Abstract: A magnet assisted surgical device, system, and method employs magnetic sections, catheters, and guidewires to modify tubular stentgrafts in-situ. One example application provides a more reliable way for surgeons to modify stentgrafts insitu to allow blood flow to continue to branching blood vessels that would otherwise be blocked by the stentgraft itself. One such method includes placing a tip section of the device in the desired location, deploying a stentgraft, placing a magnetic device inside the stentgraft, connecting the magnetic device to the tip section, and excising the portion of the stentgraft held between the magnet and the tip section.

Abstract: Disclosed is an improved composition characterized in containing a combination of melatonin and 5-HTP in a nasal administration for the rapid treatment of insomnia, anxiety, and related disorders in mammals, including humans. The present invention relates also to a pharmaceutical composition comprising 5-HTP and melatonin which utilizes the known effects of two substances to provide sleep improvement, relaxation, and reduced anxiety via rapid delivery of the combination, via nasal administration, for short-term alleviation of sleep disorder and anxiety-related symptoms. The combined effects of 5-HTP and melatonin in the present invention provide a short-term increase in blood plasma levels of melatonin while simultaneously increasing the production of serotonin for purposes of achieving natural melatonin biosynthesis in combination with the increased melatonin content in blood plasma.

Abstract: The present invention relates to a method for manufacturing Alloy 690 ordered alloy to be used in a steam generator tube serving as a heat exchanger in a nuclear power plant (hereinafter, referred to as NPP), and Alloy 690 ordered alloy manufactured thereby, and provides a method for manufacturing Alloy 690 ordered alloy with improved thermal conductivity, and Alloy 690 ordered alloy manufactured thereby, the method comprising the steps of: solution-annealing Alloy 690; cooling the solution-annealed Alloy 690 to a first temperature of 200° C./min or less; and ordering the cooled Alloy 690 in the temperature range of 410-520° C.

Abstract: An apparatus for calculating a reception time of a wireless communication signal is disclosed. The apparatus includes a downconverted signal generator configured to generate a downconverted signal, a baseband signal, by downconverting a frequency of a signal received from a transmission source, a modulated signal generator configured to generate a modulated signal by multiplying the downconverted signal by a randomly generated reference signal, a time difference calculator configured to calculate a time difference between the modulated signal and the reference signal by cross-correlating the modulated signal and the reference signal, and a reception time calculator configured to calculate a reception time of the signal received from the transmission source using a point in time at which the reference signal is generated and the time difference between the modulated signal and the reference signal.

Abstract: A method for receiving and transmitting synchronization signal is provided. The method is applicable to a wireless communication device. The wireless communication device has a local timing. The method includes the following steps. Receive at least one synchronization signal. If a signal power of at least one of the at least one synchronization signal is greater than or equal to a signal power threshold, select one of the at least one synchronization signal as a reference synchronization signal according to a priority rule, and synchronize the local timing to the reference synchronization signal. If the signal power of each the synchronization signal is less than the signal power threshold, send a local synchronization signal according to the local timing. If the reference synchronization signal meets a forwarding criterion, forward the reference synchronization signal, wherein the forwarding criterion includes a power constraint and a hop count constraint.

Abstract: To provide an optical film having improved bending resistance while maintaining optical characteristics, e.g. transparency, total light transmittance, and YI value and so on. An optical film containing a resin and silica fine particles whose average primary particle size measured by image analysis with a scanning electron microscope is not less than 21 nm and not more than 40 nm, wherein the content of the silica fine particles is not less than 15% by mass and not more than 80% by mass based on a total content of the resin and the silica fine particles.

Abstract: Dental contrast formulations (“fillers”) of tailorable X-Ray radiopacity and methods for their use are provided. The disclosed fillers include mixtures of solid particles suspended in a biocompatible fluid. The solid particles contain one or more X-ray radiopaque materials. The biocompatible fluid can also contain one or more soluble X-ray radiopaque components. By controlling the composition of the solid particles, the composition of the biocompatible fluid, and the loading of the solid particles in the biocompatible fluid, the X-ray radiopacity and stability of the filler can be tailored to allow for improved discrimination of the filler within periodontal pockets, relative to adjacent soft tissue and teeth, so that the 3-D shape, volume, and depth of the pocket can be precisely and rapidly determined by X-Ray imaging.

