A canal diameter reducer is placed within the intramedullary canal alongside an intramedullary rod to stabilize the intramedullary rod and prevent toggling and/or misalignment due to shear. The canal reducer is an elongated block which may be guided into position by a guide wire and may be held in p
A canal diameter reducer is placed within the intramedullary canal alongside an intramedullary rod to stabilize the intramedullary rod and prevent toggling and/or misalignment due to shear. The canal reducer is an elongated block which may be guided into position by a guide wire and may be held in position during insertion of the rod by a suture extending through hole 31. The reducer is inserted through an entry opening formed in the end of the fractured bone. The canal reducer may be fabricated from allograft bone or xenograft bone.
대표청구항▼
1. A process for reducing the toggle and/or misalignment of a fracture fixed with an intramedullary member which comprises forming an entry opening in the fractured bone in an end of the bone leading into the intramedullary canal, inserting a block through the entry opening into the intramedullary c
1. A process for reducing the toggle and/or misalignment of a fracture fixed with an intramedullary member which comprises forming an entry opening in the fractured bone in an end of the bone leading into the intramedullary canal, inserting a block through the entry opening into the intramedullary canal, positioning the block adjacent a proximal end of the intramedullary canal to reduce the diameter of the intramedullary canal adjacent the proximal end, and inserting an intramedullary member through the entry opening into the intramedullary canal to a position alongside said block such that the block extends around only a portion of a circumference of an outer surface of the intramedullary member, wherein the block is held in position adjacent the proximal end of the intramedullary canal as the intramedullary member is inserted into the intramedullary canal, and wherein at least a portion of the intramedullary member extends distally beyond the block towards a distal end of the intramedullary canal after insertion into the intramedullary canal. 2. The process of claim 1 additionally comprising providing said block with an aperture and guiding said block into the intramedullary canal by means of a guide wire extending through said aperture. 3. The process of claim 1 wherein the block is a canal diameter reducer comprising a block of material having a shape, size and dimension appropriate for being located within the intramedullary canal alongside an intramedullary member, said block stabilizing the intramedullary member and preventing toggling and/or misalignment due to shear. 4. The process of claim 1 wherein the block is a canal diameter reducer comprising an elongated block having a concave inner surface extending longitudinally of said block, said block being adapted to be placed in the intramedullary canal between an intramedullary member and the wall of the canal to prevent toggling and misalignment due to shear, said block being adapted to contact said intramedullary member with said concave inner surface. 5. The process of claim 1 wherein the block is a canal diameter reducer comprising an elongated bock having tapered ends and a concave inner surface extending longitudinally of said block, said block having a convex outer surface, said tapered ends extending from said convex outer surface to said concave inner surface and tapering in such a manner as to cause the outer surface to extend longitudinally a greater distance than said inner surface, said block being adapted to be placed in the intramedullary canal between an intramedullary member and the wall of the canal to prevent toggling and misalignment due to shear, said block being adapted to contact said intramedullary member with said concave inner surface. 6. The process of claim 1, wherein the block is held in position adjacent the proximal end of the intramedullary canal by a suture as the intramedullary mcmber is inserted into the intramedullary canal. 7. The process of claim 6, wherein the suture extends through an opening in the block, the opening extending in a direction transverse to a longitudinal axis of the block. 8. The process of claim 7, wherein the block is inserted over a guidewire. 9. The process of claim 8, wherein the guidewire extends through an aperture extending through the block along the longitudinal axis of the block. 10. The process of claim 1, wherein the intramedullary canal is an intramedullary canal of a tibia. 11. The process of claim 10, wherein the block has a concave inner surface configured to contact the intramedullary member, a convex outer surface configured to contact a wall of bone defining the intramedullary canal of the tibia, and tapered ends that extend from the convex outer surface to the concave inner surface such that the convex outer surface has a length along the longitudinal axis that is greater than a length of the concave inner surface along the longitudinal axis. 12. The process of claim 1, wherein the block is held in position adjacent the proximal end of the intramedullary canal by engagement of an outer surface of the block with a wall of hone defining the intramedullary canal as the intramedullary member is inserted into the intramedullary canal. 13. The process of claim 12, wherein the outer surface of the block includes a series of projections for engagement with the wall of hone to prevent movement relative to the wall of bone during insertion of the intramedullary member. 14. A process for reducing the toggle and/or misalignment of a fracture fixed with an intramedullary member which comprises forming an entry opening in the fractured bone in an end of the bone leading into the intramedullar canal insertin a block through the entry opening, into the intramedullary canal to reduce the diameter of the intramedullary canal, and inserting an intramedullary member through the entry opening into the intramedullary canal to a position alongside said block such that a first proximal portion of an outer surface of the intramedullary member is in contact with the block and a second proximal portion of the outer surface opposite the first proximal portion is spaced from the block; and attaching a suture to the block, holding the suture stationary relative to the bone so as to hold the block in place and prevent the block from being inserted further into the intramedullary canal when the intramedullary member is inserted into the intramedullary canal. 15. A process for reducing the toggle and/or misalignment of a fracture fixed with an intramedullary member which comprises forming an entry opening in an fractured bone in an end of the bone leading into the intramedullary canal, inserting a block through the entry opening into the intramedullary canal to reduce the diameter of the intramedullary canal, and inserting an intramedullary member through the entry opening into the intramedullary canal to a position alongside said block such that the block extends around only a portion of a circumference of an outer surface of the intramedullary member, wherein the block is a canal diameter reducer comprising an elongated block having a concave inner surface extending longitudinally of said block, said block having a convex outer surface which is provided with a series of projections for engagement with bone to prevent movement relative to bone, said block having tapered ends which extend from said convex outer surface to said concave inner surface and taper in such a manner as to cause the outer surface to extend longitudinally a greater distance than said inner surface, said block having a longitudinally extending aperture sized for reception of a guide wire, said block also having at least one hole therethrough for attachment of a suture, said block being adapted to be placed in the intramedullary canal with said concave inner surface in contact with an intramedullary member to prevent toggling and/or misalignment due to shear.
Klaue Kaj (Spiegal CHX) Brunner Hans (Waldenburg CHX) Perren Stephan M. (Davos Dorf CHX), Osteosynthetic pressure plate osteosynthetic compression plate.
Gie Graham A. (Lympstone GB2) Lawes Peter (Maidenhead GB2) Linder Lars (Gavle SEX) Ling Robin S. M. (Dittisham GB2) Slooff Tom J. (Westerbeek NLX), Preformed mantle.
Carpenter Charles W. (332 Bunn Hill Rd. Vestal NY 13850) Zubok Rafail (222 Spruce St. Midland Park NJ 07432), Reinforced spacer for stem-type prosthetic implants.
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