Systems and methods for reshaping a heart valve

What is claimed is: 1. A method for reshaping the structure of a heart, the method comprising: deploying a device comprising a central ring extending about a central axis, and having three or more arms pivotably coupled circumferentially about the central ring at a first end of the arm with a tissue-engaging feature at a second end of the arm; translating an expansion device along the central axis to move the plurality of arms from a first contracted configuration for delivery to the heart to an expanded configuration extending radially outwardly from the central axis and the first contracted configuration; engaging the tissue-engaging features of the three or more arms circumferentially about annular heart tissue; and translating the expansion device along the central axis to pivot the arms about first ends thereof to move the three or more arms from the expanded configuration to a second contracted configuration radially inward of the expanded configuration and radially outward of the first contracted configuration to reshape the heart tissue circumferentially. 2. The method of claim 1 , further comprising limiting extension of the plurality of arms in the expanded configuration with a cap. 3. The method of claim 1 , wherein translating an expansion device includes moving a slider along the central axis to cause a plurality of linkages coupled to the slider and a respective arm of the plurality of arms to translate the plurality of arms. 4. The method of claim 1 , wherein sliding the slider comprises sliding the slider towards or away from the central ring. 5. The method of claim 4 , wherein the device is made of a shape memory material and the device is biased towards the second contracted configuration due to the shape memory material of the device. 6. The method of claim 1 , wherein the plurality of arms includes a groove, and wherein translating the engaging member over the plurality of arms translates the engaging member until it settles in the groove. 7. The method of claim 6 , further including advancing the engaging member over the plurality of arms to contract the plurality of arms beyond the second contracted configuration. 8. The method of claim 1 , wherein at least two of the tissue-engaging features are oriented differently with respect to each other such that different force vectors are resisted by at least two tissue-engaging features. 9. The method of claim 1 , wherein the tissue-engaging feature is a hook with a scooped profile. 10. The method of claim 9 , wherein engaging the tissue-engaging features of the plurality of arms comprises engaging the tissue-engaging features with annular tissue, with an angle of the hook relative to the annular tissue when the plurality of arms are in the expanded configuration ranges between forty-five and ninety degrees. 11. The method of claim 1 , wherein translating the plurality of arms to the first contracted configuration includes translating the plurality of arms until they are substantially parallel with the central axis. 12. The method of claim 1 , wherein at least a portion of the device is covered with a biocompatible material. 13. A method for reshaping the structure of a heart, the method comprising: deploying a device comprising a central ring extending about a central axis and having three or more arms each pivotably coupled circumferentially about the central ring at a first end of the arm with a tissue-engaging feature at a second end of the arm moving the plurality of arms radially outwardly from the central axis from a first contracted configuration for delivery to the heart to an expanded configuration extending radially outwardly from the central axis and the first contracted configuration; engaging the tissue-engaging features of the arms circumferentially around annular heart tissue; and advancing an engaging member over at least two arms of the plurality of arms until translation is inhibited by a groove on the plurality of arms to retain the plurality of arms in a second contracted configuration radially inward of the expanded configuration and radially outward of the first contracted configuration to reshape the annular heart tissue. 14. The method of claim 13 , including advancing the device to the tissue surrounding a heart valve from above the valve or from below the valve. 15. The method of claim 13 , wherein moving the plurality of arms to the second contracted configuration reduces a circumference of the heart tissue engaged by the plurality of arms. 16. The method of claim 13 , further comprising positioning the plurality of arms around a heart valve, wherein moving the plurality of arms to the second contracted configuration reshapes annular tissue surrounding the heart valve. 17. The method of claim 13 , wherein the device is made of a shape memory material and the plurality of arms translate to the second contracted configuration due to the shape memory material of the device. 18. The method of claim 13 , wherein at least two of the tissue-engaging features are oriented differently with respect to each other such that different force vectors are resisted by at least two tissue-engaging features. 19. The method of claim 13 , further comprising attaching the tissue-engaging features to annular tissue at an angle of attachment, relative to the annular tissue when the plurality of arms are in the expanded configuration, ranging between forty-five and ninety degrees. 20. A method comprising: deploying a delivery catheter having a delivery shaft disposed therein, the delivery shaft having a device releasably coupled thereto; extending the delivery shaft through a distal end of the delivery catheter towards tissue to deploy the device, the device including a central ring extending about a central axis and having three or more arms, each arm pivotably coupled circumferentially about the central ring at a pivot point at a first end of the arm and having an attachment feature at a second end of the arm, the arms translatable between a first contracted configuration, an expanded configuration radially outward of the first contracted configuration, and a second contracted configuration radially inward of the expanded configuration and radially outward of the first contracted configuration; translating a slider, coupled to the arms via a plurality of linkages, along the central axis to move the arms between the first contracted configuration, the expanded configuration, and the second contracted configuration, wherein each attachment feature from each arm is oriented to engage tissue circumferentially in the second contracted configuration; engaging at least one attachment features of the arms with tissue circumferentially in an annular configuration; advancing an engaging member over arms to further contract the arms circumferentially to a third contracted configuration beyond the second contracted configuration until translation is inhibited by a groove on the arms to retain the arms in the third contracted configuration; and releasing the device from the delivery shaft and withdrawing the delivery catheter from the tissue.