Patents by Inventor Toshihiro Kasuga
Toshihiro Kasuga has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240252714Abstract: A bone-regeneration material comprising a biodegradable fiber produced using an electrospinning process, wherein the biodegradable fiber comprises 30 to 50 wt % of PLLGA resin and 70 to 50 wt % of ?-TCP fine particles substantially uniformly dispersed in the PLLGA resin without forming aggregates, wherein the ?-TCP fine particles are not chemically bonded to the PLLGA resin, and surroundings of the ?-TCP fine particles are covered by the PLLGA resin so that the ?-TCP fine particles are not separated from the biodegradable fiber during a formation of the fiber, and wherein the bone-regeneration material is sterilized by using radiation sterilization with gamma ray.Type: ApplicationFiled: April 9, 2024Publication date: August 1, 2024Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yasutoshi Nishikawa
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Patent number: 11969521Abstract: A bone-regeneration material that contains calcium phosphate particles in a biodegradable fiber containing PLGA by using electrospinning. A PLGA resin is heated in a kneader to soften until the viscosity of the resin becomes 102 to 107 Pa·s. A powder of calcium phosphate fine particles is added and mixed with the softened PLGA resin, while the blade of the kneader rotates. The mixture is kneaded by applying thermal and mechanical energy to the mixture through the continuous rotation of the blade of the kneader in the heated state, and aggregations of the calcium phosphate fine particles are disintegrated to prepare a composite in which the calcium phosphate fine particles are dispersed in the PLGA resin. The composite is dissolved in a solvent to prepare a spinning solution. Electrospinning is performed on the spinning solution to manufacture biodegradable fibers having therein the calcium phosphate fine particles substantially uniformly dispersed.Type: GrantFiled: April 3, 2020Date of Patent: April 30, 2024Assignees: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yasutoshi Nishikawa
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Publication number: 20240093409Abstract: A method for producing a cotton-wool like material for bone regeneration using a wet spinning method. 50-80 wt % of calcium salt particles and 50-20 wt % of PDLLGA resin are put into a mixing vessel, dissolved in acetone, and stirred to produce a spinning solution with a resin concentration of 10-20 wt % in which said calcium salt particles are dispersed. The produced spinning solution is filled in a syringe, and the spinning solution filled in the syringe is injected into a collector container filled with poor solvent by extruding the spinning solution from the discharge port of an injection needle having a predetermined diameter. The spinning solution injected into the poor solvent is solidified into fibers by interdiffusion of desorption of organic solvent and penetration of poor solvent in the poor solvent solution. The fibers solidified in the poor solvent are deposited in a floating state in the collector vessel without fiber-to-fiber adhesion and collected in a cotton-wool like shape.Type: ApplicationFiled: November 18, 2021Publication date: March 21, 2024Applicants: Nagoya Institute of Technology, ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Takashi Matsubara
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Publication number: 20210213163Abstract: Provided is a bone-regeneration material comprising biodegradable fibers and exhibiting antimicrobial properties at an early stage following surgery, A method for producing a bone-regeneration material having antimicrobial properties and comprising biodegradable fibers, wherein the bone-regeneration material is produced by a step in which the biodegradable fibers are immersed in an inositol phosphate solution, then subsequently immersed in a solution containing silver ions, the biodegradable fibers have an outer diameter of 10-100 ?m, contain at least 30 wt % or more of a biodegradable resin and 40 wt % or more of calcium compound particles, and some of the calcium compound particles are exposed on the surface of the biodegradable fibers.Type: ApplicationFiled: May 15, 2019Publication date: July 15, 2021Applicants: Meiji University, Nagoya Institute of Technology, Keio University, ORTHOREBIRTH CO. LTD.Inventors: Mamoru AIZAWA, Michiyo HONDA, Tomohiro YOKOTA, Kodai ABE, Mayu UEDA, Toshihiro KASUGA, Ken ISHII, Morio MATSUMOTO, Masashi MAKITA
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Patent number: 10814000Abstract: A guided bone regeneration material is disclosed. The guided bone regeneration material includes biodegradable fibers produced by an electrospinning method. The biodegradable fibers produced by the method include a silicon-releasing calcium carbonate and a biodegradable polymer. The silicon-releasing calcium carbonate is a composite of siloxane and calcium carbonate of vaterite phase. The biodegradable fibers may be coated with apatite. When the guided bone regeneration material is immersed in a neutral aqueous solution, silicon species ions are eluted from the calcium carbonate. The guided bone regeneration material excels in bone reconstruction ability.Type: GrantFiled: December 20, 2018Date of Patent: October 27, 2020Assignees: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, ORTHOREBIRTH CO., LTD., YAMAHACHI DENTAL MFG., CO., YABASHI INDUSTRIES, CO., LTD.Inventors: Toshihiro Kasuga, Yoshio Ota, Takashi Wakita
