Abstract: A biological substance detection method for detecting a biological substance specifically in a pathological specimen, includes a step of immunologically staining the pathological specimen using a fluorescent label, a step of staining the pathological specimen with a staining reagent for morphology observation purposes (eosin) to observe the morphology of the pathological specimen, a step of irradiating the stained pathological specimen with excited light to cause the emission of a fluorescent and detecting the biological substance in the pathological specimen. In the step of immunologically staining the pathological specimen, a special fluorescent particle for which the excitation wavelength appears in a region that is different from the excitation wavelength region of eosin is used as the fluorescent label.

Abstract: A tissue staining method which comprises: staining a tissue with a staining reagent wherein a biosubstance recognition site is bonded to particles carrying multiple fluorescent substances accumulated therein; in the stained tissue, counting fluorescent points or measuring fluorescent brightness; and evaluating the expression level of a biosubstance, which matches the biosubstance recognition site, in the aforesaid tissue on the basis of the number of the fluorescent points or fluorescent brightness that was measured.

Abstract: A tissue staining method which comprises: staining a tissue with a staining reagent wherein a biosubstance recognition site is bonded to particles carrying multiple fluorescent substances accumulated therein; in the stained tissue, counting fluorescent points or measuring fluorescent brightness; and evaluating the expression level of a biosubstance, which matches the biosubstance recognition site, in the aforesaid tissue on the basis of the number of the fluorescent points or fluorescent brightness that was measured.

Abstract: A tissue staining method which comprises: staining a tissue with a staining reagent wherein a biosubstance recognition site is bonded to particles carrying multiple fluorescent substances accumulated therein; in the stained tissue, counting fluorescent points or measuring fluorescent brightness; and evaluating the expression level of a biosubstance, which matches the biosubstance recognition site, in the aforesaid tissue on the basis of the number of the fluorescent points or fluorescent brightness that was measured.

Abstract: A biological substance detection method for detecting a biological substance specifically in a pathological specimen, includes a step of immunologically staining the pathological specimen using a fluorescent label, a step of staining the pathological specimen with a staining reagent for morphology observation purposes (eosin) to observe the morphology of the pathological specimen, a step of irradiating the stained pathological specimen with excited light to cause the emission of a fluorescent and detecting the biological substance in the pathological specimen. In the step of immunologically staining the pathological specimen, a special fluorescent particle for which the excitation wavelength appears in a region that is different from the excitation wavelength region of eosin is used as the fluorescent label.

Abstract: A biological substance detection method for detecting a biological substance specifically in a pathological specimen, comprising a step of immunologically staining the pathological specimen using a fluorescent label, a step of staining the pathological specimen with a staining reagent for morphology observation purposes (eosin) to observe the morphology of the pathological specimen, a step of irradiating the stained pathological specimen with excited light to cause the emission of a fluorescent and detecting the biological substance in the pathological specimen. In the step of immunologically staining the pathological specimen, a special fluorescent particle for which the excitation wavelength appears in a region that is different from the excitation wavelength region of eosin is used as the fluorescent label.

Abstract: Regions where metastatic cancer cells can exist are detected with high accuracy in a sentinel lymph node. Quantum dots are injected into the vicinity of a cancer in a living body, thereby identifying the location of the sentinel lymph node by means of fluorescence. Subsequently, the sentinel lymph node is extracted. With respect to the sentinel lymph node extracted with quantum dots injected, structural analysis is conducted by means of precision fluorescence measurement which uses a confocal fluorescence microscope for monomolecular observation. Specifically, the fluorescence intensity is measured with respect to each of multiple areas in the sentinel lymph nodes, and out of the multiple areas measured, one or more areas are detected as afferent lymph vessel inflow regions in descending order of fluorescence intensity.

Abstract: A semiconductor nanoparticle assembly including semiconductor nanoparticles having a core/shell structure, and wherein the semiconductor nanoparticles are bonded by means of amide bonds.

Abstract: Provided are an antibody which binds specifically PAR1 (protease activated receptor 1) or a fragment of the antibody which retains similar characteristics thereto; a composition containing the same for inhibiting the migration activity and invasion activity of cancer cells; and a medicinal composition for treating cancer and the like.

Abstract: Protein recognized by an antibody used as an active ingredient of an antibody medicine such as trastuzumab or an antibody used for targeting a target site of an active ingredient is highly accurately quantitatively determined by employing a quantitative tissue staining method of biological tissues, thereby providing a method for determining therapeutic effectiveness of a medicine containing such an antibody as a component.

