• The Journal of Internal Korean Medicine
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• v.18 no.2
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• pp.94-111
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• 1997

The present experiment was designed to examine catecholamines, serotonine, amino acids, malondialdehyde and free radical scavenging activity, by administering Yukmijihwangtang extract of a variety of concentraction to senile brain. The results were summarized as followings: 1. Yukmijihwangtang significantly increased noradrenaline in the striatum, hypothalamus, midbrain and pons-medulla oblongota of the brain tissue of senile rats, and even though Yukmijihwangtang increased noradrenaline also in other brain tissue, there was no significance. 2. Yukmijihwangtang significantly increased dopamine in the striatum, hypothalamus and midbrain of the brain tissue of senile rats, and even though Yukmijihwangtang increased dopamine also in other brain tissue, there was no significance. 3. Yukmijihwangtang significantly increased serotonine in the pons- medulla oblongata and cerebellum of the brain tissue of senile rats, and even though Yukmijihwangtang increased serotonine also in the other brain tissue except hypothalamus and midbrain, there was no significance. 4. Yukmijihwangtang significantly increased amino acid in the brain tissue of senile rats. 5. Yukmijihwangtang significantly decresed malondialdehyde and free radical in the brain tissue of senile rats. According to the above results, Yukmijihwangtang is assumed to improve brain function by reacting on biochemical of the senile brain, and that Yukmijihwangtang can be used to treat regressive brain disease carrying symptoms of psychoactive disorders.

• Journal of Oriental Neuropsychiatry
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• v.8 no.2
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• pp.25-37
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• 1997

The present experiment was designed to examine catecholamines, 5-hydroxytryptamine, amino acids. malondialdehyde(MDA) and free radical scavenging activity, by administering Chilbokyeum extracts of a variety of concentration to senile brain rats. The results were summarized as followings ; 1. Chilbokyeum significantly increased noradrenalin in the hippocampus and hypothalamus of the brain tissue of senile rats, ad even though Chilbokyeum increased noradrenalin also in other brain tissue, there was no significance. 2. Chilbokyeum had no effects on dopamine changes in all brain tissue of senile rats.3. Chilbokyeum significantly increased 5-hydroxy-tryptamine in cerebellum, but decreased in other brain tissue.4. Chilbokyeum increased amino in the brain tissue of senile rats. 5. Chilbokyeum significantly decreased MDA and free radical in the brain tissue of senile rats. According to the above results, Chilbokyeum is assumed to improve brain function by reaction by reacting on biochemical of the senile brain, and that Chilbokyeum can be used to treat regressive brain disease carrying symptoms of psychoactive disorders.

• The Journal of Internal Korean Medicine
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• v.19 no.2
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• pp.107-124
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• 1998

The present experiment was desined to examine catecholamines, 5-hydroxytryptamine, amino acids, malondialdehyde(MDA) and free radical scavening activity, by administering Cheonmagudeungyeum extract of a variety of concentraction to senile brain The results were summarized as followings: 1. Cheonmagudeungyeum significantly increased noradrenaline in the hippocampus and hypothalamus of the brain tissue of senile rats, and even though Cheonmagudeungyeum increased noradrenaline also in other brain tissue, there was no significance. 2. Cheonmagudeungyeum had no effects on dopamine changes in all brain tissue of senile rats. 3. Cheonmagudeungyeum significantly increased 5-hydrotryptamine in cerebellum, but decreased in other brain tissue. 4. Cheonmagudeungyeum increased amino acid in the brain tissue of senile rats. 5. Cheonmagudeungyeum significantly decresed MDA and free radical in the brain tissue of senile rats. According to the above results, Cheonmagudeungyeum is assumed to improve brain function by reacting on biochemical of the senile brain, and that Cheonmagudeungyeum can be used to treat regressive brain disease carrying symptoms of psychoactive disorders.

