J H Park scite author profile

J H Park

2Publications

20Citation Statements Received

34Citation Statements Given

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Chung-Ang University

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Endothelial progenitor cells in pterygium pathogenesis

Lee

Song

et al. 2006

Eye

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Purpose The pathogenesis of pterygium is not well known, and controversy exists about the cell origins and the nature of initial trigger required for its development. We investigated whether endothelial progenitor cells (EPCs) are involved in pathogenesis of pterygium and the mechanism underlying the selective recruitment of EPCs during this process. Methods We studied 13 normal controls and 28 pterygium patients (primary (n ¼ 15), recurrent (n ¼ 13)). Substance-P, vascular endothelial growth factor (VEGF), and stem cell factor (SCF) were measured in plasma and tears using ELISA, and circulating CD34 þ and c-kit þ mononuclear cells (MNCs) by flow cytometry. Anterior segment fluorescein angiography (FAG) was performed to evaluate hypoxic conditions in the early stage of pterygium. Surgically removed pterygial tissues were analyzed immunohistochemically using the progenitor cell markers, CD34, c-kit, VEGFR-1, and VEGFR-2. Results Anterior segment FAG findings showed an increase in non-perfusion areas and attenuated vessels in the nasal limbus during early-stage pterygium. Circulating CD34 þ MNCs and c-kit þ MNCs were increased in pterygium groups compared with normal controls. Systemic and local cytokines including SP, VEGF, and SCF in pterygium groups were also elevated and showed positive correlations with CD34 þ and c-kit þ MNC numbers. Immunohistochemical analysis of pterygium showed strong progenitor cell marker immunoreactivities. Conclusions EPCs might be involved in pterygium development, and ocular hypoxia triggers this neovascularization by recruiting EPCs derived from the bone marrow via the production of systemic and local cytokines.

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Development of a Combustion System for Liquid or Gas Samples

Park

Lee

2004

Radiocarbon

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While it is customary to use solid samples for measuring the 14C/12C ratio, it is sometimes necessary to handle liquid or gas samples. Motivated by a scientific purpose to count radiocarbon yields in deuterated acetone irradiated with energetic neutrons, we developed a new combustion system to treat liquid or gas samples. In contrast with the typical combustion system using CuO for solid samples, the new combustion system uses high-purity O2 (99.999%) gas. As an initial investigation, we combusted deuterated acetone (acetone-d6, certified 100.0 atm % D) to make CO2 under the ambient O2 pressure. The resulting CO2 gas then went through the reduction process to form graphite for further accelerator mass spectrometry (AMS) measurement.

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J H Park

Endothelial progenitor cells in pterygium pathogenesis

Development of a Combustion System for Liquid or Gas Samples

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