Aspects of the disclosure include sizing catheters and methods for determining the size and other physical parameters of an internal orifice or lumen. Embodiments include a sizing catheter assembly having a handle assembly and a catheter assembly including at least one catheter extending from the handle assembly. The catheter assembly also includes at least two sizers, which can be adjustably spaced from each other. Each of the sizers are configured to conform to respective portions of a lumen of a patient's anatomy. The sizing catheter is configured such that the sizers are configured to specify or determine first and second dimensions of the lumen and also distance between the sizers. The sizers can include valve leaflets or the sizing catheter can include a temporary valve. Additional aspects include software/methods of assessing and determining an appropriate implantable device that can include assessing the biomechanical interaction between the device and the anatomy.

A heart valve sizing ring is disclosed. The sizing ring includes an outer ring and an inner ring configured and arranged to couple to the outer ring. A tubular portion extends from the inner ring and has a plurality of suture holders arranged about an upper end thereof. The outer ring and inner ring having a pair of complementary mating surfaces configured and arranged to grip sutures therebetween when coupled together. When coupled around sutures, the assembled ring may be tightened down against the heart valve to test the fit as if the sizing ring were a similarly sized prosthetic heart valve ring. Commissures of the heart valve may be suspended from the suture holders of the tubular portion. The surgeon can then remove the sizing ring and replace it with a prosthetic ring.

Luminal organ sizing devices and methods. In a method of the present disclosure, the method includes performing a valve replacement procedure using a valve device positioned within a valve annulus or opening of a luminal organ while a system including a balloon configured for inflation is at least partially introduced into a luminal organ so that the balloon is adjacent to a valve annulus or opening.

A device for measuring heart valve for sizing a heart valve reinforcement ring, includes a handle having a first shaft and a second shaft; an inner ring coupled to the first shaft; an outer ring coupled to the second shaft; and a trigger mechanism configured and arranged to force the inner ring and outer ring together wherein an outer surface of the inner ring engages an inner surface of the outer ring; the inner surface of the outer ring and the outer surface of the inner ring having reciprocal mating surfaces configured and arranged to grip sutures therebetween when coupled together.

A device is described for crossing the atrial septum to properly size a valve annulus for treatment or replacement, having a catheter with an expandable braided tubular structure attached at its distal end. The proximal and distal end regions of the braided tube have an open structure to allow blood flow to pass freely through the gaps or spaces between the braided fibers. The lumen within the tube includes a temporary, artificial valve that acts similar to a native valve, allowing blood to flow in one direction and preventing blood flow in the opposite direction.

A delivery system and method for delivery of an annuloplasty implant for a patient are disclosed. The delivery system comprises a commissure locator device for locating a commissure, comprising; an extension member, a catheter, and wherein the extension member is extendable relative the catheter for location of at least one commissure of a cardiac valve, and a coronary sinus contractor for temporary insertion into the coronary sinus (CS) and having a displacement unit being temporarily transferable to an activated state in which the shape of the annulus of the heart valve is modified to a modified shape to be retained by said annuloplasty implant.

A device for measuring an expanded internal orifice of a patient includes an orifice-expanding device, a pressure measuring device, and a size-measuring device. The size-measuring device measures a dimension of the orifice after it has been expanded by the orifice-expanding device.

Aspects include systems having an implant (e.g., annuloplasty implant) and a delivery device. The delivery device includes a delivery catheter and a sizing device. The sizing device has a frame including a plurality of struts and a plurality of anchor housings interconnected to at least one respective strut. An anchor is positioned within each of the anchor housings in a delivery arrangement. In the delivery arrangement, the sizing device and the implant are positioned within the catheter and each anchor is within one of the plurality of anchor housings. The delivery device further having an adjustment arrangement in which the implant, anchors and at least a portion of the sizing device are positioned outside of the catheter. The delivery device further having a deployed arrangement in which the frame is disconnected from the anchors and the frame is withdrawn into the delivery catheter. Related methods are also disclosed.

The present disclosure describes a surgical system for a heart valve. The surgical system is configured to serve as a temporary valve and/or filter to facilitate maintenance of proper blood flow while also capturing debris of an excised leaflet as needed.

An articulating implant holder system for heart valve repair or replacement has an implant configured to be secured to a heart valve annulus, an implant holder secured to the implant, an articulating handle assembly comprising a handle, a swivel pivotably secured to the handle at a first location and a connector pivotably secured to the swivel at a second location, an actuating cable secured between the handle and the connector to cause the swivel to move from a first position to a second position, and a latch removably secured to the implant holder. A plurality of sizer heads are configured to correspond to different sizes of heart valve annuluses and each of the plurality of sizer heads has a latching feature. A latching feature of the swivel is configured to removably snap on to the latching feature of each of the plurality of sizer heads and is configured to permanently snap on to the latch.