Abstract: Provided is a magnetic nanostructure for detecting and isolating cell-free DNA (cfDNA) that including a cationic polymer and a magnetic-nanoparticle-containing conductive polymer. The magnetic nanostructure for detecting and isolating cfDNA according to the subject matter can significantly improve detection and extraction efficiencies of DNA present in a urine, CSF, blood plasma, or blood sample, and exhibits an enhanced sensitivity. Therefore, it is expected that the magnetic nanostructure for detecting and isolating cfDNA according to the subject matter will be used for extracting DNA for use in a genetic mutation diagnosis service as well as for an early cancer diagnosis and cancer treatment.

Abstract: Disclosed are novel compounds of specific chemical structures having inhibitory activity on c-Myc/Max/DNA complex formation or pharmaceutically acceptable salts thereof.

Abstract: Disclosed is a magnetic nanostructure for detecting and isolating circulating tumor cells including a conductive polymer to which an antibody and magnetic nanoparticles are bound, which enables circulating tumor cells from early cancer patients and various circulating tumor cell types to be effectively detected using a small amount of blood, circulating tumor cells to be monitored with the naked eye through colorimetric detection, and a very small amount of circulating tumor cells present in blood to be efficiently captured with a strong magnetic field generated by a large amount of the loaded magnetic nanoparticles; in detecting, isolating, and collecting the circulating tumor cells in a very small amount, a long nanowire structure and various antibody types are used, whereby contact with cancer cells may be increased and strong bonding may be formed; sensitivity is increased and various interactions with cancer cells are facilitated, thereby exhibiting increased detection and isolation effects.

Abstract: Disclosed are novel compounds of specific chemical structures having inhibitory activity on c-Myc/Max/DNA complex formation or pharmaceutically acceptable salts thereof.

Abstract: Provided is a carbon substrate for a gas diffusion layer of a fuel cell. The carbon substrate has a structure, in which a plurality of unit carbon substrates are stacked. Each of the unit carbon substrates is a plate type substrate having a first surface and a second surface opposite to the first surface. Carbon fibers are randomly arranged on the first surface of the each unit carbon substrate. The number of the carbon fibers arranged in a machine direction of the unit carbon substrate is greater than the number of carbon fibers arranged in a transverse direction of the unit carbon substrate from the first surface to the second surface along a thickness direction of the unit carbon substrate; and, accordingly, an orientation gradient, in which the orientation in the machine direction increases from the first surface to the second surface, is shown.

Abstract: Provided is a carbon substrate for a gas diffusion layer of a fuel cell. The carbon substrate has a structure, in which a plurality of unit carbon substrates are stacked. Each of the unit carbon substrates is a plate type substrate having a first surface and a second surface opposite to the first surface. Carbon fibers are randomly arranged on the first surface of the each unit carbon substrate. The number of the carbon fibers arranged in a machine direction of the unit carbon substrate is greater than the number of carbon fibers arranged in a transverse direction of the unit carbon substrate from the first surface to the second surface along a thickness direction of the unit carbon substrate; and, accordingly, an orientation gradient, in which the orientation in the machine direction increases from the first surface to the second surface, is shown.

Abstract: A carbon substrate for a gas diffusion layer that has a porosity gradient in a thickness direction thereof, a gas diffusion using the carbon substrate, an electrode and a membrane-electrode assembly for a fuel cell that include the gas diffusion layer, and a fuel cell including the membrane-electrode assembly having the gas diffusion layer are provided. The gas diffusion layer has improved water discharge ability and improved bending strength both in the machine direction and cross-machine direction.

Abstract: Disclosed is a structure for detecting cell-free DNA using a conductive polymer and the use thereof. More particularly, a nanostructure composed of a surface-modified conductive polymer for isolating and detecting cell-free DNA is disclosed. By using the nanostructure, cell-free DNA including circulating tumor DNA, etc. can be effectively detected and isolated.

Abstract: Provided are a multiple immunoassay apparatus on a chip in which a structure comprising multiple microfluidic channels is associated with a tissue sample, which allows immunohistochemical reactions to be conducted therein, to examine various markers specific for certain diseases, and a method for performing multiple immunoassays using the same. The multiple immunoassay apparatus comprises: at least one antibody-introducing unit through which at least one antibody is introduced into the apparatus; at least one reaction unit in which the antibody reacts with a sample in an immunohistochemical pattern; and at least one fluid outlet through which a fluid including the antibody is discharged outside the apparatus.

