Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

45 results about "Bone tendon bone" patented technology

A tendon is a band of tissue that connects muscle to bone. A ligament is an elastic band of tissue that connects bone to bone and provides stability to the joint. Cartilage is a soft, gel-like padding between bones that protects joints and facilitates movement.

Bone-tendon-bone implant

An implant for repairing soft tissue injuries is provided comprising at least one channel for receiving a soft tissue graft such as a tendon, ligament, or other soft tissue, to be implanted in a patient. The implant assembled with the graft is designed to fit into a bony defect, such as a graft tunnel, formed in bone of a patient. The implant can be biodegradable, and the implant-graft assembly has a pull-out strength sufficient to withstand everyday use during patient recovery.
Owner:OSTEOBIOLOGICS

Bone-tendon-bone assembly with allograft bone block and method for inserting same

The invention is directed toward a bone block, a bone-tendon-bone assembly and method of tendon reconstruction in which at least one tendon replacement is extended between two bone blocks and fixed within each of two bone tunnels in the bones of a joint using interference screws. Each bone block has a central through going bore and at least one substantially parallel channel longitudinally cut in the exterior of the bone block body in which the ligament replacements are seated. One end of each bone block has a rounded recess leading from the central bore to the exterior parallel channel.
Owner:MUSCULOSKELETAL TRANSPLANT FOUND INC

Self Fixing Assembled Bone-Tendon-Bone Graft

The present invention has multiple aspects relating to assembled self fixing bone-tendon-bone (BTB) grafts and BTB implants. A preferred application in which self fixing assembled bone-tendon-bone (BTB) grafts and implants of the present technology can be used is for ACL repairs in a human patient. In one embodiment, a self fixing BTB graft is characterized by the presence of threads along at least a portion of the exterior surface of one or both bone blocks. In another embodiment, a self fixing assembled bone-tendon-bone implant comprises a removable tendon tensioner which imparts a predetermined tension on the tendon of the BTB graft. In this embodiment, the tensioner can be narrower than the diameter of the bone blocks or can be threaded such that the threads are continuous with the threads of at least one of the bone blocks. The threads facilitate the simultaneous implantation of the leading and trailing bone blocks of the BTB graft in tapped (threaded) holes in the tibia and the femur of a recipient patient. The tensioner maintains the tension on the tendon and the spacing between the bone blocks until the leading bone block is fixed (threaded) in the tapped hole in the femur and the trailing bone block is fixed (threaded) into the tapped tibial bone tunnel. Once the bone blocks are substantially in their fixed positions, the tensioner is removed arthroscopically in the joint space between the tibia and the femur.
Owner:RTI BIOLOGICS INC

Bone tendon bone assembly with allograft bone block

The invention is directed toward a bone block, a bone-tendon-bone assembly and method of tendon reconstruction in which at least one tendon replacement is extended between two bone blocks and fixed within each of two bone tunnels in the bones of a joint using interference screws. Each bone block has a central through going bore and at least one substantially parallel channel longitudinally cut in the exterior of the bone block body in which the ligament replacements are seated. One end of each bone block has a rounded recess leading from the central bore to the exterior parallel channel.
Owner:MUSCULOSKELETAL TRANSPLANT FOUND INC

Bioabsorbable fasteners for preparing and securing ligament replacement grafts

InactiveUS20050149033A1Joint implantsLigamentsLigament structureGraft size
A bioabsorbable implantable device for replacing sutures in construction of a composite graft in ligament replacement surgery. In certain embodiments the device has a female component and a male component where the female component receives and secures the male component. In other embodiments the components of the device are in the shape of a rivet or a staple. The bioabsorbable implantable devices can be used for securing tendon grafts to bone blocks and for holding together the fibers of the tendon graft when the bone-tendon-bone graft is inserted into a patient during surgery. The bioabsorbable implantable device may also be part of a package for use in surgery. The package includes a sterile container for holding at least a graft that is of a predetermined length and width. The package may also include bone blocks. The package is marked as to the graft size including the width and the length of the graft. The graft and the bone blocks may be autogenous, allogenic or constructed from man-made materials.
Owner:MCGUIRE DAVID A

