Patent ID: 9452048
Filing Date: 2016-09-27
CPC Classification: A61B,A61F

Claim Text:
1. A method of treating mitral valve regurgitation, the method comprising: preloading a tensioning device into a delivery member, the tensioning device including at least three helical anchors and a tension filament, wherein each helical anchor includes a plurality of coils defining an inner channel and the tension filament is disposed through the inner channel of each helical anchor; delivering the tensioning device to a location adjacent a mitral valve annulus; sequentially and alternately implanting the at least three helical anchors into anterior and posterior portions of the annulus by rotating each helical anchor, wherein a first helical anchor of the at least three helical anchors is implanted into one of the anterior and posterior portions of the annulus, then a second helical anchor is implanted into the other of the anterior and posterior portions of the annulus, and then a third helical anchor of the at least three anchors is implanted into the one of the anterior and posterior portions of the annulus, wherein the tension filament extends from a distal end of the first helical anchor of the at least three helical anchors, through the inner channels of each of the other helical anchors of the at least three helical anchors, and extends from a proximal end of the last helical anchor of the at least three helical anchors such that the tension filament comprises at least two trans-leaflet portions with a first trans-leaflet portion extending between the first helical anchor and the second helical anchor and second trans-leaflet portion extending between the second helical anchor and the third helical anchor; applying a tension force to the tension filament to alter the shape of the annulus in response to application of the tension force; and securing the tensioning device on the valve such that there is tension on the tension filament, wherein the securing step comprises securing a locking device including a lock member and a stop member to the tension filament and one of the first and last helical anchors, wherein the tension filament extends through a lock member lumen of the locking member and a stop member lumen of the stop member, contacting the stop member with one of the first and last helical anchors, wherein the stop member has an outer diameter larger than the inner channel such that the stop member cannot pass through the inner channel, inserting the lock member into the stop member lumen such that the stop member compresses the lock member around the tension filament such that the tension filament cannot slide through the lock member lumen.