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Publication number: 20200289703Abstract: A bone-regeneration material that contains calcium phosphate particles in a biodegradable fiber containing PLGA by using electrospinning. A PLGA resin is heated in a kneader to soften until the viscosity of the resin becomes 102 to 107 Pa·s. A powder of calcium phosphate fine particles is added and mixed with the softened PLGA resin, while the blade of the kneader rotates. The mixture is kneaded by applying thermal and mechanical energy to the mixture through the continuous rotation of the blade of the kneader in the heated state, and aggregations of the calcium phosphate fine particles are disintegrated to prepare a composite in which the calcium phosphate fine particles are dispersed in the PLGA resin. The composite is dissolved in a solvent to prepare a spinning solution. Electrospinning is performed on the spinning solution to manufacture biodegradable fibers having therein the calcium phosphate fine particles substantially uniformly dispersed.Type: ApplicationFiled: April 3, 2020Publication date: September 17, 2020Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yasutoshi Nishikawa
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Patent number: 10646616Abstract: A bone-regeneration material that contains calcium phosphate particles in biodegradable fibers of PLGA manufactured by electrospinning. A PLGA resin is heated in a kneader until the resin viscosity becomes 102 to 107 Pa·s. A powder of calcium phosphate fine particles is added while the blade is rotated. The mixture is kneaded by continuous rotation of the blade in the heated state to disperse the calcium phosphate fine particles to obtain a composite having calcium phosphate fine particles dispersed in the PLGA resin. The composite is dissolved by a solvent, and the PLGA resin is completely dissolved by agitation for a prescribed duration to prepare a spinning solution in which the calcium phosphate fine particles are dispersed. Electrospinning is performed on the spinning solution to manufacture biodegradable fibers having therein the calcium phosphate fine particles substantially uniformly dispersed.Type: GrantFiled: April 28, 2017Date of Patent: May 12, 2020Assignees: National University Corporation Nagoya Institute of Technology, Orthorebirth Co., Ltd.Inventors: Toshihiro Kasuga, Yasutoshi Nishikawa
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Patent number: 10433892Abstract: Provided is a material for preventing bone cement from leaking out from bone during packing of the bone cement into a bone fracture site. The bone cement can be prevented from leaking out from the bone by employing a three-dimensional structure produced from a material containing a polyhydroxyalkanoate, when packing the bone cement into the bone fracture site.Type: GrantFiled: March 26, 2013Date of Patent: October 8, 2019Assignees: National University Corporation Nagoya University, National University Corporation Nagoya Institute of TechnologyInventors: Hitoshi Hirata, Takanobu Nishizuka, Tadahiro Natsume, Toshihiro Kasuga
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Publication number: 20190117774Abstract: A guided bone regeneration material is disclosed. The guided bone regeneration material includes biodegradable fibers produced by an electrospinning method. The biodegradable fibers produced by the method include a silicon-releasing calcium carbonate and a biodegradable polymer. The silicon-releasing calcium carbonate is a composite of siloxane and calcium carbonate of vaterite phase. The biodegradable fibers may be coated with apatite. When the guided bone regeneration material is immersed in a neutral aqueous solution, silicon species ions are eluted from the calcium carbonate. The guided bone regeneration material excels in bone reconstruction ability.Type: ApplicationFiled: December 20, 2018Publication date: April 25, 2019Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE O F TECHNOLOGY, YABASHI INDUSTRIES, CO., LTD., YAMAHACHI DENTAL MFG., CO., ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yoshio Ota, Takashi Wakita
