The present invention is directed to (1) a plating system having multiple and single locking mechanisms for general skeletal use other than in the anterior cervical spine; (2) an orthopedic plating system that permits a pair of bone screws to be inserted into a bone in a crossed over orientation and
The present invention is directed to (1) a plating system having multiple and single locking mechanisms for general skeletal use other than in the anterior cervical spine; (2) an orthopedic plating system that permits a pair of bone screws to be inserted into a bone in a crossed over orientation and locked to the plate; (3) a segmentable plating system which can be made to a selected length by the surgeon; and (4) a combination screw-lock-plating system for allowing and/or causing intersegmental compression of bone portions.
대표청구항▼
1. A plate system adapted for use in a human spine for contacting an aspect of at least two adjacent vertebral bodies, said plate system comprising: a plate having a longitudinal axis and a length sufficient to span a disc space and overlap portions of the at least two adjacent vertebral bodies, a l
1. A plate system adapted for use in a human spine for contacting an aspect of at least two adjacent vertebral bodies, said plate system comprising: a plate having a longitudinal axis and a length sufficient to span a disc space and overlap portions of the at least two adjacent vertebral bodies, a lower surface for placement against the at least two adjacent vertebral bodies and an upper surface opposite said lower surface;at least two bone screws each having a central longitudinal axis and being adapted to engage each of the at least two vertebral bodies, respectively, each of said at least two bone screws having a leading end for insertion through one of at least two bone screw receiving holes, respectively, and into the spine and a trailing end opposite said leading end, said at least two bone screws each having a head and including proximate said trailing end a contact surface area generally transverse to the central longitudinal axis and oriented toward said trailing end of said each of said at least two bone screws, respectively, said generally transverse contact surface areas being formed on said heads, said heads each including a downward facing surface being configured to contact said plate and oriented at least in part away from said trailing end of said each of said at least two bone screws, respectively, said heads each including a side surface between said trailing end and said downward facing surface of said each of said at least two bone screws, said side surface being closer to said trailing end than said generally transverse contact surface area is to said trailing end;said at least two bone screw receiving holes extending through said plate from said upper surface through said lower surface, at least a first of said bone screw receiving holes associated with a first of the vertebral bodies and at least a second of said bone screw receiving holes associated with a second of the vertebral bodies, each of said first and second bone screw receiving holes having a central longitudinal axis and being adapted to receive a respective one of said at least two bone screws to attach said plate to the spine, said each of said first and second bone screw receiving holes having a seat configured to contact said downward facing surface of said head of said respective one of said at least two bone screws; andat least one locking element, each of said at least one locking element adapted to lock to said plate only said respective one of said at least two bone screws inserted in one of said first and second bone screw receiving holes, said each of said at least one locking element contacting said generally transverse contact surface area and said side surface of said head of said respective one of said at least two bone screws so as to retain said respective one of said at least two bone screws to said plate, said each of said at least one locking element having an outer perimeter contacting at least a portion of a perimeter of said one of said first and second bone screw receiving holes when said each of said at least one locking element contacts said generally transverse contact surface area and said side surface of said head of said respective one of said at least two bone screws, said each of said at least one locking element being removably coupled to said plate, said each of said at least one locking element having a round inner surface adapted to contact said side surface of said head of said respective one of said at least two bone screws, wherein, when said each of said at least one locking element contacts said respective one of said at least two bone screws to retain said respective one of said at least two bone screws to said plate, said each of said at least one locking element has an upper surface oriented toward said upper surface of said plate, said upper surface of said each of said at least one locking element is convex in a plane parallel to the central longitudinal axis of said respective one of said at least two bone screws. 2. The plate system of claim 1, wherein said each of said first and second bone screw receiving holes has a side wall, said side wall having a groove configured to receive one of said at least one locking element. 3. The plate system of claim 2, wherein said groove in said side wall of said first bone screw receiving hole encircles the entire perimeter of said first bone screw receiving hole, and said groove in said side wall of said second bone screw receiving hole encircles the entire perimeter of said second bone screw receiving hole. 4. The plate system of claim 1, wherein said head of said respective one of said at least two bone screws has a round cross section through said side surface thereof and transverse to the central longitudinal axis of said respective one of said at least two bone screws. 5. The plate system of claim 4, wherein said each of said at least one locking element forms an interference fit with said side surface of said respective one of said at least two bone screws. 6. The plate system of claim 4, wherein said each of said at least one locking element clamps onto said side surface of said respective one of said at least two bone screws. 7. The plate system of claim 4, wherein said side surface of said head of said respective one of said at least two bone screws has a height and said round cross section of said head of said respective one of said at least two bone screws is through a midpoint of said height, said round inner surface of said each of said at least one locking element is adapted to contact said side surface of said head of said respective one of said at least two bone screws at said midpoint. 