Patents by Inventor Mitsuya Urata
Mitsuya Urata 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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Patent number: 11517359Abstract: In order to apply, with a simple and easy means, proper pressure between bone segments spaced apart as a result of osteotomy or a bone fracture, without lowering the fixing force at the screw meshing portion, without increasing a dead space, and without increasing the thickness of the plate, the present invention provides a bone plate having an upper face, which is to be in contact with bone, a lower face, which is to be in contact with the bone, and a plurality of holes arranged to receive bone screws and connecting the upper face and the lower face. In at least one of the holes, a portion of an edge, on the upper face, of the hole is formed so as to be raised in the form of a protrusion higher than the upper face around the hole.Type: GrantFiled: December 9, 2020Date of Patent: December 6, 2022Assignee: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Kuroda, Yasuharu Yokoyama, Tomohiko Fukuhara, Masaki Atarashi, Kitaru Suzuki, Minoru Harada, Toshihisa Iwanaga, Mitsuya Urata
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Patent number: 11317925Abstract: An osteotomy surgical apparatus according to the present invention includes a bone cutting blade used for cutting bone tissue and a guard disposed so as to overlap the bone cutting blade in a side view of the bone cutting blade. A distal end of the guard is disposed at a position retracted rearward relative to a blade edge of the bone cutting blade.Type: GrantFiled: January 24, 2019Date of Patent: May 3, 2022Assignee: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Kuroda, Mitsuya Urata, Ryohei Takeuchi
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Patent number: 11253295Abstract: Provided is a vertebral spacer including a columnar main-body portion attached to individual cut end portions of the cut vertebral arch by screws, wherein the main-body portion is provided with two accommodating holes formed inside the main-body portion at positions spaced in a longitudinal direction of the main-body portion, and individually accommodating head portions of the screws, the individual accommodating holes are provided with openings through which the head portions are inserted into the accommodating holes from outside the main-body portion, and the openings have diameters greater than diameters of shaft portions of the screws, smaller than diameters of the head portions, and increased to a size that is greater than the diameters of the head portions.Type: GrantFiled: September 9, 2019Date of Patent: February 22, 2022Assignee: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Tomohiko Fukuhara, Koji Nishiyama, Koichi Kuroda, Mitsuya Urata, Katsuyoshi Sobue, Ryunosuke Seki
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Patent number: 11076899Abstract: A pressing tool for bone surgery according to the present invention includes a pressing member formed substantially columnar shape having, at one end, a pressing surface formed of a convex and substantially spherical surface; and a hook member formed to have a hook shape that is to be engaged with a surface of a bone, the hook member having a support portion at a first end, the support portion supporting the pressing member so that the pressing surface is directed toward a second end, and a projection portion at the second end, the projection portion projecting toward the supporting portion and being to be bited into the surface of the bone, wherein the support portion supports the pressing member in state of the pressing member is movable in a longitudinal direction toward the projection portion.Type: GrantFiled: January 23, 2019Date of Patent: August 3, 2021Assignee: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Kuroda, Mitsuya Urata, Ryohei Takeuchi
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Publication number: 20210177473Abstract: In order to apply, with a simple and easy means, proper pressure between bone segments spaced apart as a result of osteotomy or a bone fracture, without lowering the fixing force at the screw meshing portion, without increasing a dead space, and without increasing the thickness of the plate, the present invention provides a bone plate having an upper face, which is to be in contact with bone, a lower face, which is to be in contact with the bone, and a plurality of holes arranged to receive bone screws and connecting the upper face and the lower face. In at least one of the holes, a portion of an edge, on the upper face, of the hole is formed so as to be raised in the form of a protrusion higher than the upper face around the hole.Type: ApplicationFiled: December 9, 2020Publication date: June 17, 2021Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi KURODA, Yasuharu YOKOYAMA, Tomohiko FUKUHARA, Masaki ATARASHI, Kitaru SUZUKI, Minoru HARADA, Toshihisa IWANAGA, Mitsuya URATA
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Patent number: 10932831Abstract: A bone plate includes: a band-shaped body section that is fixed along a longitudinal direction of the tibia; a transverse section that is fixed along a direction intersecting the longitudinal direction of the tibia; a joining section for joining the body section and the transverse section; and screw holes. The body section, the joining section, and the transverse section have a curved surface shape, a first plane on which the axial line of a screw hole in the joining section is disposed and a second plane on which the axial line of a screw hole in the body section is disposed are substantially parallel to each other, the angles between a straight line connecting a longitudinal direction upper-end portion and lower-end portion of the bone plate and the first plane and the second plane are predetermined angles, and an axial line and an axial line are at twisted positions.Type: GrantFiled: November 5, 2018Date of Patent: March 2, 2021Assignee: OLYMPUS CORPORATIONInventors: Koichi Kuroda, Mitsuya Urata
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Patent number: 10905480Abstract: The bone plate of the present invention includes a body portion to be fixed to an obliquely anterior medial surface of the tibia below the osteotomy surface; a wide portion to be fixed to an outer peripheral surface of the tibia at a higher position than the osteotomy surface; a connecting portion that connects the body portion and the wide portion; and a plurality of screw holes arrayed in the body portion, the wide portion and the connecting portion. An inner surface that extends from the wide portion to the connecting portion and faces the tibia has a continuous curved shape twisted about an axis along the longitudinal direction of the tibia. The wide portion is offset in an outward plate thickness direction with respect to the body portion.Type: GrantFiled: November 27, 2018Date of Patent: February 2, 2021Assignee: OLYMPUS CORPORATIONInventors: Koichi Kuroda, Mitsuya Urata, Ryohei Takeuchi