Abstract: A carbon substrate, method, and a system for manufacturing the same. The method includes forming an oxidized carbon precursor fiber preweb comprising oxidized carbon precursor staple fibers and binder staple fibers; impregnating the oxidized carbon precursor fiber preweb with a slurry including a thermosetting resin and carbonaceous fillers and drying the resulting preweb to obtain an oxidized carbon precursor fiber web; applying heat and pressure to the oxidized and impregnated carbon precursor fiber web, to cure the thermosetting resin and press the oxidized carbon precursor fiber web; and heating the oxidized carbon precursor fiber web in an inert atmosphere, thereby stabilizing and carbonizing the oxidized carbon precursor staple fibers to obtain a carbon substrate. The present invention may utilize a combination of carbon precursor staple fibers in an oxidized form with low ductility and high stiffness; and binder staple fibers composed of a polymer resin.

Abstract: A carbon substrate for a gas diffusion layer that has a porosity gradient in a thickness direction thereof, a gas diffusion using the carbon substrate, an electrode and a membrane-electrode assembly for a fuel cell that include the gas diffusion layer, and a fuel cell including the membrane-electrode assembly having the gas diffusion layer are provided. The gas diffusion layer has improved water discharge ability and improved bending strength both in the machine direction and cross-machine direction.

Abstract: The present invention provides an apparatus for screening cancer, which reads low-mass ion mass spectrum for diagnosing cancer based on biostatistical analysis with respect to low-mass ions extracted from biological materials, and diagnoses cancer using the low-mass ion spectrum. An apparatus for cancer diagnosis, including a low-mass ion detecting unit which detects mass spectra of low-mass ions of biological materials; a cancer diagnosing unit which compares and analyzes patterns of mass spectra and diagnoses cancer; a display unit which displays cancer diagnosis information from the cancer diagnosing unit.

Abstract: A carbon substrate, method, and a system for manufacturing the same. The method includes forming an oxidized carbon precursor fiber preweb comprising oxidized carbon precursor staple fibers and binder staple fibers; impregnating the oxidized carbon precursor fiber preweb with a slurry including a thermosetting resin and carbonaceous fillers and drying the resulting preweb to obtain an oxidized carbon precursor fiber web; applying heat and pressure to the oxidized and impregnated carbon precursor fiber web, to cure the thermosetting resin and press the oxidized carbon precursor fiber web; and heating the oxidized carbon precursor fiber web in an inert atmosphere, thereby stabilizing and carbonizing the oxidized carbon precursor staple fibers to obtain a carbon substrate. The present invention may utilize a combination of carbon precursor staple fibers in an oxidized form with low ductility and high stiffness; and binder staple fibers composed of a polymer resin.

Abstract: Provided are a multiple immunoassay apparatus on a chip in which a structure comprising multiple microfluidic channels is associated with a tissue sample, which allows immunohistochemical reactions to be conducted therein, to examine various markers specific for certain diseases, and a method for performing multiple immunoassays using the same. The multiple immunoassay apparatus comprises: at least one antibody-introducing unit through which at least one antibody is introduced into the apparatus; at least one reaction unit in which the antibody reacts with a sample in an immunohistochemical pattern; and at least one fluid outlet through which a fluid including the antibody is discharged outside the apparatus.

Abstract: A kit and a composition comprising Herceptin, an antibody binding specifically to HER2, based on detecting Herceptin-sensitive HER2-overexpressing cells are provided for diagnosing cancer. A method of detecting Herceptin-sensitive HER2-overexpressing cells using the same is also provided.

Abstract: A common method of preparing a gas diffusion layer for a fuel cell has problems in that a microporous layer is impregnated into a substrate, thereby lowering the porosity of the substrate, and cracks are created on a surface of a gas diffusion layer prepared using the method. Provided is a method of reproducibly preparing a gas diffusion layer with a uniform thickness and no cracks based on the principle of a primer coating method, wherein a first microporous layer is hardly impregnated into a substrate and uniformly covers a surface of the substrate, and at least one microporous layer is further coated on the first microporous layer. Provided is also a fuel cell showing improved performance by enhancing utilization of a catalyst layer and guaranteeing a uniform diffusion of fuel and an efficient discharge of a product.

Abstract: 0A method for treating or preventing an elevated blood lipid level-related disease in a mammal, which comprises administering thereto an effective amount of rutin, quercetin or a mixture thereof.

Abstract: A method for treating or preventing an elevated blood lipid level-related disease in a mammal, which comprises administering thereto an effective amount of rutin, quercetin or a mixture thereof.

Abstract: A method for treating or preventing an elevated blood lipid level-related disease such as hyperlipidemia, arteriosclerosis, angina pectoris, stroke and hepatic diseases in a mammal, which comprises administering thereto an effective amount of a cinnamic acid derivative of formula Ia or Ib, or a pharmaceutically acceptable salt thereof: wherein, R1, R2, R3, R4 and R5 are independently H, OH or C1-4 alkoxy; and R6 is H, C1-4 alkyl group, or C5-7 cycloalkyl group having one or more substituents selected from the group consisting of OH, alkoxy and carboxy groups.

Abstract: A method for treating or preventing an elevated blood lipid level-related disease in a mammal, which comprises administering thereto an effective amount of rutin, quercetin or a mixture thereof.