Abstract: A process for producing polymer particles having an antigen or an antibody introduced into the surface thereof, by carrying out miniemulsion polymerization using a monomer, a radical polymerization initiator, an emulsifier, and a hydrophobe in the presence of the antigen or antibody to thereby produce the polymer particles, is disclosed. According to the process, it is possible to provide a reagent for immunological analysis having an excellent detection sensitivity and capable of avoiding a nonspecific reaction which occurs in conventional methods.

Abstract: The present invention provides an apparatus for evaluating a drug effect enabling on-chip evaluation of the effect of a drug while the drug is acting on hERG-expressing cells. The present invention also provides a myocardial toxicity test apparatus and method therefor enabling in vitro myocardial toxicity testing that has previously been performed in vivo. A pulsating cell population and hERG-expressing cells (target model cells) are suitably isolated and arranged on a transparent substrate so that the two form gap junctions. The hERG-expressing cells are arranged on transparent electrodes provided on the transparent substrate. The hERG-expressing cells are exposed to a flow of a liquid containing a drug such that the drug acts thereon. The difference between the normal pulsation of hERG-expressing cells and the pulsation when a drug is acting thereon is captured via electric signals obtained from electrodes, and the properties of the change in potential are evaluated.

Abstract: A method of determining a kind of a sample, in a method for analyzing a substance by the steps of supplying the sample to be analyzed to a reaction system by a supplying means comprising a transparent region composed of a transparent material, reacting a reagent for detecting the substance with the sample in the reaction system, and analyzing a signal derived from a product obtained by the reaction, characterized by irradiating the transparent region with light in the supplying step, and analyzing an optical intensity of the light.

Abstract: A biomaterial structure containing a larger amount of biomaterial than the conventional art with maintaining the reactivity of the biomaterial is provided by linking particulate lumps in which the biomaterial is bound with a compound capable of binding to the biomaterial, wherein the particle diameter of the particulate lumps is 10 ?m or smaller.

Abstract: A monoclonal antibody that does not show a crossreactivity with middle-molecular weight (MMW) adiponectin and specifically reacts with high-molecular weight (HMW) adiponectin alone is disclosed. The monoclonal antibody of the present invention can be produced by using HMW adiponectin as an antigen. According to the monoclonal antibody of the present invention, a convenient, high-accurate, and versatile reagent for analyzing HMW adiponectin can be provided.

Abstract: [Problem] To provide a device and a method for examining myocardial toxicity, which can be realized in vitro in an equivalent manner as those conventionally carried out in vivo. [Means for Solving the Problem] A cell population as a pulsating pacemaker is arranged on a transparent substrate, and then myocardial pulsating cells are arranged while being spaced apart appropriately. An appropriate number of fibroblast cells are arranged with/connected to the myocardial pulsating cells to form a cell network. Each of the myocardial pulsating cells and fibroblast cells forming the network is arranged on a transparent electrode provided on the transparent substrate. This cell network can be optically observed. The cells forming the network are exposed to a flow of a solution containing a drug.

Abstract: Disclosed is a non-specific reaction inhibitor for use in an immunological measurement, comprising a complex of an antibody or a fragment of the antibody capable of specifically binding to a non-specific reaction factor, and a polymer. The non-specific reaction inhibitor can inhibit a non-specific reaction which may interfere with the accurate detection or quantification of a trace substance in an immunological measurement method.

Abstract: A method for determining an appropriate treatment option for a patient who has been diagnosed with disseminated intravascular coagulation (DIC) but who may have thrombotic thrombocytopenic purpura (TTP), by analyzing the amount and/or enzyme activity of a von Willebrand factor (vWF)-cleaving protease (ADAMTS13) and the amount of vWF in a patient that has been diagnosed with DIC is disclosed. Using the method of the present invention, a differential diagnosis of patients with thrombotic thrombocytopenic purpura (TTP) can be made from among patients diagnosed with DIC, which could not previously be distinguished on the basis of only clinical findings or known markers. Also disclosed is a kit for determining an appropriate treatment option, the kit comprising an antibody or a fragment thereof which specifically binds to ADAMTS13.

