 1993;17(1):100-104
No abstract available.
Neural Conduction*
4.Saphenous nerve conduction study: antidromic vs orthodromic.
Journal of the Korean Academy of Rehabilitation Medicine 1991;15(4):489-492
No abstract available.
Neural Conduction*
5.Factors affecting diabetic neuropathy and significance of nerve conduction study.
Journal of the Korean Academy of Rehabilitation Medicine 1993;17(4):578-584
No abstract available.
Diabetic Neuropathies*
;
Neural Conduction*
6.Nerve conduction studies of anterior interosseous nerve in healthy adults.
Jae Ho SHIM ; Joong Sun CHON ; Sae Il CHUN ; Jung Soon SHIN
Journal of the Korean Academy of Rehabilitation Medicine 1991;15(4):465-470
No abstract available.
Adult*
;
Humans
;
Neural Conduction*
7.Suction cup electrode in motor nerve conduction study.
Sae Yoon KANG ; Ki Eon JANG ; Eun CHOI
Journal of the Korean Academy of Rehabilitation Medicine 1991;15(4):459-464
No abstract available.
Electrodes*
;
Neural Conduction*
;
Suction*
9.Some characteristics of the conduction index of peripheral nerve system in healthy subjects from 17-40 of ages
Journal of Vietnamese Medicine 1999;232(1):43-49
The study was carried out in 100 healthy subjects (60 males and 40 females) with age from 17-40. The investigative parameters of the conduction index in the peripheral nerve system were: nerve conduction velocity (NCV) of median, ulnar, common peroneal, posterior tibial, sural nerves and the latency of Hoffmann reflex. The result are following: NCV of median nerve was 59.345.98m/s, ulnar nerve was 59.586.08m/s, common peroneal nerve was 52.065.67m/s, posterior tibial nerve was 49.735.89m/s, sural nerve was 48.335.59m/s and latency of Hoffmann reflex was 28.152.57m/s.
Peripheral Nervous System
;
Neural Conduction
10.Comparison of Sensory Nerve Action Potential Parameters Using Different Recording Electrodes.
Sung Bom PYUN ; Mikyung AHN ; Hang Jae LEE
Journal of the Korean Academy of Rehabilitation Medicine 2000;24(4):691-695
OBJECTIVE: To investigate the influence of five different recording electrodes on the various parameters of sensory nerve action potentials (SNAPs). METHOD: Median sensory nerve conduction study was performed in 50 normal subjects using different five types of recording electrodes-disc electrode, ring electrode, bar electrode and two kinds of felt-tip bar electrodes (type 1 and 2). The interelectrode distances between active and reference electrodes were set at 4 cm for the disc and ring electrodes. The bar electrode, felt-tip electrodes type 1 and 2 were fixed at interelectrode distances of 3 cm, 3.7 cm and 2.3 cm, respectively. Onset and peak latency, onset to peak amplitude, peak to peak amplitude and duration of negative spike of SNAPs were measured. These parameters were compared using ANOVA test. RESULTS: Onset and peak latencies of SNAPs recorded from five different electrodes were not different (p>0.05). Onset to peak and peak to peak amplitudes of SNAPs recorded from felt-tip type 2 electrode were significantly reduced compared to other electrodes (p<0.05). Onset to peak amplitude of SNAPs was also reduced when the ring electrode was used (p<0.05). The negative spike durations of SNAPs recorded from felt-tip type 2 and bar electrodes were shorter than other electrodes recording (p<0.05). CONCLUSION: Onset and peak latencies of SNAPs were not affected by the types of electrodes used. Shortening of interelectrode distance may be a main cause of reduction of peak to peak amplitude and negative spike duration of SNAPs.
Action Potentials*
;
Electrodes*
;
Neural Conduction
Result Analysis
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