Abstract: Described herein are techniques to aid clinicians and researchers in determining a condition of connective tissue as it relates to tissue development, growth and maturation, tissue remodeling and healing following injury, and risk of injury based on a magnetic resonance (MR) image of the tissue. Such techniques may be useful to clinicians by providing insights on factors that influence the growth and maturation of connective tissues as well as those that impact the risk of connective tissue injury and response to treatment. These insights can be used in a variety of ways, including to guide or develop patient specific risk assessment and prevention strategies, treatment plans, and postoperative care plans for individuals at risk of connective tissue injuries and those with injured connective tissues, such as an anterior cruciate ligament (ACL) injury.

Abstract: The present disclosure provides biomaterials and methods for preventing and minimizing progression of cartilage and/or connective tissue damage. Also provided herein are biomaterials and methods for alleviating and/or reducing the risk for developing arthritis (e.g., osteoarthritis) associated with joint injury and/or joint surgery.

Abstract: The present disclosure provides biomaterials and methods for preventing and minimizing progression of cartilage and/or connective tissue damage. Also provided herein are biomaterials and methods for alleviating and/or reducing the risk for developing arthritis (e.g., osteoarthritis) associated with joint injury and/or joint surgery.

Abstract: The current subject matter provides a tool for evaluating the risk of failure or the likelihood of success of surgery of healing ligaments and tendons in the body. In some embodiments, a region of a scan comprising one or more of an anterior cruciate ligament (ACL) or an ACL graft can be defined. A magnetic resonance (MR) imaging data set can be obtained. MR parameters characterizing a size and a quality of the ACL or ACL graft can be derived using the MR data. The MR parameters can be used as inputs to a predictive model. A score characterizing a likelihood of failure of the ACL or ACL graft in a human patient can be generated using the predictive model.

Abstract: The current subject matter provides a tool for evaluating the risk of failure or the likelihood of success of surgery of healing ligaments and tendons in the body. In some embodiments, a region of a scan comprising one or more of an anterior cruciate ligament (ACL) or an ACL graft can be defined. A magnetic resonance (MR) imaging data set can be obtained. MR parameters characterizing a size and a quality of the ACL or ACL graft can be derived using the MR data. The MR parameters can be used as inputs to a predictive model. A score characterizing a likelihood of failure of the ACL or ACL graft in a human patient can be generated using the predictive model.

Abstract: Methods and devices for the repair of a torn or injured ligament or tendon are provided. The methods include the use of multiple scaffolds, e.g., beads. The multiple scaffolds may be positioned along a suture or other device such that they are moveable with respect to one another or the injured tissue.

Abstract: The present disclosure provides biomaterials and methods for preventing and minimizing progression of cartilage and/or connective tissue damage. Also provided herein are biomaterials and methods for alleviating and/or reducing the risk for developing arthritis (e.g., osteoarthritis) associated with joint injury and/or joint surgery.

Abstract: Devices and methods for activating a therapeutic composition, delivering a therapeutic composition to a specific region or tissue in a body, and containing a therapeutic composition within a body cavity are disclosed herein. In one embodiment, a therapeutic capsule is shown having an outer element defining an interior chamber and including a matrix disposed therein and wherein the interior chamber is elongated along a chamber axis.