Assembled bone-tendon-bone grafts

ActiveUS20060200235A1Enhanced gripping featureHigh tensile strengthBone implantLigamentsBone CortexBone tendon bone
The present invention has multiple aspects. In its simplest aspect, the present invention is directed to an intermediate bone block comprising a machined segment of cortical bone, cancellous bone or both, the intermediate having a face comprising one to ten compression surfaces and one to ten cavities, the compression surfaces suitable for compressing soft tissue, the cavities for receiving and holding overflow soft tissue. The cavities are preferably channels, and more preferably channels having an omega cross-sectional profile. Surprisingly, the cavities and channels, which reduced the compressed surface area between the intermediate bone block and the tendon, significantly improved tendon load at failure. In standardized tests, an intermediate bone block of this invention, when combined with high surface area bone blocks of the prior art bone blocks, unexpectedly increased their load at failure. The invention is also directed to bone block assemblies suitable for binding to a soft tissue to form an implantable graft, and to such implantable grafts. A particularly preferred graft is a bone-tendon-bone graft.
Owner:RTI BIOLOGICS INC

Graft fixation system and method

A graft fixation device, system and method are disclosed for reconstruction or replacement of a ligament or tendon preferably wherein a soft tissue graft or a bone-tendon-bone graft is received and implanted in a bone tunnel. The graft fixation system includes a fixation device comprising a threaded body which is rotatably connected to a graft interface member. One embodiment of the implant / graft interface member includes an enclosed loop for holding a soft tissue graft. Another embodiment of the interface member includes a bone cage comprising a cage bottom and removable cage top to hold a bone block at one end of a bone-tendon-bone (BTB) graft. An additional embodiment of the interface member includes a one-piece bone cage which may be crimped or stapled to a bone block. The fixation device holds a graft in centered axial alignment in a bone tunnel. The body portion of the fixation device may be turned without imparting substantial twist to a graft attached to the device, due to the rotatable coupling between the threaded body and the interface member. The fixation device may be installed using a driver tool that has a shaft and an outer sleeve, wherein the driver may be used to twist the fixation device and independently exert a pushing or pulling force thereto. The graft fixation method may be used to install a fixation device by pulling or pushing it into a prepared bone tunnel while minimizing the possibility of abrasion or other damage to a graft attached to the fixation device.
Owner:AO TECH AG +1

Bone tendon bone assembly with cylindrical allograft bone block

The invention is directed toward a bone block, a bone-tendon-bone assembly and method of tendon reconstruction in which at least one tendon replacement is extended between two bone blocks and fixed within each of two bone tunnels in the bones of a joint using interference screws. Each bone block has a central through going bore and at least one substantially parallel channel longitudinally cut in the exterior of the bone block body in which the ligament replacements are seated. One end of each bone block has a rounded recess leading from the central bore to the exterior parallel channel.
Owner:MUSCULOSKELETAT TRANSPLANT FOUND

Transverse fixation technique for ACL reconstruction using bone-tendon-bone graft with loop at end

A surgical method for transosseous fixation of a bone-tendon-bone (BTB) graft into a joint is disclosed. A longitudinal tunnel formed in a bone is intersected by a transverse pin. A flexible strand is drawn with the pin through the bone. A portion of the strand is diverted so as to protrude out of the entrance to the longitudinal tunnel. The strand portion is attached to a loop extending from the bone block of the BTB graft, preferably by forming the loop around the strand. The strand attached to the bone block loop is retracted into the tunnel, drawing the attached BTB graft into the tunnel. The BTB graft is fixed in the tunnel using a transverse implant passed through the loop.
Owner:ARTHREX

Method and apparatus for coupling anatomical features

A method of coupling a first portion of an anatomy to a second portion of the anatomy includes coupling first and second bones of the anatomy with a bone-tendon-bone implant. The bone-tendon-bone implant has a first bone end, a second bone end and a replacement tendon between the first and second bone ends. The first and second bone ends are positioned in corresponding first and second bores of the first and second bones. The first bone end is secured to the first bone with a first bone anchor. A second anchor coupled to the bone-tendon-bone implant is passed through and outside the second bore. The second anchor is coupled to an adjustable suture construct having two adjustable suture loops. Tensioning at least one of first and second ends of the adjustable suture construct tensions the replacement tendon and positions the first bone relative to the second bone.
Owner:BIOMET SPORTS MEDICINE

Progressive Grip Assembled Bone-Tendon-Bone Grafts, Methods of Making, and Methods of Use

The present technology is related to the field of bone-tendon-bone implants, grafts, and components thereof, for implantation in mammals, particularly for implantation in humans. More particularly, the present technology relates to assembled implants that comprise a length of tendon and at least two bone components or intermediate bone blocks that are assembled to form a bone-tendon-bone implant, and methods of making such implants. In some embodiments, implants of the present technology provide a first grip on the tendon prior to implantation and a second grip during or after implantation. In some embodiments, bone block assemblies or intermediate bone blocks of the present technology have a first geometric configuration prior to implantation and a second geometric configuration during or after implantation.
Owner:RTI BIOLOGICS INC

