Patent application number | Description | Published |
20090117615 | Recombinant mammal cells, method of producing thereof, and method of producing proteins of interest - The present invention relates to a method of expressing an objective protein at a high level and stably as well as for a long period even in the absence of a selection drug with a recombinant mammal cell. More particularly, the present invention relates to a method of producing an objective protein by providing a recombinant mammal cell having multiple copies of the exogenous objective protein gene expression unit integrated into a hypoxanthine-phosphoribosyl transferase enzyme (hprt) gene locus and culturing said cell. | 05-07-2009 |
20090205979 | Electrolyte-Containing Sheet For Use In Specific Detection Of Analyte Using Photocurrent - There is disclosed an electrolyte medium which makes it possible to significantly simplify device structure and detection procedure as well as to detect photocurrent with high sensitivity and accuracy, in specific detection of an analyte with use of photocurrent generated by photo-excitation of a sensitizing dye. The electrolyte-containing sheet comprises a hydrous substrate; and an electrolyte contained in the hydrous substrate. The electrolyte-containing sheet is used as an electrolyte medium in specific detection of an analyte with use of photocurrent generated by photo-excitation of a sensitizing dye. A gel matrix or a water-absorbent substrate can be used as the hydrous substrate. | 08-20-2009 |
20110014245 | THERAPEUTIC METHOD OF ADMINISTERING PHARMACEUTICAL TITANIUM DIOXIDE COMPOSITE AND LIGHT IRRADIATION - A titanium dioxide composite is provided that can be stably dispersed in an aqueous solvent and easily administered into a living body, such as human, and allows elimination of the drug efficacy of a pharmaceutical compound supported thereon by light irradiation and a dispersion thereof. A composite is used in which a pharmaceutical compound is bound to titanium dioxide having photocatalytic activity through a hydrophilic polymer. The composite is stable in an aqueous solvent and easily administered into a living body, and adverse drug reactions of the pharmaceutical compound can be reduced by administering the composite into the body and irradiating the composite with a light to photoexcite the titanium dioxide to decompose the pharmaceutical compound in a region where the drug efficacy of the pharmaceutical composition is not required. | 01-20-2011 |
20110060269 | METHOD FOR KILLING CELLS USING PHOTOCATALYTIC TITANIUM DIOXIDE PARTICLES - Photocatalytic titanium dioxide particles are disclosed having improved dispersibility into an aqueous solvent not only under neutral physiological conditions in vivo but also over a wide pH range, and improved cell affinity and cell uptake property. The photocatalytic titanium dioxide particles comprise particles comprising photocatalytic titanium dioxide and a cationic hydrophilic polymer modifying surfaces of the photocatalytic titanium dioxide particles, wherein the hydrophilic polymer is bonded to the photocatalytic titanium dioxide particles. The particles are very useful for medical applications, such as destruction of cancer cells, e.g., when administered to a mammal the titanium dioxide particles are taken up by cells of the mammal, and if then irradiated with UV light the particles kill the cells via photocatalytic degrading capability. | 03-10-2011 |
Patent application number | Description | Published |
20080261805 | Photocatalytic Titanium Dioxide Microparticle, Dispersion Liquid Thereof and Process for Producing the Same - Photocatalytic titanium dioxide particles are disclosed having improved dispersibility into an aqueous solvent not only under neutral physiological conditions in vivo but also over a wide pH range, and improved cell affinity and cell uptake property. The photocatalytic titanium dioxide particles comprise particles comprising photocatalytic titanium dioxide and a cationic hydrophilic polymer modifying surfaces of the photocatalytic titanium dioxide particles, wherein the hydrophilic polymer is bonded to the photocatalytic titanium dioxide particles. The photocatalytic titanium dioxide particles are very useful for medical applications, such as destruction of cancer cells. | 10-23-2008 |
20080262349 | Ultrasonic Cancer Treatment Enhancer and Cell Killer - There is provided an ultrasonic cancer treatment enhancer and cell killer that can significantly improve the effect of treating cancer by ultrasonic irradiation while ensuring a high level of safety. The ultrasonic cancer treatment enhancer and cell killer comprise metal semiconductor particles and can be activated upon ultrasonic irradiation to kill or destruct cancer cells. | 10-23-2008 |
20090130050 | Titanium Oxide Composite Particles, Dispersion Liquid Thereof, and Process for Producing Them - Disclosed are titanium oxide composite particles and a dispersion of the titanium oxide composite particles, which can improve retentivity in blood and accumulation in cancer cells while satisfactorily developing the catalytic activity of titanium oxide particles to be excited upon exposure to ultrasonic waves or ultraviolet light. The titanium oxide composite particles comprise titanium oxide particles; and a nonionic hydrophilic polymer bound to the surface of the titanium oxide particles through at least one functional group selected from carboxyl-group, amino group, diol group, salicylic acid group, and phosphoric acid group. The composite particles can be rendered cytotoxic upon ultrasonic or ultraviolet irradiation to efficiently kill cells to be killed, such as cancer cells. | 05-21-2009 |