• The Journal of Internal Korean Medicine
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• v.19 no.1
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• pp.185-201
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• 1998

The present experiment was desined to examine catecholamines, 5-hydroxytryptamine, amino acids, malondialdehyde(MDA) and free radical scavening activity, by administering Samultang extract of a variety of concentraction to senile brain The results were summarized as followings: 1. Samultang significantly increased noradrenaline in the cortex, striatum, hippocampus and hypothalamus of the brain tissue of senile rats, and even though Samultang increased noradrenaline also in other brain tissue, there was no significance. 2. Samultang had effects on dopamine changes in hypothalamus of the brain tissue of senile rats. 3. Samultang significantly increased 5-hydrotryptamine in pons-medulla oblongota and cerebellum, but decreased in hypothalamus. 4. Samultang increased amino acid in the brain tissue of senile rats. 5. Samultang significantly decresed lipid peroxide production in the brain tissue of senile rats. 6. Samultang significantly decresed MDA and free radical in the brain tissue of senile rats. According to the above results, Samultang is assumed to improve brain function by reacting on biochemical of the senile brain, and that Samultang can be used to treat regressive brain disease carrying symptoms of psychoactive disorders.

• Journal of Oriental Neuropsychiatry
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• v.8 no.1
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• pp.49-68
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• 1997

This study aimed to evaluate the anti-stress effect of Yangsimtang and Yangsimtang+Siyup on the rats in immobilization stress.The experimental animals were immobilized in the stress box(5${\times}$5${\times}$20cm) for 12 hours in a day suring 3 days, and administered 1ｇ/100ｇ of Yangsimtang and Yangsimtang+Siyup and Siyup extract for 12 days before stress. The norepinephrine, epinephrine, dopamine and serotonin contents were measured by HPLC method in various part of rat brain.The following results were observed.1. In frontal cortex the norepinephrine content of control group was 561.${\pm}$24.46 ng/g brain tissue, that of saple 1 group was 430.8$\pm$41.2 ng/g brain tissue, and that of sample 2 group was 417.2$\pm$38.5 ng/g brain tissue. The differences was statistically significant.2. In corpus striatum, the norepinephrine content of control group was 561.3$\pm$27.3 ng/g brain tissue, and that of sample 1 group was 422.1$\pm$21.2 ng/g brain tissue, the dopamine content of control group was 1205.1$\pm$75.9 ng/g brain tissue, that of sample 2 group was 685.6$\pm$41.5 ng/g brain tissue. The differences was statistically significant.3. In hypothalamus, the norepinephrine content of control group was 1165.1$\pm$162.6 ng/g brain tissue, that of sample 2 group was 947.2$\pm$35.7 ng/g brain tissue. The differences was statistically significant.4. In hippocampus, the norepinephrine content of control group was 931.6$\pm$82.2 ng/g brain tissue, that of sample 1 group was 652.1$\pm$47.5 ng/g brain tissue, and that of sample 2 group was 627.4$\pm$31.2 ng/g brain tissue, the dopamine contrnt of control group was 315.4$\pm$28.4 ng/g brain tissue, that of sample 2 group was 208.5$\pm$23.7 ng/g brain tissue. The differences were statistically significant.Base on the above results, it may be concluded that Yangsimtang and Yangsimtang+Siyup are effective to reduce stress.

• Archives of Plastic Surgery
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• v.46 no.5
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• pp.405-413
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• 2019

Background Face transplantation has naturally evolved from reconstructive procedures. However, few institutions perform face transplantations, because it is time-consuming and it is necessary to justify non-vital organ transplantation. We investigated the process of organ donation from brain-dead patients and the possibility of incorporating face transplantation into the donation process. Methods A retrospective review was performed of 1,074 brain-dead patients from January 2015 to December 2016 in Korea. We analyzed the time intervals from admission to brain death decisions (first, second, and final), the causes of brain death, and the state of the transplanted organs. Results The patient base (n=1,074) was composed of 747 males and 327 females. The average period between admission to the first brain death decision was 8.5 days (${\pm}15.3$). The average time intervals between the first brain death decision and medical confirmation using electroencephalography and between the first brain death decision and the final determination of brain death were 16 hours 58 minutes (${\pm}14hours$ 50 minutes) and 22 hours 57 minutes (${\pm}16hours$ 16 minutes), respectively. The most common cause of brain death was cerebral hemorrhage/stroke (42.3%), followed by hypoxia (30.1%), and head trauma (25.2%). Conclusions When face transplantation is performed, the transplantation team has 22 hours 57 minutes on average to prepare after the first brain death decision. The cause of brain death was head trauma in approximately one-fourth of cases. Although head trauma does not always imply facial trauma, surgeons should be aware that the facial tissue may be compromised in such cases.