8. The plate system of claim 1, wherein said respective one of said at least two bone screws has a recess in said trailing end thereof for engagement by a tool for rotation of said respective one of said at least two bone screws, said each of said at least one locking element having an opening through the center thereof, said recess having a first cross sectional dimension transverse to the central longitudinal axis of said respective one of said at least two bone screws, and said opening having a second cross sectional dimension transverse to the central longitudinal axis of said respective one of said at least two bone screws when said each of said at least one locking element contacts said respective one of said at least two bone screws to retain said respective one of said at least two bone screws to said plate, said first cross sectional dimension of said recess being less than said second cross sectional dimension of said opening. 9. The plate system of claim 1, wherein said each of said first and second bone screw receiving holes has a side wall, said side wall having a groove configured to receive one of said at least one locking element, said groove in said side wall of said first bone screw receiving hole encircling the entire perimeter of said first bone screw receiving hole, and said groove in said side wall of said second bone screw receiving hole encircling the entire perimeter of said second bone screw receiving hole, said head of said respective one of said at least two bone screws having a round cross section through said side surface thereof and transverse to the central longitudinal axis of said respective one of said at least two bone screws, said respective one of said at least two bone screws having a recess in said trailing end thereof for engagement by a tool for rotation of said respective one of said at least two bone screws, said each of said at least one locking element having an opening through the center thereof, said recess having a first cross sectional dimension transverse to the central longitudinal axis of said respective one of said at least two bone screws, and said opening having a second cross sectional dimension transverse to the central longitudinal axis of said respective one of said at least two bone screws when said each of said at least one locking element contacts said respective one of said at least two bone screws to retain said respective one of said at least two bone screws to said plate, said first cross sectional dimension of said recess being less than said second cross sectional dimension of said opening. 10. The plate system of claim 1, further in combination with a fusion promoting substance. 11. A plate system adapted for use in a human spine for contacting an aspect of at least two adjacent vertebral bodies, said plate system comprising: a plate having a longitudinal axis and a length sufficient to span a disc space and overlap portions of the at least two adjacent vertebral bodies, a lower surface for placement against the vertebral bodies and an upper surface opposite said lower surface;at least two bone screw receiving holes extending through said plate from said upper surface through said lower surface, at least a first of said bone screw receiving holes associated with a first of the at least two adjacent vertebral bodies and at least a second of said bone screw receiving holes associated with a second of the at least two adjacent vertebral bodies, each of said first and second bone screw receiving holes having a central longitudinal axis and being adapted to receive one of at least two bone screws to attach said plate to the spine;said at least two bone screws each having a central longitudinal axis and being adapted to engage each of the at least two vertebral bodies, respectively, each of said bone screws having a leading end for insertion through one of said first and second bone screw receiving holes and into the spine and a trailing end opposite said leading end, at least one bone screw of said bone screws having proximate said trailing end a head adapted to block further forward motion of said at least one bone screw of said bone screws through said one of said first and second bone screw receiving holes of said plate, said head having an upper portion and a lower portion, said upper portion having a first upward facing surface oriented at least in part toward said trailing end of said at least one bone screw of said bone screws and said lower portion having an upward facing contact surface area oriented at least in part toward said trailing end of said at least one bone screw of said bone screws, said upper portion of said head having a round cross section and a first cross sectional dimension transverse to the central longitudinal axis of said at least one bone screw of said bone screws, and said lower portion of said head having a second cross sectional dimension transverse to the central longitudinal axis of said at least one bone screw of said bone screws, said first cross sectional dimension of said upper portion being less than said second cross sectional dimension of said lower portion, said at least one bone screw of said bone screws including proximate said trailing end a maximum cross sectional dimension transverse to the central longitudinal axis of said at least one bone screw of said bone screws, said at least one bone screw of said bone screws having said upward facing contact surface area at the maximum cross sectional dimension, said upward facing contact surface area having a generally flat portion, said upper portion of said head having a side surface configured to engage a locking element, said side surface having a height, and said round cross section being through a midpoint of said height, said lower portion of said head having a downward facing surface oriented away from said trailing end of said at least one bone screw of said bone screws that is configured to contact said plate; andat least one of said locking element, each of said at least one of said locking element adapted to lock to said plate only a respective one of said at least one bone screw of said bone screws inserted in said one of said first and second bone screw receiving holes, said each of said at least one of said locking element adapted to contact said generally flat portion of said upward facing contact surface area and said side surface of said upper portion of said head of said respective one of said at least one bone screw of said bone screws so as to retain said respective one of said at least one bone screw of said bone screws to said plate, said each of said at least one of said locking element having a rounded inner surface adapted to contact said side surface of said head of said respective one of said at least one bone screw of said bone screws proximate said midpoint, wherein said each of said at least one of said locking element is removably coupled to said plate, and when said each of said at least one of said locking element contacts said respective one of said at least one bone screw of said bone screws to retain said respective one of said at least one bone screw of said bone screws, said each of said at least one of said locking element has an upper surface oriented toward said upper surface of said plate, said upper surface of said each of said at least one of said locking element is convex in a plane parallel to the central longitudinal axis of said respective one of said at least one bone screw of said bone screws. 12. The plate system of claim 11, further in combination with a fusion promoting substance.