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Publication number: 20180369382Abstract: A guided bone regeneration material is disclosed. The guided bone regeneration material includes biodegradable fibers produced by an electrospinning method. The biodegradable fibers produced by the method include a silicon-releasing calcium carbonate and a biodegradable polymer. The silicon-releasing calcium carbonate is a composite of siloxane and calcium carbonate of vaterite phase. The biodegradable fibers may be coated with apatite. When the guided bone regeneration material is immersed in a neutral aqueous solution, silicon species ions are eluted from the calcium carbonate. The guided bone regeneration material excels in bone reconstruction ability.Type: ApplicationFiled: August 31, 2018Publication date: December 27, 2018Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, YABASHI INDUSTRIES, CO., LTD., YAMAHACHI DENTAL MFG., CO., ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yoshio Ota, Takashi Wakita
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Patent number: 10159737Abstract: A guided bone regeneration material is disclosed. The guided bone regeneration material includes biodegradable fibers produced by an electrospinning method. The biodegradable fibers produced by the method include a silicon-releasing calcium carbonate and a biodegradable polymer. The silicon-releasing calcium carbonate is a composite of siloxane and calcium carbonate of vaterite phase. The biodegradable fibers may be coated with apatite. When the guided bone regeneration material is immersed in a neutral aqueous solution, silicon species ions are eluted from the calcium carbonate. The guided bone regeneration material excels in bone reconstruction ability.Type: GrantFiled: August 31, 2018Date of Patent: December 25, 2018Assignees: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, YABASHI INDUSTRIES CO., LTD., YAMAHACHI DENTAL MFG., CO., ORTHOREBIRTH CO., LTD.Inventors: Toshihiro Kasuga, Yoshio Ota, Takashi Wakita
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Patent number: 10092650Abstract: A guided bone regeneration material is disclosed. The guided bone regeneration material includes biodegradable fibers produced by an electrospinning method. The biodegradable fibers produced by the method include a silicon-releasing calcium carbonate and a biodegradable polymer. The silicon-releasing calcium carbonate is a composite of siloxane and calcium carbonate of vaterite phase. The biodegradable fibers may be coated with apatite. When the guided bone regeneration material is immersed in a neutral aqueous solution, silicon species ions are eluted from the calcium carbonate. The guided bone regeneration material excels in bone reconstruction ability.Type: GrantFiled: May 5, 2014Date of Patent: October 9, 2018Assignees: National University Corporation, Nagoya Institute of Technology, Yabashi Industries Co., LTD, Yamahachi Dental Mfg., Co, Orthorebirth Co. Ltd.Inventors: Toshihiro Kasuga, Yoshio Ota, Takashi Wakita
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Publication number: 20180280569Abstract: A bone-regeneration material that contains calcium phosphate particles in biodegradable fibers of PLGA manufactured by electrospinning. A PLGA resin is heated in a kneader until the resin viscosity becomes 102 to 107 Pa·s. A powder of calcium phosphate fine particles is added while the blade is rotated. The mixture is kneaded by continuous rotation of the blade in the heated state to disperse the calcium phosphate fine particles to obtain a composite having calcium phosphate fine particles dispersed in the PLGA resin. The composite is dissolved by a solvent, and the PLGA resin is completely dissolved by agitation for a prescribed duration to prepare a spinning solution in which the calcium phosphate fine particles are dispersed. Electrospinning is performed on the spinning solution to manufacture biodegradable fibers having therein the calcium phosphate fine particles substantially uniformly dispersed.Type: ApplicationFiled: April 28, 2017Publication date: October 4, 2018Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, ORTHOREBIRTH CO.LTD.Inventors: Toshihiro Kasuga, Yasutoshi Nishikawa
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Publication number: 20180021479Abstract: Rebuilding a defected bone by activating the innate self-regeneration ability of bone requires a considerably long period of time. The purpose of the present invention is to provide a bone defect filling material that initiates a bone rebuilding activity as quickly as possible after implantation and thereafter remains in the defect to continue promoting bone formation activity until sufficient bone formation has been achieved for the rebuilding of the defect. The present invention provides a cotton-like bone defect filling material comprising biodegradable fibers produced by electrospinning. The biodegradable fibers contain 40-60 wt % of calcium phosphate particles and 10 wt % or more of silicon-releasing calcium carbonate particles, with the remainder containing 30 wt % or more of poly(L-lactic acid) polymer, and the amount of the poly(L-lactic acid) polymer that is non-crystalline is 75-98%.Type: ApplicationFiled: August 25, 2017Publication date: January 25, 2018Applicants: ORTHOREBIRTH CO., LTD., NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGYInventors: Masashi Makita, Toshihiro Kasuga
