Abstract: A tendon/ligament repair implant for treatment of tears or lesions of tendons and ligaments, including capsular reconstruction, and compositions for delivering calcium and/or phosphate ions in combination with a collagen solution that can be placed between soft tissue and bone to facilitate healing of the soft tissue-bone interface are provided. The implant may incorporate features of rapid deployment and fixation by arthroscopic means that complement current procedures; tensile properties that result in desired sharing of anatomical load between the implant and native tendon during rehabilitation, or, in situations where the native tissue cannot be repaired tensile properties that provide for substitution of the native tissue selected porosity and longitudinal pathways for tissue in-growth; and may include an at least partially bioabsorbable construction to provide transfer of additional load to new tendon-like tissue and native tendon over time.

Abstract: Fixation devices for tissue repair, for example sutures, surgical arrows, staples, darts, bolts, screws, buttons, anchors, nails, rivets, or barbed devices comprise at least one of angiogenic material; angiogenic precursor material which is capable of breaking down in vivo to form angiogenic material; or tissue-engineered material, which tissue-engineered material is capable of producing angiogenic material. In a preferred form, the material is incorporated into a polymer matrix having predetermined hydrophobicity to allow controlled release of angiogenic materials such as butyric or hydroxybutyric acid or salts thereof. Polymer matrix compositions comprising angiogenic materials and methods for tissue repair are also provided.

Abstract: Fixation devices for tissue repair, for example sutures, surgical arrows, staples, darts, bolts, screws, buttons, anchors, nails, rivets, or barbed devices comprise at least one of angiogenic material; angiogenic precursor material which is capable of breaking down in vivo to form angiogenic material; or tissue-engineered material, which tissue-engineered material is capable of producing angiogenic material. In a preferred form, the material is incorporated into a polymer matrix having predetermined hydrophobicity to allow controlled release of angiogenic materials such as butyric or hydroxybutyric acid or salts thereof. Polymer matrix compositions comprising angiogenic materials and methods for tissue repair are also provided.

Abstract: Fixation devices for tissue repair, for example sutures, surgical arrows, staples, darts, bolts, screws, buttons, anchors, nails, rivets, or barbed devices comprise at least one of angiogenic material; angiogenic precursor material which is capable of breaking down in vivo to form angiogenic material; or tissue-engineered material, which tissue-engineered material is capable of producing angiogenic material. In a preferred form, the material is incorporated into a polymer matrix having predetermined hydrophobicity to allow controlled release of angiogenic materials such as butyric or hydroxybutyric acid or salts thereof. Polymer matrix compositions comprising angiogenic materials and methods for tissue repair are also provided.

Abstract: The invention relates to methods and apparatus for therapeutically treating connective tissue or increasing vascularization in tissue using ultrasound. More particularly, the present invention relates to methods and apparatus which use ultrasound to stimulate growth or healing, or to treating pathologies, of connective tissue, or to increase vascularization in ischaemic or grafted tissue using ultrasound.

Abstract: Fixation devices for tissue repair, for example sutures, surgical arrows, staples, darts, bolts, screws, buttons, anchors, nails, rivets, or barbed devices comprise at least one of angiogenic material; angiogenic precursor material which is capable of breaking down in vivo to form angiogenic material; or tissue-engineered material, which tissue-engineered material is capable of producing angiogenic material. In a preferred form, the material is incorporated into a polymer matrix having predetermined hydrophobicity to allow controlled release of angiogenic materials such as butyric or hydroxybutyric acid or salts thereof. Polymer matrix compositions comprising angiogenic materials and methods for tissue repair are also provided.

Abstract: The invention relates to methods and apparatus for therapeutically treating connective tissue or increasing vascularization in tissue using ultrasound. More particularly, the present invention relates to methods and apparatus which use ultrasound to stimulate growth or healing, or to treating pathologies, of connective tissue, or to increase vascularization in ischaemic or grafted tissue using ultrasound.