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이 특허에 인용된 특허 (201)
Errico Joseph P. ; Errico Thomas J. ; Ralph James D., Acetabular cup having polyaxial locking screws.
Lowery Gary (Gainesville FL) Sherman Michael C. (Memphis TN) Ray ; III Eddie F. (Cordova TN) Coates Bradley J. (Cordova TN), Anterior cervical plating system.
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Errico Joseph P. (P.O. Box 3070 Garden City NY 11531) Errico Thomas J. (5 Crest Acre Ct. Summit NJ 07901) Ralph James (71 Manito Ave. Oakland NJ 07436), Anterior spinal polyaxial locking screw plate assembly.
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Eitenmuller Jurgen (Brauweiler DEX) Offergeld Heinz (Monchen-Gladbach DEX) Michaeli Walter (Aachen DEX), Device for osteosynthesis and process for producing it.
Michelson, Gary K., Dynamic, modular, multilock anterior cervical plate system having detachably fastened assembleable and moveable segments and instrumentation for installation thereof.
Michelson, Gary K., Instrumentation for use with dynamic multilock anterior cervical plate system having non-detachably fastened and moveable segments.
Trml Pertti (Reikonkatu 7 C 7 SF-33730 Tampere FIX) Vainionp Seppo (Orapihlajatie 21-27 B 12 SF-00320 Helsinki FIX) Rokkanen Pentti (Marjaniemenranta 29 SF-00930 Helsinki FIX) Helevirta Pertti (Ojava, Layered surgical biocomposite material.
Michelson,Gary K., Method for installing dynamic, modular, multilock anterior cervical plate system having detachably fastened assembleable and moveable segments.
Bogert Roy (Lincoln Park NJ) Chapman Michael W. (Sacramento CA) Edwards Charles C. (Baltimore MD) Mears Dana C. (Pittsburgh PA), Multi purpose orthopedic ratcheting forceps.
Vignaud Jean-Louis (10 impasse Francois Audouin F-33400 Talence FRX) Henry Patrick (19 avenue de la Rpublique F-92400 Courbevoie FRX), Multi-function device for the osteosynthesis of rachis.
Foley Kevin T. (Memphis TN) Klara Peter M. (Norfolk VA) Maxwell Keith (Asheville NC) Middleton Lance (Memphis TN) Morrison Matthew M. (Memphis TN), Osteosynthesis apparatus.
Calderale Pasquale M. (Via Comissetti ; 11 Pianezza ITX 10044) Pipino Francesco (Via Torre di Brengola ; 4/6 Palese-Bari ITX 70057), Osteosynthesis means for the connection of bone fracture segments.
Laboureau Jacques Philippe (24 ; rue Fontaine Billenois Dijon F-21000 FRX) Dericks Gerard H. (3087 Noela Dr. Honolulu HI 96815), Osteosynthesis plate-staple.
Perren Stephan N. (Dorf CHX) Straumann Fritz (Waldenburg CHX) Sutter Franz (Niederdorf CHX) Tepic Slobodan (Davos CHX), Point contact bone compression plate.
Tepic Slobodan (Davos CHX) Perren Stephen (Davos Dorf CHX) Straumann Fritz (Waldenburg CHX) Sutter Franz (Niederdorf CHX), Point contact bone compression plate.
Errico Joseph P. (Hempstead NY) Errico Thomas J. (Summit NJ) Ralph James (Oakland NJ), Posterior spinal polyaxial locking lateral mass screw plate assembly.
Spector Myron (Charleston SC) Kwiatkowski George T. (Greenbrook NJ) Smarock Walter H. (Somerville NJ) Michno ; Jr. Michael J. (Somerville NJ), Prosthetic devices having coatings of selected porous bioengineering thermoplastics.
Gogolewski Sylwester (Alvaneu-Dorf CHX) Perren Stephan M. (Davos CHX), Self-locking resorbable screws and plates for internal fixation of bone fractures and tendon-to-bone attachment.
Gournay Jose,FRX ; Petit Dominique,FRX ; Saurat Jean,FRX, Threaded clamping plug for interconnecting two implants of a spinal osteosynthesis instrumentation or other implants.
Yuan Hansen A. (5066 Pine Valley Dr. Fayetteville NY 13064) Lin Chih-I (14292 Spring Vista La. Chino Hills CA 91709), Vertebral auxiliary fixation device.
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