• The Journal of Korean Medicine
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• v.19 no.1
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• pp.392-409
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• 1998

The present experiment was designed to examine the effects of Jeongjihwan on carecholamines, serotonin, amino acids, lipid peroxide, free radical scavenging activity, malondialdehyde and superoxide dismutase activity in senile brain. It was performed by administering Jeongjihwan extracts of a variety of concentration to senile rats to experimentally determine effects of Jeongjihwan on biochemical changes in senile brain and examine protective effects against neurotoxin. To examine survival rate, the rat's spinal cord sensory ganglion cell pretreated in Jeongjihwan extracts was cultured in oxygen free radical. The results were summarized as follows: 1. Jeongjihwan significantly increased noradrenaline in the hippocampus and hypothalamus of the brain tissue of senile rats, and even though Jeongjihwan increased noradrenaline also in other brain tissue, there was no significance. 2. Jeongjihwan had no effects on dopamine changes in all brain tissue of senile rats. 3. Jeongjihwan significantly increased serotonin, but decreased in other brain tissue. 4. Jeongjihwan increased amino acid in the brain tissue of senile rats. 5. Jeongjihwan significantly decreased lipid peroxide and free radical in the brain tissue of senile rats. 6. Jeongjihwan significantly increased survival rate of nerve cell exposed to oxygen free radical. According to the above results, Jeongjihwan is assumed to improve brain function by reacting on biochemical changes of the senile brain and carries effects of protecting against neurocytotoxicity, and that Jeongjihwan can be used to treat regressive brain disease carrying symptoms of psychoactive disorders.

• Archives of Pharmacal Research
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• v.21 no.5
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• pp.549-554
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• 1998

Tissue factor (TF), a principal initiator of the veertebrate coagulation cascade, is expressed in organ tissues, cells and blood. TF is konwn to be induced in endothelial cells, monocytes and macrophages by inflammatory stimuli and in many pathologic conditions. By using the modified method for in vido TF activity assay, we found that turpentine oil injection as an inflamatory stimulus also induced the TF activity in lung and brain tissues of rats. And the age-related increase in Tf activity was observed in healthy rat brain tissue.

• Korean Journal of Veterinary Research
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• v.56 no.2
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• pp.85-89
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• 2016

We tested a set of conditions for obtaining optimal tissue quality in preparation for histology in samples of mouse brain. C57BL/6J mice were sacrificed and perfused with 4% paraformaldehyde, after which the brains were removed and dehydrated in 30% sucrose solution. The brains were then divided into four groups according to freezing temperature and usage of optimal cutting temperature (OCT) compound. Next, we stained the sectioned brain tissues with Harris hematoxylin and eosin Y and immunohistochemistry was performed for doublecortin. The best quality tissue was obtained at $-25^{\circ}C$ and by not embedding with the OCT compound. When frozen at $-25^{\circ}C$, the embedded tissue was significantly damaged by crystals, while at $-80^{\circ}C$ there were no meaningful differences between qualities of embedded- and non-embedded tissues. Overall, we identified a set of conditions to obtain quality frozen brain sections. Our developed protocol will help resolve matters associated with damage caused to sectioned brain tissue by crystal formation during freezing.

• Proceedings of the Korea Information Processing Society Conference
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• 2010.04a
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• pp.455-458
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• 2010

Extracting the brain from magnetic resonance imaging head scans is an essential preprocessing step of which the accuracy greatly affects subsequent image analysis. The currently popular Brain Extraction Tool produces a brain mask which may be too smooth for practical use to reduce the accuracy. This paper presents a novel and indirect brain extraction method based on non-brain tissue segmentation. Based on ITK, the proposed method allows a non-brain contour by using region growing to match with the original image naturally and extract the brain tissue. Experiments on two set of MRI data and 2D brain image in horizontal plane and 3D brain model indicate successful extraction of brain tissue from a head.