Abstract: 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.

Abstract: A method and apparatus for surgically coupling a soft tissue replacement into a tunnel of a bone are disclosed. The method includes forming a loop of a soft tissue or soft tissue replacement. A pair of prosthetics are coupled to the loop of soft tissue to form an artificial bone-tendon-bone graft. The prosthetics and soft tissue are then placed within a tunnel formed in a bone. The relative position of the prosthetic is then fixed with respect to the tunnel.

Abstract: The invention provides a method of functionally connecting a portion of the peripheral nervous system of a vertebrate to a portion of the central or peripheral nervous system of said vertebrate, comprising the steps of bringing the portion of the peripheral nervous system and the portion of the central or peripheral nervous system close to each other, applying to the gap between the two portions a fibrin glue mixture comprising a growth factor, fibrinogen, aprotinin and divalent calcium ions so that the fibrin glue mixture is simultaneously in contact with the two portions, and forming an attachment between the portion of the peripheral nervous system and the portion of the central or peripheral nervous system of said vertebrate.

Abstract: 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.

Abstract: Various methods of ligament reconstruction are provided that can include extending a filament from at least one end of a graft having at least two ends, threading the graft through a first aperture in a first bone anchor, using the filament to affix the at least two ends of the graft to a second aperture of a second bone anchor, affixing the first bone anchor in hone, and affixing the second bone anchor in bone.

Abstract: A biological surgical patch made by a method that includes the steps of providing a natural animal tissue that has a substrate, crosslinking and fixing the substrate, minimizing the antigens from the substrate, tanning the substrate, and incorporating an active layer in the substrate.

Abstract: Methods and devices are provided for regenerating a meniscus. The devices comprise a layer of toughened naturally occurring extracellular matrix. The devices may, optionally, further comprise a biologic material to provide a framework for meniscus regeneration. The methods comprise the steps of removing a portion of a meniscus to provide a space, and inserting a device comprising a layer of toughened naturally occurring extracellular matrix into the space.

Abstract: It is described a construct for use in surgical repair of tendon. The construct contains at least one layer of human amnion and chorion tissues and is generally cylindrical with a C-shaped cross-section to allow for ease of implantation over the tendon. Methods for preparing the construct is described. In addition, an improved method for surgical repair of a damaged or diseased tendon using the construct is also described. The improved method reduces adhesions, scar formation, inflammation and risk of post-operative infection.

Abstract: A cartilage repair device comprises a scaffold, for example a naturally occurring extracellular matrix material, and a biological lubricant. The biological lubricant is applied to the naturally occurring extracellular matrix material.

Abstract: 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.

Abstract: A biocompatible ligament repair implant or scaffold device is provided for use in repairing a variety of ligament tissue injuries. The repair procedures may be conducted with ligament repair implants that contain a biological component that assists in healing or tissue repair. The biocompatible ligament repair implants include a biocompatible scaffold and particles of viable tissue derived from ligament tissue or tendon tissue, such that the tissue and the scaffold become associated. The particles of living tissue contain one or more viable cells that can migrate from the tissue and populate the scaffold.

Abstract: The invention provides composition and methods for repairing a ruptured anterior cruciate ligament.

Abstract: A prosthesis for implantation into a human body is made by a method that includes the steps of providing a natural animal ligament or tendon that has a substrate, crosslinking and fixing the substrate, minimizing the antigens from the substrate, tanning the substrate to improve its mechanical properties, and coupling an active layer to the substrate.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: The invention relates to a method of treatment of collagenous connective tissue removed from a donor for implant into a recipient which is re-habited or re-colonized by host cells without an immune rejection and inflammatory reaction. After removal from the donor the tissue is trimmed and thereafter soaked in a cold stabilizing solution having a temperature range of 4 to 10 degrees centigrade. The tissue is then soaked at a predetermined temperature in a polyglycol, salt, hydrogen peroxide, and phosphate buffer first solution of predetermined quantities and concentrations and of sufficient ionic strength to permit ground substances to dissociate such that the collagen fibers remain stable. The tissue is then soaked in an alcohol and water solution at a predetermined temperature for a sufficient period of time to remove the residue of the first solution.