Abstract: A highly accurate and quantitative method for determining cancer onset or cancer onset risk by a quantitative tissue staining method in biological tissues using an antibody capable of recognizing a cancer growth regulatory factor or cancer metastasis regulatory factor such as PAR1 antibody, which inhibits the cancer cell mobility and infiltration is provided.

Abstract: A tissue staining method which comprises: staining a tissue with a staining reagent wherein a biosubstance recognition site is bonded to particles carrying multiple fluorescent substances accumulated therein; in the stained tissue, counting fluorescent points or measuring fluorescent brightness; and evaluating the expression level of a biosubstance, which matches the biosubstance recognition site, in the aforesaid tissue on the basis of the number of the fluorescent points or fluorescent brightness that was measured.

Abstract: A semiconductor nanoparticle assembly including semiconductor nanoparticles having a core/shell structure, and wherein the semiconductor nanoparticles are bonded by means of amide bonds.

Abstract: A semiconductor nanoparticle aggregate containing semiconductor nanoparticles with a core/shell structure is formed by controlling with physical energy the aggregation state of an agglomerate from agglomerated semiconductor nanoparticles.

Abstract: A biological substance detection method for detecting a biological substance specifically in a pathological specimen, comprising a step of immunologically staining the pathological specimen using a fluorescent label, a step of staining the pathological specimen with a staining reagent for morphology observation purposes (eosin) to observe the morphology of the pathological specimen, a step of irradiating the stained pathological specimen, with excited light to cause the emission of a fluorescent and detecting the biological substance in the pathological specimen. In the step of immunologically staining the pathological specimen, a special fluorescent particle for which the excitation wavelength appears in a region that is different from the excitation wavelength region of eosin is used as the fluorescent label.

Abstract: The present invention is to provide an agent for treating Crohn's disease that is of unknown cause and for which no radical therapeutic drug is present. Provided is an agent for preventing or treating Crohn's disease, comprising an organic acid polymer represented by the following formula: [(O1/2)3Ge-A-CO2H]n, wherein n is 100-1,000, and A is a lower alkyl group. Preferably, A is a C1-C3 lower alkyl group and the degree of polymerization n is 200-900. The organic acid polymer according to the present invention is effective as an agent for treating Crohn's disease.

Abstract: Regions where metastatic cancer cells can exist are detected with high accuracy in a sentinel lymph node. Quantum dots are injected into the vicinity of a cancer in a living body, thereby identifying the location of the sentinel lymph node by means of fluorescence. Subsequently, the sentinel lymph node is extracted. With respect to the sentinel lymph node extracted with quantum dots injected, structural analysis is conducted by means of precision fluorescence measurement which uses a confocal fluorescence microscope for monomolecular observation. Specifically, the fluorescence intensity is measured with respect to each of multiple areas in the sentinel lymph nodes, and out of the multiple areas measured, one or more areas are detected as afferent lymph vessel inflow regions in descending order of fluorescence intensity.

Abstract: Provided are an antibody which binds specifically PAR1 (protease activated receptor 1) or a fragment of the antibody which retains similar characteristics thereto; a composition containing the same for inhibiting the migration activity and invasion activity of cancer cells; and a medicinal composition for treating cancer and the like.

Abstract: A digital camera includes an imaging unit provided in a camera body to take an image electrically, an optical finder provided at an edge portion of the body, and a display apparatus provided in the body to display the taken image. The display apparatus includes a panel including a display area arranged nearer to a rear surface of the body than the imaging unit in the body, a projection projecting outwardly from a part of a periphery of the display area, a looking-out portion at a predetermined part of the projection, and a pixel drive unit for driving matrix pixels of the display area at the remaining part of the projection. In the body, the area of the panel corresponds to a window formed in the rear surface, the looking-out portion of the projection overlaps with the finder, and the drive unit is arranged in a side of the finder.

Abstract: A dipeptidyl peptidase IV inhibitor which is satisfactory in respect of activity, stability and safety and has an excellent action as a pharmaceutical agent. A compound represented by the following general formula or a pharmaceutically acceptable salt thereof: wherein R1 and R2 each represents hydrogen, an optionally substituted C1-6 alkyl group, or —COOR5 whereupon R5 represents hydrogen or an optionally substituted C1-6 alkyl group, or R1, R2, and a carbon atom together represent a 3- to 6-membered cycloalkyl group, R3 represents hydrogen or an optionally substituted C6-10 aryl group, R4represents a hydrogen or a cyano group, D represents —CONR6-, —CO— or —NR6CO—, R6 represents hydrogen or an optionally substituted C1-6 alkyl group, E represents —(CH2)m— whereupon m is 1 to 3, —CH2OCH2—, or —SCH2—, n is 0 to 3, and A represents an optionally substituted bicyclic heterocyclic group or bicyclic hydrocarbon group.