Abstract: For a method for inspecting in vivo migration of fat soluble vitamins and/or fat soluble food factors in the ingestion of a drug or a health supplement, it is necessary to use saliva as a specimen, to contact a saliva collecting tool with a certain amount of saliva to absorb for collection, and to select a solvent for efficiently extracting a measurement target component from the saliva collecting tool. Accordingly, there are provided a method for inspecting in vivo migration of fat soluble vitamins and/or fat soluble food factors in the ingestion of a drug or a health supplement, by using saliva as a specimen to determine; the property of a saliva collecting tool; and a method for extracting from the saliva collecting tool.

Abstract: Disclosed is a method for predicting about the carcinogenicity of a substance of interest in a rodent, which comprises the steps of: administering a solution of the substance to a test group and administering a solvent used in the solution to a control group; extracting mRNA from each of the test group and the control group, and measuring the expression level of mRNA for each of genes obtained by selecting at least one gene from (A) genes each comprising a nucleotide sequence depicted in any one of SEQ ID NOs: 1 to 5, (B) genes each comprising a nucleotide sequence depicted in any one of SEQ ID NOs: 6 to 8 and (C) genes each comprising a nucleotide sequence depicted in any one of SEQ ID NOs: 9 to 32; determining whether or not a significant difference in the level of mRNA expressed from the gene is observed between the test group and the control group; and determining that the substance has carcinogenicity when a significant difference in the level of the expression of mRNA from any one of the genes is observ

Abstract: A method of immunologically analyzing plasmin-digested products of stabilized fibrin, characterized by using a combination of a monoclonal antibody (a) which does not react with stabilized fibrin, fibrinogen, and plasmin-digested products of fibrinogen, but reacts with a neoantigen which is newly exposed in a D domain by digesting stabilized fibrin with plasmin, and a monoclonal antibody (b) which recognizes a site different from that recognized by the monoclonal antibody (a), and specifically reacts with plasmin-digested products of stabilized fibrin, wherein one of the monoclonal antibodies (a) and (b) is carried on a magnetic particle, and the other is labeled with an enzyme, and a chemiluminescent substrate is used as a substrate for the enzyme, is disclosed.

Abstract: Disclosed is an analysis method comprising the steps of: (a) reacting a substance to be analyzed with at least a specific partner which exhibits a selective interaction with the substance, converting a soluble substance to an insoluble substance by an insolubilization reaction, in correlation with the amount of the substance to be analyzed contained in a sample, and depositing the insoluble substance on a sensing part, and (b) electrically analyzing the insoluble substance deposited on the sensing part, wherein at least one of steps (a) and (b) is carried out under flow conditions.

Abstract: The present invention provides an apparatus for evaluating a drug effect enabling on-chip evaluation of the effect of a drug while the drug is acting on hERG-expressing cells. The present invention also provides a myocardial toxicity test apparatus and method therefor enabling in vitro myocardial toxicity testing that has previously been performed in vivo. A pulsating cell population and hERG-expressing cells (target model cells) are suitably isolated and arranged on a transparent substrate so that the two form gap junctions. The hERG-expressing cells are arranged on transparent electrodes provided on the transparent substrate. The hERG-expressing cells are exposed to a flow of a liquid containing a drug such that the drug acts thereon. The difference between the normal pulsation of hERG-expressing cells and the pulsation when a drug is acting thereon is captured via electric signals obtained from electrodes, and the properties of the change in potential are evaluated.

Abstract: A chip has been developed that can accurately measure cell potential and cell morphology on a single cell basis. The chip also constitutes a cardiac model that comprises a closed loop whereupon cardiomyocytes and fibroblasts are suitably dispersed and arranged, and that can evaluate the effects of a drug thereon. An in vitro cardiac reentry model chip is fabricated by constructing a closed loop comprising cardiomyocytes and fibroblasts arrayed on transparent electrodes formed on a transparent substrate by using a constitution where single cells are enclosed in a specific spatial configuration. A pulse wave of a random cardiomyocyte or a specific cardiomyocyte is propagated on both sides of the loop, and the pulsation status of the cells in the loop is detected electrically. A drug is applied to this cardiac reentry model chip, and the benefit or toxicity of the drug to cardiomyocytes is evaluated by measuring the cell potentials of individual cells.