Abstract: The invention relates to a method of treatment of collagenous connective tissue removed from a donor for implant into a recipient which is re-habited or re-colonized by host cells without an immune rejection and inflammatory reaction. After removal from the donor, the tissue is trimmed and thereafter soaked in a cold stabilizing solution having a temperature range of 4 to 10 degrees centigrade. The tissue is then soaked at a predetermined temperature in a polyglycol, salt, hydrogen peroxide, and phosphate buffer first solution of predetermined quantities and concentrations and of sufficient ionic strength to permit ground substances to dissociate such that the collagen fibers remain stable. The tissue is then soaked in an alcohol and water solution at a predetermined temperature for a sufficient period of time to remove the residue of the first solution.

Abstract: A prosthesis for implantation into a human body is made by a method that includes the steps of providing a natural animal ligament or tendon that has a substrate, crosslinking and fixing the substrate, minimizing the antigens from the substrate, tanning the substrate to improve its mechanical properties, and coupling an active layer to the substrate.

Abstract: A method and apparatus for fixing a ligament in a bone tunnel by cross-pinning the ligament in the bone tunnel.

Abstract: Disclosed herein is processed dermis graft for use in orthopedic surgical procedures. Specifically exemplified herein is a processed dermis 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 processing dermis that results in a dermis derived implant suitable to replace a tendon or ligament in a recipient in need thereof. Other compositions and applications of a dermis derived implant, and methods of manufacture and use, are disclosed.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: Methods for repairing a cartilage defect in a subject, such methods comprising placing a tissue specimen into a container, centrifuging the container to separate the specimen into at least three fractions, drawing a selected fraction from the container, processing the fraction into a therapeutic composition, and treating the cartilage defect with the therapeutic composition.

Abstract: A system and method are provided for forming a connective tissue construct, such as a tendon construct, in vitro. A substrate is provided with at least two anchors secured thereto in spaced relationship. Fibroblast cells are provided on the substrate in the absence of a synthetic matrix, where at least some of the cells are in contact with the anchors. The cells are cultured in vitro under conditions to allow the cells to self-organize and become confluent between the anchors, where the anchors are receptive to the cells and allow the cells to attach thereto while permitting the cells to detach from the substrate to form a three-dimensional connective tissue construct.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: The present invention relates to connective tissue substitute implant and method of preparation thereof. The implant is essentially composed of two bone anchors joined at the proximal ends by matrix layers and/or filaments coated by supplementary biocompatible matrix coating layer which can contain living stem cells isolated from injured connective tissue.

Abstract: The present invention relates to connective tissue substitute implant and method of preparation thereof. The implant is essentially composed of two bone anchors joined at the proximal ends by matrix layers and/or filaments coated by supplementary biocompatible matrix coating layer which can contain living stem cells isolated from injured connective tissue.

Abstract: 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.

Abstract: A graft ligament for cross-pinning in a bone tunnel, the ligament comprising a tendon having first, second and third portions in series along the length thereof. The first and third portions are provided with cross-sectional thicknesses less than the cross-sectional thickness of the second portion. The tendon first and third portions are folded over and attached to the second portion to provide a graft ligament having a substantially uniform thickness along the length thereof.

Abstract: A new approach for reconstructing a ligament, the new approach comprising: creating a bone tunnel within a host bone, the bone tunnel having a proximal end and a distal end, and defining a central axis extending from the proximal end to the distal end; creating an intervening layer of bone between the central axis of the bone tunnel and a rigid portion of the host bone, the intervening layer having a first side and a second side in opposition to one another, the first side of the intervening layer facing toward the central axis of the bone tunnel and the second side of the intervening layer facing toward the rigid portion of the surrounding host bone; and compressing the intervening layer of bone against a graft ligament positioned within the bone tunnel.

Abstract: 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.

