Abstract: A radiopaque frame is transluminally advanced to an atrium of a heart of a subject. The frame is expanded within a valve adjacent the atrium such that part of the frame remains disposed in the atrium. While the frame remains expanded within the valve, progressive portions of an annuloplasty structure are progressively positioned and anchored around the annulus using multiple anchors by, for each of the anchors sequentially (i) while fluoroscopically imaging the frame and a distal end of a delivery tool, and facilitated by mechanical guidance from the frame, positioning the distal end of the delivery tool between the frame and a wall of the atrium; and (ii) driving the anchor into the annulus laterally from the frame. Subsequently, the frame is contracted and withdrawn from the subject while leaving the annuloplasty structure anchored around the annulus. Other embodiments are also described.

Abstract: An apparatus is provided for use with a tissue anchor and an anchor driver. The apparatus includes a housing, shaped to define a channel. The channel includes (i) an anchor-storage zone, and (ii) a proximal opening configured to provide access for the anchor driver to the anchor-storage zone. The channel is configured to enable sliding of the tissue anchor therewithin to be stored in the anchor-storage zone. The apparatus also includes a retaining member, shaped to define a cradle for cradling and holding the tissue anchor in the anchor-storage zone. The retaining member includes a pillar pivotable with respect to the cradle, and configured to support the tissue anchor at the cradle. Other embodiments are also described.

Abstract: A method for treating a native heart valve of a patient includes anchoring a plurality of anchors of an implant into tissue around an annulus of the valve. At the annulus, a force-distribution element is incorporated into the implant such that the force-distribution element extends along a longitudinal portion of the elongate contracting member. The method can also include circumferentially tightening the annulus by pulling the plurality of anchors closer together, such as by actuating a contracting mechanism of a contracting system, such that (i) the contracting mechanism, coupled to an elongate contracting member of the implant, applies a longitudinal tensioning force to the elongate contracting member, and (ii) the force-distributing element distributes the longitudinal tensioning force over at least two of the anchors. Other embodiments are also described.

Abstract: Methods are described for use with a valve of a heart of a subject, the valve having an annulus, a first leaflet and an opposing leaflet, the heart having an atrium upstream of the valve, and a ventricle downstream of the valve. A tissue anchor, and an implant that includes a flexible frame, are transluminally advanced to the atrium. The implant is deployed within the atrium. Via anchoring of the tissue anchor to the annulus of the valve, the implant is secured within the heart by a first part of the frame being secured to the annulus, such that the frame extends over the first leaflet toward the opposing leaflet with a first side of the frame facing the first leaflet. Part of the frame can be disposed between the first leaflet and the opposing leaflet. Other embodiments are also described.

Abstract: An anchor-handling device comprises a housing shaped to define a channel having an anchor-storage zone and a proximal opening. An anchor driver comprises an anchor-engaging head, the anchor-engaging head being dimensioned to be advanceable through the proximal opening toward the anchor-storage zone. A tissue anchor is stored in the anchor-storage zone, and comprises a coupling head configured to be locked to the anchor-engaging head. The tissue anchor is movable out of the anchor-storage zone toward the proximal opening in response to a proximally-directed force being applied to the tissue anchor by the anchor driver. The anchor-handling device comprises an element that serves as an indicator of movement of the tissue anchor out of the anchor-storage zone toward the proximal opening, by moving in response to the proximally-directed force such that at least part of the element protrudes out of the housing. Other embodiments are also described.

Abstract: A method is described for use with a heart of a subject, the heart having a valve and an atrium upstream of the valve. The method includes transluminally advancing multiple tissue anchors to the atrium; and securing an elongate contraction member at least partly around an annulus of the valve by anchoring the tissue anchors to the annulus, such that the tissue anchors are distributed along the elongate contraction member. The method further includes subsequently contracting the annulus by applying tension the elongate contraction member, such that a radiopaque indicator that is disposed within the heart and that is coupled to the contraction member undergoes a conformational change in response to the tension. The conformational change of the radiopaque indicator within the heart is observed, and the tension is adjusted responsively to the observed conformational change. Other embodiments are also described.

Abstract: A tube and a set of anchors, are transluminally advanced toward a heart of a subject. Tabs are distributed axially along an anchor storage area of the tube, each of the tabs protruding medially from a circumferential wall of the tube. The anchors are disposed in the anchor storage area, a first anchor engaged and restrained by a first tab at a first axial location of the tube, and a second anchor engaged and restrained by a second tab at a second axial location of the tube proximal from the first axial location. The first anchor is engaged by the driver at the first axial location, advanced to a distal end of the tube, and anchored to tissue of the heart. Subsequently, the second anchor is engaged by the driver at the second axial location, advanced to the distal end of the tube, and anchored to the tissue.

Abstract: A catheter, advanced toward an anatomical site, has a proximal end and a steerable distal end. An anchor is advanced through the catheter. An anchor driver drives the anchor out of the catheter's distal end, anchoring the anchor at the site. A first constraining member engages tissue, and inhibits, after the anchor has been driven out of the catheter and before the anchoring, movement of at least the anchor driver's distal end, on a first axis between the anchor driver's distal end and a site at which the first constraining member engages the tissue. A second constraining member inhibits, after the anchor has been driven out of the catheter and before the anchoring, movement of at least the anchor driver's distal end, on a second axis. Other embodiments are also described.