Self fixing assembled bone-tendon-bone graft

ActiveUS7727278B2Tension on the tendon can be adjustedIncrease and decrease tensionLigamentsMusclesBone implantHuman patient
The present invention has multiple aspects relating to assembled self fixing bone-tendon-bone (BTB) grafts and BTB implants. A preferred application in which self fixing assembled bone-tendon-bone (BTB) grafts and implants of the present technology can be used is for ACL repairs in a human patient. In one embodiment, a self fixing BTB graft is characterized by the presence of threads along at least a portion of the exterior surface of one or both bone blocks. In another embodiment, a self fixing assembled bone-tendon-bone implant comprises a removable tendon tensioner which imparts a predetermined tension on the tendon of the BTB graft.
Owner:RTI BIOLOGICS INC

Bone-tendon- bone assembly with cancellous allograft bone block

The invention is directed toward a bone-tendon-bone assembly extended between two shaped cancellous bone blocks and a method of inserting same in a joint. Each substantially cylindrically shaped cancellous bone block has a central through going bore, a flat exterior longitudinal surface and a channel longitudinally cut in the exterior of the bone block body opposite the flat longitudinal surface. A tendon replacement member is inserted through the central through going bore around the end of each block and looped back along the flat longitudinal side with each block being in a reversed orientation position as to the other block. A channel cut in the exterior surface of each block is adapted to receive an interference screw to keep the block anchored in a bone tunnel previously cut in the respective bones of a joint.
Owner:MUSCULOSKELETAL TRANSPLANT FOUNDATI

Materials and methods for improved bone tendon bone transplantation

Disclosed herein is an improved Bone Tendon Bone graft for use in orthopedic surgical procedures. Specifically exemplified herein is a Bone Tendon Bone graft comprising one or more bone blocks having a groove cut into the surface thereof, wherein said groove is sufficient to accommodate a fixation screw. Also disclosed is a porcine bone tendon bone graft for use in orthopedic procedures. Also disclosed are multiple embodiments of assembled bone tendon bone blocks for use in orthopedic surgeries. Additionally, a method of harvesting grafts that has improved efficiency, increases the quantity of extracted tissue and minimizes time required by surgeon for implantation is disclosed.
Owner:RTI BIOLOGICS INC

Materials and Methods for Improved Bone Tendon Bone Transplantation

Disclosed herein is an improved Bone Tendon Bone graft for use in orthopedic surgical procedures. Specifically exemplified herein is a Bone Tendon Bone graft comprising one or more bone blocks having a groove cut into the surface thereof, wherein said groove is sufficient to accommodate a fixation screw. Also disclosed is a porcine bone tendon bone graft for use in orthopedic procedures. Also disclosed are multiple embodiments of assembled bone tendon bone blocks for use in orthopedic surgeries. Additionally, a method of harvesting grafts that has improved efficiency, increases the quantity of extracted tissue and minimizes time required by surgeon for implantation is disclosed.
Owner:RTI BIOLOGICS INC

Materials and methods for improved bone tendon bone transplantation

Disclosed herein is an improved Bone Tendon Bone graft for use in orthopedic surgical procedures. Specifically exemplified herein is a Bone Tendon Bone graft comprising one or more bone blocks having a groove cut into the surface thereof, wherein said groove is sufficient to accommodate a fixation screw. Also disclosed is a porcine bone tendon bone graft for use in orthopedic procedures. Additionally, Also a method of harvesting grafts that has improved efficiency, increases the quantity of extracted tissue and minimizes time required by surgeon for implantation is disclosed.
Owner:RTI BIOLOGICS INC

Bone block assemblies and their use in assembled bone-tendon-bone grafts

The present invention has multiple aspects. In its simplest aspect, the present invention is directed to an intermediate bone block comprising a machined segment of cortical bone, cancellous bone or both, the intermediate having a face comprising one to ten compression surfaces and one to ten cavities, the compression surfaces suitable for compressing soft tissue, the cavities for receiving and holding overflow soft tissue. The cavities are preferably channels, and more preferably channels having an omega cross-sectional profile. The invention is also directed to bone block assemblies suitable for binding to a soft tissue to form an implantable graft, and to such implantable grafts. A particularly preferred graft is a bone-tendon-bone graft.
Owner:RTI BIOLOGICS INC