20090294305 | Method for Specifically Detecting Analyte Using Photocurrent, and Electrode, Measuring Cell and Measuring Device for Use Therein - A method, an electrode, a measuring cell, and a measuring device are disclosed which can detect and quantitatively determine an analyte having specific bonding properties, in a highly sensitive, simple and accurate manner using photocurrent. This method comprises contacting a working electrode and a counter electrode with an electrolyte medium, wherein the working electrode has an analyte immobilized thereon through a probe substance and wherein the analyte is bonded to a sensitizing dye; irradiating the working electrode with light to photoexcite the sensitizing dye; and detecting photocurrent flowing between the working electrode and the counter electrode, wherein the photocurrent is generated by transfer of electrons from the photoexcited sensitizing dye to the working electrode. The working electrode comprises an electron accepting layer comprising an electron accepting substance capable of accepting electrons released from the sensitizing dye in response to photoexcitation, wherein the probe substance is supported on a surface of the electron accepting layer. The electron accepting substance is an oxide semiconductor having an energy level lower than that of a lowest unoccupied molecular orbit (LUMO) of the sensitizing dye. The electrolyte medium comprises an electrolyte and at least one solvent selected from an aprotic solvent and a protic solvent, wherein the electrolyte comprises a salt capable of providing an oxidized sensitizing dye with electrons. | 12-03-2009 |
20090297620 | Anti-Tumor Agent - Titanium oxide-antibody conjugated particles are disclosed, which are provided with selective binding ability without loss of dispersibility and catalytic activity by modifying titanium oxide conjugated particles, dispersed in a water-based solvent by a water-soluble polymer, with an antibody via a linker molecule bound without changing the nature of the water-soluble polymer. The present invention is an antitumor agent, comprising titanium oxide-antibody conjugated particles, wherein a linker molecule is bound to the titanium oxide surface of the titanium oxide conjugated particles, dispersed in a water-based solvent by a water-soluble polymer, via at least one functional group selected from a group consisting of a carboxyl group, an amino group, a diol group, a salicylic acid group, and a phosphoric acid group, and wherein the titanium oxide conjugated particles are further modified with an antibody via the linker molecule. This antitumor agent is concentrated in the affected area and can be utilized as an agent for diagnosis or for treatment in combination with ultrasonic irradiation. | 12-03-2009 |
20100136115 | Pharmaceutical Titanium Dioxide Composite Allowing Disappearance of Drug Efficacy By Light Irradiation - Disclosed is a titanium dioxide composite material which can be dispersed in an aqueous solvent stably and can be administered to a living body in a simple manner and in which the pharmacological effect of a therapeutic compound carried on the composite material can be eliminated by irradiation with light. Also disclosed is a dispersion product of the composite material. The composite material comprises titanium dioxide which has a photocatalytic activity and a therapeutic compound attached to the titanium dioxide through a hydrophilic polymer. The composite material is stable in an aqueous solvent and can be administered to a living body in a simple manner. After the composite material is administered to a living body, a site on the living body where the pharmacological effect of the therapeutic compound is not needed to be developed can be irradiated with light to induce the light excitation of titanium dioxide at the site, thereby decomposing the therapeutic compound to reduce any adverse side effect of the therapeutic compound. | 06-03-2010 |
Patent application number | Description | Published |
20110137235 | ULTRASONIC CANCER THERAPY ACCELERATOR - Provided is an ultrasonic cancer therapy accelerator comprising titanium oxide-metal complex particles showing a long-lasting antitumor effect imparted thereto while sustaining the dispersibility and catalytic activity thereof which are obtained by dispersing titanium oxide-metal complex particles in an aqueous solvent with the use of a water-soluble polymer and modifying the same with molecules containing a low-valent transition metal via linker molecules having been bound thereto without denaturing the water-soluble polymer. To the titanium oxide surface of titanium oxide-metal complex particles which have been dispersed in an aqueous solvent with the use of a water-soluble polymer, linker molecules are bound via at least one functional group selected from the group consisting of carboxyl, amino, diol, salicylate and phosphate groups followed by the modification with low-valent transition metal-containing molecules via the linker molecules. Thus, an ultrasonic cancer therapy accelerator, which comprises titanium oxide-metal complex particles showing a long-lasting antitumor effect imparted thereto while sustaining the dispersibility and catalytic activity thereof, can be provided. This ultrasonic cancer therapy accelerator, which accumulates in an affected area, can be used as a drug for therapy combined with ultrasonic irradiation. | 06-09-2011 |