Abstract: A power converter for converting DC power to DC power includes an inverter stage having two or more switched inverters configured to receive DC power from a source and produce a switched AC output power signal. A transformation stage is coupled to receive the switched output power signal from the inverter stage, shape the output power signal, and produce a shaped power signal. A rectifier stage having two or more switched inverters coupled to receive the shaped power signal and convert the shaped power signal to a DC output power signal is included. A controller circuit is coupled to operate the power converter in a variable frequency multiplier mode where at least one of the switched inverters is switched at a frequency or duty cycle that results in an output signal having a frequency that is a harmonic of the fundamental frequency being generated by the power converter.

Abstract: This invention provides a method for preparing a polycarbosilane by decomposition and rearrangement a cyclic silane compound or chain polysilane under the catalysis of a boron-containing catalyst in a trace amount (less than 1 wt %). In the method, poly(dimethylsilane) (denoted as PDMS) or a thermal decomposition product thereof, i.e., a liquid silane-carbosilane compound (denoted as LPS), is used as the raw material, less than 1 wt % of the boron-containing catalyst (with respect to the amount of the raw material) is added, and then the temperature is gradually increased to the reaction temperature under atmospheric pressure or high pressure to perform the thermal decomposition/rearrangement reaction so as to obtain solid polycarbosilane (PCS) with a higher ceramic yield.

Abstract: The present invention can operate a reflective semiconductor optical amplifier at ultrahigh speed using a polar return-to-zero (RZ) modulation method, and operate a reflective semiconductor optical amplifier (RSOA) whose modulation bandwidth is limited at ultrahigh speed by generating signals vertically symmetrical using a newly suggested polar RZ signal generator when generating an amplitude modulation signal at a transmission end. The present invention can overcome the problem that a modulation speed cannot be increased to 10 Gb/s or above due to signal distortion by inter-symbol-interference when generating an ultrahigh speed amplitude modulation signal using an RSOA of low price having a very narrow modulation bandwidth in an RSOA-based optical network.

Abstract: The present invention provides an antibody capable of specifically recognizing and detecting the highly specific cancer marker with respect to the epithelial ovarian cancer, or a fragment of the antibody. The present invention provides an anti-?1,3-N-acetylglucosaminyltransferase 3 antibody for diagnosis of epithelial ovarian cancer, i.e., an antibody for detection of a glycosyltransferase ?1,3-N-acetylglucosaminyltransferase 3 as an epithelial ovarian cancer marker. The antibody recognizes, as an epitope, a part of a polypeptide of the enzyme consisting of the amino acid sequence represented by SEQ ID NO: 1.

Abstract: An isolated peptide for inhibiting melanogenesis in a mammal subject is provided. The isolated peptide consisting of an amino acid sequence of SSASTTED (SEQ ID NO: 1). Also provided are methods and compositions for inhibiting melanogenesis in a mammal subject.

Abstract: This invention relates to molecular catalysts and chemical reactions utilizing the same, and particularly to catalysts and catalytic methods for reduction of molecular nitrogen. The molecular catalytic platform provided herein is capable of the facile reduction of molecular nitrogen under useful conditions such as room temperature or less and atmospheric pressure or less.

Abstract: The present invention relates to a novel monoclonal antibody which is specifically bound to a transmembrane 4 L six family member 5 (TM4SF5) protein. More particularly, the present invention relates to a monoclonal antibody which is specifically bound to a human TM4SF5 protein, to polynucleotides coding for the monoclonal antibody, to an expression vector comprising the nucleotides, to a transformant with the vector introduced thereto, to a method for preparing the monoclonal antibody, to a composition comprising the monoclonal antibody, to a method for treating liver fibrosis using the monoclonal antibody, to a method for treating cancer using the monoclonal antibody, to a method for inhibiting metastasis of cancer, to a method for diagnosing cancer using the monoclonal antibody and to a cancer diagnosis kit comprising the monoclonal antibody.