Abstract: The invention relates to a method of treatment of collagenous connective tissue removed from a donor for implant into a recipient which is re-habited or re-colonized by host cells without an immune rejection and inflammatory reaction. After removal from the donor, the tissue is trimmed and thereafter soaked in a cold stabilizing solution having a temperature range of 4 to 10 degrees centigrade. The tissue is then soaked at a predetermined temperature in a polyglycol, salt, hydrogen peroxide, and phosphate buffer first solution of predetermined quantities and concentrations and of sufficient ionic strength to permit ground substances to dissociate such that the collagen fibers remain stable. The tissue is then soaked in an alcohol and water solution at a predetermined temperature for a sufficient period of time to remove the residue of the first solution.

Abstract: The present invention relates to an implantable cage for holding tissue graft material. The cage includes a chamber configured and dimensioned to receive the tissue graft material and at least one side wall defining the chamber. In one embodiment, the cage is made of a biodegradable material. In another embodiment, the cage is made of a material that includes a bone-growth enhancer.

Abstract: The invention provides compositions and methods for repairing intra-articular and extra-articular tissue including ligament, meniscus, cartilage, tendon, and bone. The method includes contacting the ends of an injured tissue from a patient with a composition. The repair composition includes soluble type 1 collagen, a platelet, and at least one of an extracellular protein and a neutralizing agent.

Abstract: Disclosed herein is processed dermis graft for use in orthopedic surgical procedures. Specifically exemplified herein is a processed dermis 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 processing dermis that results in a dermis derived implant suitable to replace a tendon or ligament in a recipient in need thereof. Other compositions and applications of a dermis derived implant, and methods of manufacture and use, are disclosed.

Abstract: A matrix, including epithelial basement membrane, for inducing repair of mammalian tissue defects and in vitro cell propagation derived from epithelial tissues of a warm-blooded vertebrate.

Abstract: Connective tissue, including neo-tendons and ligaments, has been constructed using biodegradable synthetic scaffolds seeded with tenocytes. The scaffolds are preferably formed from biodegradable fibers formed of a polymer such as polyglycolic acid-polylactic acid copolymers, and seeded with cells isolated from autologous tendon or ligament by means of enzymatic digestion or direct seeding into tissue culture dishes from explants. The cell polymer constructs are then surgically transplanted to replace missing segments of functioning tendon or ligament.

Abstract: A connective tissue scaffold including opposed first and second anchoring segments formed from a plurality of bioresorbable polymeric fibers oriented in a direction substantially parallel to a longitudinal axis of the scaffold and a plurality of bioresorbable polymeric fibers oriented in a direction substantially transverse to a longitudinal axis of the scaffold. A central segment joins the first and second anchoring segments and includes a plurality of bioresorbable polymeric fibers oriented in a direction substantially parallel to the longitudinal axis of the scaffold. The scaffold can also a tissue particle and/or biological component.

Abstract: An alloplastic ligament has a surface covered by titanium or aluminum oxide ceramic, or by zirconium oxide ceramic or by tantalum, so that the synthetic material of the ligament is not in direct contact with the surrounding body environment. A ligament prosthesis, in particular an artificial cruciate ligament, has ends for securing the alloplastic ligament to the bone, in particular to the femur and the tibia, by a hollow screw of self-cutting outer screw threads for screwing into the bone and with inner screw threads. A sleeve having outer screw threads for screwing into the hollow screw and with a securement of the ligament end on the sleeve is also provided.

Abstract: The invention concerns a device and methods for providing implants, cells or tissues, for example for grafts or in vitro research cultures, of tissue engineering or cellular therapy. The invention is particularly adapted to produce, in sufficient amount, specific cell populations with high proliferation and/or differentiation potential, adapted for use in tissue engineering, in repair surgery or therapy, particularly for humans. The invention also concerns a method for preparing such a device and its uses, in particular for treating tissue loss, and kits, tranplants, tissues or biological preparations.

