Abstract: A cinch deployment system includes a delivery system and a releasable cinch including an inner tubular, a compressible gripper having a suture passage, the gripper positioned within the inner tubular housing, and a resilient structure biased to compress the gripper to reduce the size of the suture passage. The resilient structure has a first configuration in which the resilient structure is constrained from applying sufficient compression to the gripper to prevent movement of the gripper on the suture, and a second configuration in which sufficient compression is applied to secure the gripper on the suture. The resilient structure is moved from the first to the second configuration by movement of the retainer moved by the deployment system.

Abstract: A deployment system includes a sheath, a shaft having a handle positioned at its proximal end, a micro motor having a motor shaft at the shafts distal end, a detachable helical first suture anchor positioned at the motor shafts distal end and an elongate suture fixedly coupled to the suture anchor. The deployment system can be positioned at a first tissue, and the motor shaft rotated to advance the helical first suture anchor into engagement with the first tissue. The motor shaft is detached from the first suture anchor thereby deploying it at the first tissue location. The deployment system can be reloaded with multiple suture anchors to deploy at multiple tissue locations. The suture extending between the anchors can then be drawn together to reconfigure the coupled tissue.

Abstract: A deployment system includes a sheath, a shaft having a handle positioned at its proximal end, a micro motor having a motor shaft at the shafts distal end, a detachable helical first suture anchor positioned at the motor shafts distal end and an elongate suture fixedly coupled to the suture anchor. The deployment system can be positioned at a first tissue, and the motor shaft rotated to advance the helical first suture anchor into engagement with the first tissue. The motor shaft is detached from the first suture anchor thereby deploying it at the first tissue location. The deployment system can be reloaded with multiple suture anchors to deploy at multiple tissue locations. The suture extending between the anchors can then be drawn together to reconfigure the coupled tissue.

Abstract: A system includes a first tube, a sharp coil at a distal end of the first tube, a second tube displaceable within the first tube, and a sharp housing at a distal of the second tube for storing fasteners. The housing can be positioned at a first tissue, and the coil rotated to advance the coil into engagement with the first tissue. The first tube is retracted to retract the first tissue, and then a first fastener is deployed at the first tissue location. Then, without removing the system from the patient, the distal end of the system is moved adjacent a second tissue location, and the process is repeated for a second fastener at the second tissue location. A suture extends between the first and second fasteners, and tension is applied to the suture to draw the first and second tissues toward each other to reconfigure the tissue.

Abstract: A system includes a first tube, a sharp coil at a distal end of the first tube, a second tube displaceable within the first tube, and a sharp housing at a distal of the second tube for storing fasteners. The housing can be positioned at a first tissue, and the coil rotated to advance the coil into engagement with the first tissue. The first tube is retracted to retract the first tissue, and then a first fastener is deployed at the first tissue location. Then, without removing the system from the patient, the distal end of the system is moved adjacent a second tissue location, and the process is repeated for a second fastener at the second tissue location. A suture extends between the first and second fasteners, and tension is applied to the suture to draw the first and second tissues toward each other to reconfigure the tissue.

Abstract: A deployment system includes a sheath, a shaft having a handle positioned at its proximal end, a micro motor having a motor shaft at the shafts distal end, a detachable helical first suture anchor positioned at the motor shafts distal end and an elongate suture fixedly coupled to the suture anchor. The deployment system can be positioned at a first tissue, and the motor shaft rotated to advance the helical first suture anchor into engagement with the first tissue. The motor shaft is detached from the first suture anchor thereby deploying it at the first tissue location. The deployment system can be reloaded with multiple suture anchors to deploy at multiple tissue locations. The suture extending between the anchors can then be drawn together to reconfigure the coupled tissue.

Abstract: A cinch deployment system includes a delivery system and a releasable cinch including an inner tubular, a compressible gripper having a suture passage, the gripper positioned within the inner tubular housing, and a resilient structure biased to compress the gripper to reduce the size of the suture passage. The resilient structure has a first configuration in which the resilient structure is constrained from applying sufficient compression to the gripper to prevent movement of the gripper on the suture, and a second configuration in which sufficient compression is applied to secure the gripper on the suture. The resilient structure is moved from the first to the second configuration by movement of the retainer moved by the deployment system.