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Patent number: 9539365Abstract: A fiber wadding for filling bone defects having a flocculent three-dimensional structure is disclosed. The fiber wadding includes a plurality of fibers that contain a biodegradable resin as a principal component and a siloxane. Outside diameter of the plurality of fibers of the wadding is from about 0.05 ?m to about 30 ?m. Bulk density of the fiber wadding is about 0.005-0.3 g/cm3.Type: GrantFiled: September 24, 2014Date of Patent: January 10, 2017Assignees: Orthorebirth Co. Ltd., Nagoya Institute of TechnologyInventors: Toshihiro Kasuga, Akiko Obata, Kie Fujikura, Yoshio Ota, Xianfeng Yao
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Patent number: 9498561Abstract: A method for producing a flocculent three dimensional fibrous bioactive material using an electrospinning process includes electrospinning a biodegradable fiber by applying an electrical charge to a nozzle of an electrospinning apparatus such that a spinning solution contained therein is made into an electrospun fiber, which is attracted toward a collector container that is electrically grounded and is filled with an ethanol liquid; receiving the electrospun fiber emitted from the nozzle on a surface of the ethanol liquid in the collector container; recovering and drying the electrospun fiber to obtain the flocculent three dimensional fibrous bioactive material having a bulk density of from about 0.01 g/cm3 to about 0.1 g/cm3 as measured in accordance with JIS L 1097.Type: GrantFiled: June 2, 2015Date of Patent: November 22, 2016Assignees: Orthorebirth Co. Ltd., Nagoya Institute of TechnologyInventors: Toshihiro Kasuga, Akiko Obata, Kie Fujikura, Yoshio Ota, Xianfeng Yao
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Publication number: 20160121024Abstract: Rebuilding a defected bone by activating the innate self-regeneration ability of bone requires a considerably long period of time. The purpose of the present invention is to provide a bone defect filling material that initiates a bone rebuilding activity as quickly as possible after implantation and thereafter remains in the defect to continue promoting bone formation activity until sufficient bone formation has been achieved for the rebuilding of the defect. The present invention provides a cotton-like bone defect filling material comprising biodegradable fibers produced by electrospinning. The biodegradable fibers contain 40-60 wt % of calcium phosphate particles and 10 wt % or more of silicon-releasing calcium carbonate particles, with the remainder containing 30 wt % or more of poly(L-lactic acid) polymer, and the amount of the poly(L-lactic acid) polymer that is non-crystalline is 75-98%.Type: ApplicationFiled: July 3, 2014Publication date: May 5, 2016Applicants: NATIONAL UNIVERSITY CORPORATION NAGOYA INSTITUTE OF TECHNOLOGY, Orthorebirth Co. Ltd.Inventors: Toshihiro Kasuga, Masashi Makita
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Publication number: 20150265750Abstract: A method for producing a flocculent three dimensional fibrous bioactive material using an electrospinning process includes electrospinning a biodegradable fiber by applying an electrical charge to a nozzle of an electrospinning apparatus such that a spinning solution contained therein is made into an electrospun fiber, which is attracted toward a collector container that is electrically grounded and is filled with an ethanol liquid; receiving the electrospun fiber emitted from the nozzle on a surface of the ethanol liquid in the collector container; recovering and drying the electrospun fiber to obtain the flocculent three dimensional fibrous bioactive material having a bulk density of from about 0.01 g/cm3 to about 0.1 g/cm3 as measured in accordance with JIS L 1097.Type: ApplicationFiled: June 2, 2015Publication date: September 24, 2015Inventors: Toshihiro Kasuga, Akiko Obata, Kie Fujikura, Yoshio Ota, Xianfeng Yao
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Publication number: 20150079147Abstract: A fiber wadding for filling bone defects having a flocculent three-dimensional structure is disclosed. The fiber wadding includes a plurality of fibers that contain a biodegradable resin as a principal component and a siloxane. Outside diameter of the plurality of fibers of the wadding is from about 0.05 ?m to about 30 ?m. Bulk density of the fiber wadding is about 0.005-0.3 g/cm3.Type: ApplicationFiled: September 24, 2014Publication date: March 19, 2015Inventors: Toshihiro Kasuga, Akiko Obata, Kie Fujikura, Yoshio Ota, Xianfeng Yao
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Publication number: 20150057669Abstract: Provided is a material for preventing bone cement from leaking out from bone during packing of the bone cement into a bone fracture site. The bone cement can be prevented from leaking out from the bone by employing a three-dimensional structure produced from a material containing a polyhydroxyalkanoate, when packing the bone cement into the bone fracture site.Type: ApplicationFiled: March 26, 2013Publication date: February 26, 2015Applicant: National University Corporation Nagoya UniversityInventors: Hitoshi Hirata, Takanobu Nishizuka, Tadahiro Natsume, Toshihiro Kasuga