Intermediate bone block and its use in bone block assemblies and assembled bone-tendon-bone grafts

ActiveUS20060200236A1Enhanced gripping featureHigh tensile strengthBone implantLigamentsBone CortexBone tendon bone
The present invention has multiple aspects. In its simplest aspect, the present invention is directed to an intermediate bone block comprising a machined segment of cortical bone, cancellous bone or both, the intermediate having a face comprising one to ten compression surfaces and one to ten cavities, the compression surfaces suitable for compressing soft tissue, the cavities for receiving and holding overflow soft tissue. The cavities are preferably channels, and more preferably channels having an omega cross-sectional profile. Surprisingly, the cavities and channels, which reduced the compressed surface area between the intermediate bone block and the tendon, significantly improved tendon load at failure. In standardized tests, an intermediate bone block of this invention, when combined with high surface area bone blocks of the prior art bone blocks, unexpectedly increased their load at failure. The invention is also directed to bone block assemblies suitable for binding to a soft tissue to form an implantable graft, and to such implantable grafts. A particularly preferred graft is a bone-tendon-bone graft.
Owner:RTI BIOLOGICS INC

Materials and methods for improved bone tendon bone transplantation

Disclosed herein is an improved Bone Tendon Bone graft for use in orthopedic surgical procedures. Specifically exemplified herein is a Bone Tendon Bone graft comprising one or more bone blocks having a groove cut into the surface thereof, wherein said groove is sufficient to accommodate a fixation screw. Also disclosed is a method of harvesting grafts that has improved efficiency and increases the quantity of extracted tissue and minimizes time required by surgeon for implantation.
Owner:RTI BIOLOGICS INC

Bone block assemblies and their use in assembled bone-tendon-bone grafts

The present invention has multiple aspects. In its simplest aspect, the present invention is directed to an intermediate bone block comprising a machined segment of cortical bone, cancellous bone or both, the intermediate having a face comprising one to ten compression surfaces and one to ten cavities, the compression surfaces suitable for compressing soft tissue, the cavities for receiving and holding overflow soft tissue. The cavities are preferably channels, and more preferably channels having an omega cross-sectional profile. Surprisingly, the cavities and channels, which reduced the compressed surface area between the intermediate bone block and the tendon, significantly improved tendon load at failure. In standardized tests, an intermediate bone block of this invention, when combined with high surface area bone blocks of the prior art bone blocks, unexpectedly increased their load at failure. The invention is also directed to bone block assemblies suitable for binding to a soft tissue to form an implantable graft, and to such implantable grafts. A particularly preferred graft is a bone-tendon-bone graft.
Owner:RTI BIOLOGICS INC

Bone tendon constructs and methods of tissue fixation

ActiveUS20150057750A1Overall graft is shortened significantlyShortening of the overall graftSuture equipmentsLigamentsBone tendon boneIliac screw
Techniques and reconstruction systems for ligament repair and fixation. A bone tendon graft is prepared by folding the bone block over a suspensory fixation device (for example, a knotless suture construct such as a knotless, adjustable, self-cinching suture loop / button construct, a suture, crosspin, or screw, etc.). A flexible strand is then used to suture the bone plug to the tendon so that the overall graft is shortened significantly and the suspensory fixation device is securely attached. The technique does not require passage of the suspensory fixation device through the bone block which makes the graft passage easier since the graft is pulled from the tip. The technique also allows shortening of the overall graft.
Owner:ARTHREX

Surgical device and method

A surgical device and method for fixation of a tissue graft into a bone is disclosed. A strand is coupled with the tissue graft. A guide wire is coupled with the strand. The tissue graft is positioned within a socket of the bone and a cannulated screw is driven along the guide wire and into the bone socket to form an interference fixation of the tissue and the tissue graft. The strand attached to the tissue graft is retracted from the bone socket through a strand aperture of the socket. The guide wire is then removed from the bone socket. A loop may be transposed between, and coupling, the tissue graft and the strand. The guide wire may alternatively be coupled with the loop and / or the strand. The tissue graft may be a tendon tissue or a bone-tendon-bone graft.
Owner:USHIBA JAMES

Intermediate bone block and its use in bone block assemblies and assembled bone-tendon-bone grafts

