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명재욱,송지연,박철종,강석진,김시용 대한피부과학회 2003 大韓皮膚科學會誌 Vol.41 No.1
Nasal glioma is a rue, benign, congenital tumor, which is ectopic sequested brain tissue that has lost its intracranial connection. It is thought to be the result of an abnormality in embryonic development. A 2-month-old female patient presented with firm, noncompressible, pinkish, 0.6 ㎝-diameter, protruding mass on the glabella from birth. No intracranial connection was found by MRI. Histopathological finding showed an unencapsulated pale-staining fibrillary glial tissue, which contains astrocytes and some neurons. Immunohistochemically, the glial tissue and astrocytes were positive for GFAP(glial fibrillary acidic protein), and neurons were positive for NSE(neuron-specific enolase). (Korean J Dermatol 2003;41(1) : 104∼107)
다발성 골수종과 과지질단백혈증이 동반된 범발성 편평 황색종 1 예
명재욱(Jae Wook Myung),장항욱(Hang Wook Chang),박현정(Hyun Jung Park),이준영(Jun Young Lee),조백기(Baik Kee Cho) 대한피부과학회 2001 대한피부과학회지 Vol.39 No.8
Generalized plane xanthoma is a group of plane xanthomas that appear as yellow to yellow-brown flat patches or slightly elevated plaques with a wide-spread distribution. The disease is frequently associated with multiple myeloma or other reticulo-endothelial malignancies and monoclonal gammopathy with unknown significance, and when accompanied by these hematologic malignancies, nor- molipoproteinemia is invariably associated. We present a case of generalized plane xanthoma associated with multiple myeloma and type III hyperlipoproteinemia in a 48 year-old woman, and this is the first report in Korean literature. (Korean J Dermatol 2001;39(8):905-908)
명재욱(Jaewook Myung) 유기성자원학회 2022 유기성자원학회 학술발표대회논문집 Vol.2022 No.추계
Water, energy, materials, and food are essential for human well-being, poverty reduction, and sustainable development. Viable steps need to be taken to renew our increasingly scarce essential resources. One option is to recover these valuable resources (water, energy, materials, fertilizers, food, etc.) from waste. This research presents recent innovations to transform waste treatment infrastructure into resource recovery centers by converting organic waste into biogas methane and using methanotrophic bacteria to convert biogas methane into value-added products. Methanotrophic bacteria can produce biodegradable bioplastic, polyhydroxyalkanoates (PHAs), a sustainable alternative to petroleum-based plastics that can sequester carbon and help address climate change. Methanotrophs can also produce prebiotic fish/animal foods that improve fish/animal health and enhance growth. Altogether, use of methanotrophic bacteria in waste treatment infrastructure enables production of valuable bioproducts.