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Publication number: 20200000499Abstract: Provided is a vertebral spacer including a columnar main-body portion attached to individual cut end portions of the cut vertebral arch by screws, wherein the main-body portion is provided with two accommodating holes formed inside the main-body portion at positions spaced in a longitudinal direction of the main-body portion, and individually accommodating head portions of the screws, the individual accommodating holes are provided with openings through which the head portions are inserted into the accommodating holes from outside the main-body portion, and the openings have diameters greater than diameters of shaft portions of the screws, smaller than diameters of the head portions, and increased to a size that is greater than the diameters of the head portions.Type: ApplicationFiled: September 9, 2019Publication date: January 2, 2020Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Tomohiko FUKUHARA, Koji NISHIYAMA, Koichi KURODA, Mitsuya URATA, Katsuyoshi SOBUE, Ryunosuke SEKI
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Publication number: 20190175235Abstract: A pressing tool for bone surgery according to the present invention includes a pressing member formed substantially columnar shape having, at one end, a pressing surface formed of a convex and substantially spherical surface; and a hook member formed to have a hook shape that is to be engaged with a surface of a bone, the hook member having a support portion at a first end, the support portion supporting the pressing member so that the pressing surface is directed toward a second end, and a projection portion at the second end, the projection portion projecting toward the supporting portion and being to be bited into the surface of the bone, wherein the support portion supports the pressing member in state of the pressing member is movable in a longitudinal direction toward the projection portion.Type: ApplicationFiled: January 23, 2019Publication date: June 13, 2019Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi KURODA, Mitsuya URATA, Ryohei TAKEUCHI
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Publication number: 20190150945Abstract: An osteotomy surgical apparatus according to the present invention includes a bone cutting blade used for cutting bone tissue and a guard disposed so as to overlap the bone cutting blade in a side view of the bone cutting blade. A distal end of the guard is disposed at a position retracted rearward relative to a blade edge of the bone cutting blade.Type: ApplicationFiled: January 24, 2019Publication date: May 23, 2019Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Kuroda, Mitsuya Urata, Ryohei Takeuchi
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Publication number: 20190090921Abstract: The bone plate of the present invention includes a body portion to be fixed to an obliquely anterior medial surface of the tibia below the osteotomy surface; a wide portion to be fixed to an outer peripheral surface of the tibia at a higher position than the osteotomy surface; a connecting portion that connects the body portion and the wide portion; and a plurality of screw holes arrayed in the body portion, the wide portion and the connecting portion. An inner surface that extends from the wide portion to the connecting portion and faces the tibia has a continuous curved shape twisted about an axis along the longitudinal direction of the tibia. The wide portion is offset in an outward plate thickness direction with respect to the body portion.Type: ApplicationFiled: November 27, 2018Publication date: March 28, 2019Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi KURODA, Mitsuya URATA, Ryohei TAKEUCHI
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Publication number: 20190069937Abstract: A bone plate includes: a band-shaped body section that is fixed along a longitudinal direction of the tibia; a transverse section that is fixed along a direction intersecting the longitudinal direction of the tibia; a joining section for joining the body section and the transverse section; and screw holes. The body section, the joining section, and the transverse section have a curved surface shape, a first plane on which the axial line of a screw hole in the joining section is disposed and a second plane on which the axial line of a screw hole in the body section is disposed are substantially parallel to each other, the angles between a straight line connecting a longitudinal direction upper-end portion and lower-end portion of the bone plate and the first plane and the second plane are predetermined angles, and an axial line and an axial line are at twisted positions.Type: ApplicationFiled: November 5, 2018Publication date: March 7, 2019Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi KURODA, Mitsuya URATA
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Patent number: 10143503Abstract: A bone plate is provided with: a strip-shaped main-body portion that is secured, along a longitudinal direction of a tibia, to an oblique anterior inner surface of the tibia below a cut formed in an inner surface of the tibia; a transverse portion that is secured to an inner surface of the tibia above the cut along a direction that intersects the longitudinal direction of the tibia; and a joining portion that joins the main-body portion and the transverse portion, wherein the transverse portion and the main-body portion are provided with a plurality of screw holes that are arrayed with spaces between each other and that pass therethrough in plate-thickness directions.Type: GrantFiled: September 21, 2016Date of Patent: December 4, 2018Assignee: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Kuroda, Mitsuya Urata, Masaki Yoshida
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Publication number: 20170007304Abstract: A bone plate is provided with: a strip-shaped main-body portion that is secured, along a longitudinal direction of a tibia, to an oblique anterior inner surface of the tibia below a cut formed in an inner surface of the tibia; a transverse portion that is secured to an inner surface of the tibia above the cut along a direction that intersects the longitudinal direction of the tibia; and a joining portion that joins the main-body portion and the transverse portion, wherein the transverse portion and the main-body portion are provided with a plurality of screw holes that are arrayed with spaces between each other and that pass therethrough in plate-thickness directions.Type: ApplicationFiled: September 21, 2016Publication date: January 12, 2017Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi KURODA, Mitsuya URATA, Masaki YOSHIDA
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Publication number: 20090198278Abstract: To provide a spinous process spacer that can be stably inserted and fixed between split faces of a split spinous process in a gapless manner, without made-to-order production for each patient. There is provided a spinous process spacer (1) for insertion between split halves of a spinous process resulting from longitudinal splitting of the spinous process, wherein the spinous process spacer is formed in an approximately cylindrical shape and the opposite end faces (2, 3) thereof are constituted by planes which mutually form a fixed angle.Type: ApplicationFiled: June 5, 2007Publication date: August 6, 2009Applicant: OLYMPUS TERUMO BIOMATERIALS CORP.Inventors: Koichi Shibata, Hiroyuki Irie, Mitsuya Urata, Satoshi Ojima