20110193187 | ELECTRODE MEMBER FOR SPECIFIC DETECTION OF ANALYTE USING PHOTOCURRENT - Disclosed is an electrode member for specific detection of an analyte using a photocurrent. The electrode member has at least a conductive substrate and an electron-accepting substance provided on said conductive substrate. The aforementioned electron-accepting substance consists at least of a first substance layer that is made of a semiconductor and a second substance that is made of a semiconductor of a kind different from that of the aforementioned semiconductor, a metal or a metal oxide, and is carried on the surface of said first substance layer. With the electrode member, improved detection sensitivity for the test substance and improved measurement precision can be achieved with specific detection of an analyte using a photocurrent. | 08-11-2011 |
20110220517 | METHOD FOR SPECIFICALLY DETECTING TEST SUBSTANCE USING PHOTOCURRENT, SENSOR UNIT USED THEREFOR, AND MEASURING DEVICE - This invention provides a method for detecting an analyte, which, in specific detection of an analyte using photocurrent that is generated by photoexcitation of a sensitizing dye, can significantly simplify the structure and a detection procedure of a sensor unit and a device using the sensor unit and can realize detection with high accuracy, and also provides a sensor unit and a device using the sensor unit. According to the method, an analyte-containing sample solution and a sensitizing dye are brought into contact with the surface of a working electrode to immobilize the sensitizing dye onto the working electrode through specific binding. Subsequently, an electrolyte is supplied in situ while allowing the sample solution to be held without being removed to bring the working electrode and a counter electrode into contact with the electrolyte. The working electrode is irradiated with light to photoexcite the sensitizing dye and thus to detect photocurrent that flows across the working electrode and the counter electrode. | 09-15-2011 |
20120100627 | MEASUREMENT DEVICE USED FOR SPECIFICALLY DETECTING SUBSTANCE TO BE EXAMINED USING PHOTOCURRENT, SENSOR UNIT USED FOR SAME, AND METHOD FOR SPECIFICALLY DETECTING SUBSTANCE TO BE EXAMINED USING PHOTOCURRENT - In utilizing photocurrent generated in the photoexcitation of a dye in specific detection of an analyte, highly accurate detection can be realized by discharging charged current generated in the formation of a sensor unit and, in the detection of photocurrent of a plurality of detection spots provided on a working electrode, discharging photocurrent which is derived from a detection spot subjected to the latest photocurrent measurement and becomes noise current. The present invention provides a measuring apparatus comprising a sensor unit comprising a working electrode, a counter electrode, and an electrolyte-containing substance, a single or plurality of light sources that apply light to the working electrode, an XY moving device provided when the light source is moved relatively in an XY direction relative to the working electrode, an ammeter that measures current which flows across the working electrode and the counter electrode, and a discharge device that discharges charged current and photocurrent derived from a detection spot subjected to the latest photocurrent measurement. The specific detection method using the measuring apparatus is carried out by controlling the timing of light irradiation and the timing of connection to the ammeter and the discharge device. | 04-26-2012 |
20120270264 | DNA CONSTRUCT, AND PROCESS FOR PRODUCTION OF RECOMBINANT CHO CELL USING SAME - Disclosed is a DNA construct that is useful for efficient production of recombinant CHO cells useful for the production of target proteins. The DNA construct is a construct comprising, from a 5′ end toward a 3′ end, a first homologous DNA fragment, a target protein gene, and a second homologous DNA fragment. The first and second homologous DNA fragments have homology allowing for homologous recombination with a part of a hypoxanthine-phosphoribosyltransferase enzyme (hprt) locus in a CHO cell genome and have a chain length of not less than 1 kbp. | 10-25-2012 |
20130034875 | DNA CONSTRUCT, AND PROCESS FOR PRODUCTION OF RECOMBINANT CHO CELL USING SAME - Disclosed is a DNA construct that is useful for efficient generation of recombinant CHO cells useful for the production of target proteins. The DNA construct is a construct comprising, from a 5′ end toward a 3′ end, a first homologous DNA fragment, a target protein gene, and a second homologous DNA fragment. The first and second homologous DNA fragments have homology allowing for homologous recombination with a part of a hypoxanthine-phosphoribosyltransferase enzyme (hprt) locus in a CHO cell genome and have a chain length of not less than 1 kbp. | 02-07-2013 |