Journal of Yeungnam Medical Science

Original Articles

Transcallosal Fibers from the Corticospinal Tract in Adults with Brain Injury: Sung Ho Jang, Sang Ho Ahn, Yun Woo Cho; Yeungnam Univ J Med. 2007;24(2 Suppl):S424-429. Published online December 31, 2007; DOI: https://doi.org/10.12701/yujm.2007.24.2S.S424

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Background
：Diffusion tensor image tractography (DTT) can visualize white matter tracts and provide us with a powerful vehicle for investigating the neuralpathway at the subcortical level. Using DTT, we attempted to demonstrate abnormal transcallosal fibers from the corticospinal tract in patients with brain injury. Materials and Methods：Four adults with brain injury (2 patients: stroke, 1 patient: brain tumor with hemorrhage, 1 patient: diffuse axonal injury) and 14 normal control subjects were enrolled in this study. DTT was performed using 1.5-T with a Synergy-L Sensitivity Encoding head coil. Three-dimensional reconstructions of the fiber tracts were obtained with FA<3.0, and an angle change >45o as termination criteria.
Results
：Transcallosal fibers were observed in two of 14 normal controls, and ascended to the cortex leaving the corpus callosum. All four patients showed transcallosal fibers which stemmed from the corticospinal tract of the unaffected hemisphere, and descended to or around the lesion at the subcortical area.
Conclusion
：It seems that transcallosal fibers which arise from the corticospinal tract of the unaffected hemisphere may act as pathological fibers for motor deficit compensation.

Citations

Citations to this article as recorded by

Usefulness of DTI-based three dimensional corticospinal tractography in children with hemiplegic cerebral palsy
Ji Hyun Yeo, Su Min Son, Eun Sil Lee, Han Ku Moon
Korean Journal of Pediatrics.2009; 52(1): 99. CrossRef

Effects of octreotide on the contractility of isolated rat vas deferens.: Sun Ae Jang, Oh Cheol Kwon, Jeoung Hee Ha, Kwang Youn Lee, Won Joon Kim; Yeungnam Univ J Med. 1993;10(1):144-156. Published online June 30, 1993; DOI: https://doi.org/10.12701/yujm.1993.10.1.144

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Abstract PDF: This study was performed to investigate the effect of octreotide on the contractility of rat vas deferens. The -smooth muscle strips isolated from the prostatic portion were myographied in isolated organ bath. Electric -field stimulation (monophasic square wave, duration : 1. mSec, voltage : 50 V, frequency : 5 Hz or 30 Hz, train : 10 Sec) produced reproducible contraction. The contraction was composed of two component, first phasic component (FPC) and second tonicc component (STC).. These contractions were abolished by -tetrodotoxin (1 microM). Octreotide inhibited the field stimulation induced contractions both FPC and STC concentration- dependently. The FPC was decreased by a desentization of purinergic receptor by pretreatment of mATP, and the STC was decreased by pr,,creatment of reserpine (3 mg/kg, EP) 24 hours before experiments. Octreotide reduced the field stimulation induced contraction in the presence of mATP and of reserpinized muscle strips. The inhibitory effect of octreotide was more potent at 5 Hz than at 30 Hz. Octreotide did not affect basal ton and exogenous norepinephrine- or ATP-induced contraction. These results suggest that octreotide inhibit the contractility of the isolated rat vas deferens by inhibition of the release of neurotransmitters, both ATP and norepinephrine from adrenergic nerve terminal.

Antimycotic susceptibility testing of trichophyton rubrum by microculture method.: Moo Woong Lee, Jong Chul Kim, Jong Soo Choi, Ki Hong Kim; Yeungnam Univ J Med. 1992;9(2):396-406. Published online December 31, 1992; DOI: https://doi.org/10.12701/yujm.1992.9.2.396

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Abstract PDF: Various susceptibility tests have been used to determine minimal inhibition concentration (MIC) of dermatophytes. They have limitations to apply practically because they need long time to determine MiC. Authors examined MIC of T. rubrum to ketoconazole and itraconazole using 96- well microplate and 24-well macroplate by method of Granade and Artis and tried to check the possibility of this method on clinical application. Nine strains of T. rubrum from patients with dermatophytosis were used. Evaluations of the factors affecting MIC were also tried. The results as follows. 1. Effect of inoculation density on determination time and MIC: Determination of MIC were possible in 4th days after inoculation at higher inoculation density (aborbance 2.0, 1.0) compared to 6th days at lower inoculation density (absorbance 0.5, 0.25). 2. Effect of incubation temperature on MIC: When incubating at 37℃, MIC were below 0.006-0.04µg/ml to ketoconazole and below 0.006-0.04µg/ml to itraconazole while at 25℃ 0.08-5.68µ8/ml to ketoconazole and 0.006-0.71µg/ml to itraconazole. Significant reduction of MIC was observed at 37℃ compared to 25℃. 3. Effect of container size on determination time and MIC: When incubating in 96–well microplate and 24-well macroplate, determination of MIC was possible in 4th to 6th days after inoculation in broth-containig 96-well microplate compared to 8th to 12th days in broth-containing 24-well macroplate. But no difference in MIC was observed between different container size. 4. Effect of media on MIC: When using broth as media, MIC were below 0.006-5.68µg/ml to ketoconazole, below 0.006-0.36µg/ml to itraconazole in broth-containg 24-well macroplate. When using agar as media, MIC were below 0.006-5.68 µg/ml to ketoconazole, below 0.006-5.68 µg/ ml to itraconazole in agar-containing 24-well macroplate. 5. These findings confirm that determination of MIC of dermatophtes by method of Granade and Artis is fast and simple technique for antifungal susceptibility test.

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