The present invention is directed to bone block assemblies suitable for binding to a soft tissue to form an implantable graft, and to such implantable grafts. A particularly preferred graft is a bone-tendon-bone graft. In its simplest aspect, the present invention is directed to an intermediate bone block comprising a machined segment of cortical bone, cancellous bone or both.
Owner:RTI BIOLOGICS INC

Materials and methods for improved bone tendon bone transplantation

Disclosed herein is an improved Bone Tendon Bone graft for use in orthopedic surgical procedures. Specifically exemplified herein is a Bone Tendon Bone graft comprising one or more bone blocks having a groove cut into the surface thereof, wherein said groove is sufficient to accommodate a fixation screw. Also disclosed is a porcine bone tendon bone graft for use in orthopedic procedures. Additionally, Also a method of harvesting grafts that has improved efficiency, increases the quantity of extracted tissue and minimizes time required by surgeon for implantation is disclosed.
Owner:RTI BIOLOGICS INC

Adjustable and fixed assembled bone-tendon-bone graft

The present invention relates to a bone-tendon-bone graft and components. Embodiments of the present invention comprise an intermediate bone block that is used to adjustably secure soft tissue (e.g., tendon) in a patient. Embodiments of intermediate bone blocks of the present invention are used singly or in combination with one or more bone blocks to form a bone block assembly for securing soft tissue. The present invention further relates to an assembled bone-tendon-bone graft for implantation in humans comprising the intermediate bone block and a length of soft tissue. A bone-tendon-bone graft comprises a length of soft tissue extending from a first assembled bone block to a second bone block and then doubles back to said first assembled bone block. Depending upon the embodiment, the second bone block fixedly or slideably attaches to the length of soft tissue and facilitates it doubling back to the first assembled bone block.
Owner:RTI BIOLOGICS INC

Method for inserting improved bone tendon bone assembly with allograft bone block

InactiveUS20050203621A1Provide strengthProvide to structureSuture equipmentsBone implantBone tunnelMedicine
The invention is directed toward a bone block, a bone-tendon-bone assembly and method of tendon reconstruction in which at least one tendon replacement is extended between two bone blocks and fixed within each of two bone tunnels in the bones of a joint using interference screws. Each bone block has a central through going bore and at least one substantially parallel channel longitudinally cut in the exterior of the bone block body in which the ligament replacements are seated. One end of each bone block has a rounded recess leading from the central bore to the exterior parallel channel.
Owner:MUSCULOSKELETAL TRANSPLANT FOUND INC

Device and method for mineralization of tissue engineering scaffold

The invention belongs to the field of tissue engineering, and relates to a tissue engineering scaffold mineralization device and a tissue engineering scaffold gradient mineralization method. The tissue engineering scaffold mineralization device includes a micro pump, an injector and a mineralization tank, wherein the micro pump is used for controlling output of a mineralized liquid, the injector is used for storing the mineralized liquid and outputting the mineralized liquid under the control action of the micro pump, and the mineralization tank is used for receiving the mineralized liquid; and an inclined support bracket is arranged on the mineralization tank, and is used for placing a tissue engineering scaffold. Through the tissue engineering scaffold mineralization device, gradient mineralization can be performed on a bone-tendon interface scaffold automatically and accurately.
Owner:XIANGYA HOSPITAL CENT SOUTH UNIV

Tension-reducing line for cruciate ligament reconstruction and knitting method thereof

InactiveCN107280809AHigh strengthAvoid early fractureLigamentsMusclesBone tunnelCruciate ligament
The invention relates to a tension-reducing suture for cruciate ligament reconstruction and a knitting method thereof and belongs to the technical field of anterior and posterior cruciate ligament reconstruction. The knitting method comprises five major steps of suture preparation, suture fixing, initial knitting, medium-term knitting and ending knitting. According to the tension-reducing suture for the cruciate ligament reconstruction and the knitting method thereof, a single suture is placed in the middle of a transplanted tendon after the suture is knitted. The knitting method can not only improve the intensity and overcome the disadvantage that a tension-reducing suture is prone to breakage at the early stage, but also play the role of internal fixation of the tension-reducing suture. During the period of ligament shaping and reconstruction, excessive stress simulation is prevented from being applied to constructed ligaments to prevent the constructed ligaments from being pulled long, so that constructed ligament healing is facilitated. Moreover, the diameter of the reconstructed ACL or PCL can be moderately increased to enable the ACL or PCL to be attached to the internal surface of a bone tunnel as much as possible to allow bone-tendon to be healed well as soon as possible.
Owner:李彦林
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Patsnap Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More
PatSnap group products