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원찬식 ( Chan Sik Won ),김현수 ( Hyun Soo Kim ) 대한장연구학회 2009 Intestinal Research Vol.7 No.2
Colorectal cancer (CRC) is a leading cause of cancer incidence and death worldwide. CRCs develop from morphologic transformation of normal colon epithelium to neoplasia thorough a sequential accumulation of genetic or epigenetic events. This slow carcinogenic process enables the diagnosis of CRC at earlier stages if the adequate screening strategies are feasible. In practice, recent researches have provided a technical tool for the detection of an early disease by a selective combination of noninvasive biomarkers using stool DNA, which may lead to cure the disease effectively. However, these noninvasive biomarkers for CRC screening should have acceptable sensitivity with high specificity in order to prevent unnecessary colonoscopies and consequent risks. Stool based DNA biomarkers can be used with ease and lead to greatly enhance screening acceptance. Identification of noble genetic and epigenetic DNA molecules selectively derived from colorectal neoplasia in stool can be in the forefront of CRC screening by becoming an optimal and affordable means of early detection as well as prevention of CRC in the general population. (Intest Res 2009;7:73-78)
김형우,원찬식,정시영,허남건,Kim, Hyeong-U,Won, Chan-Sik,Jeong, Si-Yeong,Heo, Nam-Geon 대한기계학회 2001 大韓機械學會論文集B Vol.25 No.12
Recent developments in microfluidic devices based on microelectromechanical systems (MEMS) technique find many practical applications, which include electronic chip cooling devices, power MEMS devices, micro sensors, and bio-medical devices among others. For the design of such micro devices, flows characteristics inside a microchannel have to be clarified which exhibit somewhat different characteristics compared to conventional flows in a macrochannel. In the present study microchannels of various hydraulic diameters are fabricated on a silicon wafer to study the pressure drop characteristics. The effect of abrupt contraction and expansion is also studied. It is found from the results that the friction factor in a straight microchannel is about 15% higher than that in a conventional macrochannel, and the loss coefficients in abrupt expansion and contraction are about 10% higher than that obtained through conventional flow analysis.