Abstract: An apparatus includes a processor and a storage storing instructions causing the processor to receive representation metadata indicating features of representation data to be generated from a plurality of representation portions, receive a command to generate at least one row of the representation data, determine a subset of data blocks of a data blob required to generate the at least one row, and a subset of node devices that store the subset of data blocks, for each node device of the subset of node devices, derive a node block map identifying at least one data item of a data block for generating a representation portion, transmit the node block maps to the subset of node devices; and transmit a command to the subset of node devices to each generate at least one row of one of the plurality of representation portions.

Abstract: A silicon carbide powder which, when used as a raw material in a sublimation recrystallization method, enables improvement in productivity of a silicon carbide single crystal by exhibiting a high sublimation rate and allowing a small amount of silicon carbide to remain without being sublimated, and enables an increase in size of the silicon carbide single crystal (for example, a single crystal wafer). The silicon carbide powder has a Blaine specific surface area of from 250 cm2/g to 1,000 cm2/g and a ratio of a silicon carbide powder having a particle size of more than 0.70 mm and 3.00 mm or less of 50 vol % or more with respect to a total amount of the silicon carbide powder. When a silicon carbide powder accommodated in a crucible is heated to be sublimated, a silicon carbide single crystal is formed on a seed crystal provided on an undersurface of a lid.

Abstract: Disclosed is a method of manufacturing a multicolor quantum dot pattern, the forming of a first quantum dot layer on the activated substrate includes: coating a polymer with a polarity opposite to a surface charge of the activated substrate or coating quantum dots having a functional group charged with a polarity opposite to a surface charge of the activated substrate onto the substrate; washing the substrate with water having pH 6 to pH 8; drying the substrate with flow of nitrogen, argon or air; coating quantum dots having a functional group charged with a polarity opposite to the polymer or the quantum dots charge coated on the substrate, or coating a polymer with a polarity opposite to the quantum dots charge coated on the substrate; washing the substrate with water having pH 6 to pH 8; and drying the substrate with flow of nitrogen, argon or air.

Abstract: Articles and methods for stem cell differentiation are generally described. In some embodiments, an article for stem cell differentiation may comprise an oxygen permeable substrate having at least a portion of a surface coated with a matrix. The matrix may allow the surface chemistry of the substrate to be altered, such that the cell-substrate surface interactions may be finely controlled without substantially affecting the oxygen permeability of the substrate. The surface chemistry may be altered to promote directed stem cell differentiation by, e.g., modification of the matrix surface with a specific density of biological molecules. In some embodiments, methods for stem cell differentiation may comprise directing the differentiation of stem cells on the articles, described herein, under suitable environmental conditions.

Abstract: An interference management method for a wireless communication system, an anchor apparatus, a base station and a wireless communication system thereof are provided. The method includes the following steps. Receiving at least one base station information from the plurality of base stations. Finding at least one interference relationship of the base stations according to the base station information, and grouping the base stations into the at least one cluster according to the interference relationship. Each of the at least one cluster includes at least one base station. Deciding a selected group of uplink-downlink (UL-DL) configurations related to one or more clusters of the at least one cluster, wherein the selected group includes at least one of the UL-DL configurations. And, informing the base stations in at least one cluster to adjust the UL-DL configurations of the base stations according to the selected group of UL-DL configurations.

Abstract: An organic amine decarbonization solution includes: i) one or more organic amines serving as a carbon dioxide absorbent; and ii) an antioxidant. The antioxidant includes: a) one or more organometallic complexes of Formula [Mx(L)y]An, wherein each M independently represents a central atom selected from the group consisting of transition metals, Group IVA metals and Group VA metals at a lower valence state; each L independently represents a bidentate or multidentate organic ligand with each ligating atom thereof being independently one of O, S, N and P; each A independently represents an uncoordinated counter-ion suitable for forming an outer sphere of a complex; x is 1, 2 or 3; y is 1, 2, 3, 4, 5, 6, 7 or 8; and n is 0, 1, 2, 3 or 4; and b) optionally one or more metal chelating agents.