Abstract: A method for preparing a soft tissue xenograft includes the steps of removing at least a portion of a soft tissue from a non-human animal to provide a xenograft; washing the xenograft in saline and alcohol: subjecting the xenograft to cellular disruption treatment; and either digesting the xenograft with a glycosidase or glycosidase digestion followed by treatment for sialylation. A soft tissue xenograft for implantation into a human includes a portion of a soft tissue from a non-human animal, wherein the portion has extracellular matrix and substantially only dead cells. The matrix and dead cells have substantially no surface &agr;-galactosyl moieties and have sialic acid molecules linked to at least a portion of surface carbohydrate moieties. Each of the xenografts of the invention has substantially the same mechanical properties as a corresponding native soft tissue.

Abstract: An apparatus and method for the reconstruction of a previously torn ligament using a tissue-engineered ligament. The tissue-engineered ligament includes a scaffold of biocompatible material having at least one layer and forming a sheet. The scaffold is placed in a cultured medium for seeding with fibrocyte forming cells. The seeded scaffold is then placed in an incubator to increase the number of cells. The seeded scaffold is then formed into a slender structure suitable for implantation. The method of making a tissue-engineered ligament includes forming a scaffold of biocompatible material having at least one layer forming a sheet. Next, the scaffold sheet is seeded with fibrocyte forming cells. The method further includes increasing the number of cells on the seeded scaffold and forming a slender structure suitable for implantation from the scaffold.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: 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.

Abstract: 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.

Abstract: A method of reconstructing a joint having two bones separated by cartilaginous material is provided. The method comprises the steps of removing a portion of the cartilaginous material to create a defect site, positioning an anatomically shaped reconstructive structure comprising multiple layers of submucosa and having a thickness of about 1 to about 12 millimeters adjacent to the defect site, and securing the reconstructive structure to the defect site. The method can further comprise the steps of positioning a barrier layer between the bleeding bone and the reconstructive structure, securing the barrier layer to the bleeding bone, and securing the reconstructive structure to the barrier layer.

Abstract: The invention relates to an implant that replaces tendons, especially the interior cruciate ligament of the knee. The inventive implant comprises a first (10) and a second (12) base from spongy and/or cortical and/or cortical/spongy bone material of human or animal origin, linked via a flexible collagen strip (14) and adapted to be fixed in a corresponding implant seat by pressing.

Abstract: A method for preparing a soft tissue xenograft includes the steps of removing at least a portion of a soft tissue from a non-human animal to provide a xenograft; washing the xenograft in saline and alcohol; subjecting the xenograft to cellular disruption treatment; and either digesting the xenograft with a glycosidase or glycosidase digestion followed by treatment for sialylation. A soft tissue xenograft for implantation into a human includes a portion of a soft tissue from a non-human animal, wherein the portion has extracellular matrix and substantially only dead cells. The matrix and dead cells have substantially no surface &agr;-galactosyl moieties and have sialic acid molecules linked to at least a portion of surface carbohydrate moieties. Each of the xenografts of the invention has substantially the same mechanical properties as a corresponding native soft tissue.

Abstract: This invention relates to a spinal facet joint ligament.

Abstract: Living fibrocytes are combined with rotator cuff extracellular matrix obtained from recently deceased human or animal donors to eliminate pain in patients with tendonitis and other rotator cuff deficiencies. According to the method, fibrocytes from a living donor, preferably the patient, and rotator cuff tissue is harvested from a recently deceased human or animal donor in a manner which retains the extracellular matrix. The harvested cells are combined with the extracellular matrix to produce an engineered rotator cuff tissue, which is then transplanted into or onto a patient's rotator cuff to be repaired. Additional therapeutic substances such as culture medium, growth factors, differentiation factors, hydrogels, polymers, antibiotics, anti-inflammatory medications, or immunosuppressive medications could be added to the transplanted annulus fibrosis tissue.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: A graft prostheses (11), materials and method for implanting, transplanting, replacing, or repairing a part of a patient. The graft prosthesis includes a purified, collagen-based matrix structure delaminaetd from a submucosa tissue source. The submucosa tissue source is purified to remove contaminants, thereby making the purified and delaminated structure biocompatible and suitable for grafting on and/or in a patient.