A shockwave device for treating heart valve or vascular calcification, includes a guiding tip and a plurality of balloons. At least two balloons of the plurality of balloons are connected to the guiding tip. At least one balloon of the plurality of balloons includes: at least one balloon body; at least one through hole through which liquid for transmitting shockwaves is filled into the balloon; and at least one shockwave generator for receiving electrical voltage/electrical current pulses to generate shockwaves. The shockwave generator includes at least one electrode cable and at least one electrode probe. The shockwave device could inhibit attenuation of shockwaves during transmitting. A method for treating heart valve or vascular calcification of an animal has been provided.

Devices, assemblies, systems, and techniques described herein may deliver a pressure wave to structures of a heart, such an aortic valve. For example, a medical assembly may include an expandable member configured to expand from a collapsed configuration to an expanded configuration, the expandable member configured to at least partially define a channel through the expandable member in the expanded configuration and one or more electrodes carried by the expandable member. The one or more electrodes may be configured to transmit an electrical signal through a fluid to cause the fluid to undergo cavitation that generates a pressure wave within the fluid.

Devices, systems and methods are provided for stabilizing and grasping tissues such as valve leaflets, assessing the grasp of these tissues, approximating and fixating the tissues, and assessing the fixation of the tissues to treat cardiac valve regurgitation, particularly mitral valve regurgitation.

The present invention relates to an assembly for replacing a heart valve or to a coronary angioplasty assembly, comprising an introduction sheath (13) for an introducer (1) or for a delivery catheter (1′), which is smaller compared to an introducer, intended to be introduced into an artery of a human body. The invention basically comprises: either integrating the metal support of an electrode of the cardiac stimulator into a part to be fitted around the introduction sheath that is introduced into the artery of a patient or into a guide wire that becomes a bipolar electrode support; or connecting the cathode of an external cardiac stimulator to the guide wire of an artificial valve and the anode to a transcutaneous electrode in contact with the skin of the patient.

A catheter system for treating a treatment site within or adjacent to the heart valve within a body of a patient includes an energy source, an energy guide and an energy director. The energy source generates energy. The energy guide includes a guide proximal end and a guide distal end. The energy guide is configured to receive energy from the energy source and guide the energy from the guide proximal end toward the guide distal end. The energy director includes a director wall that defines a director interior, and a director distal end that is selectively positioned substantially adjacent to the treatment site. The guide distal end of the energy guide is positioned within the director interior. The director distal end is at least partially open toward the treatment site.

The present invention provides devices and methods for decalcifying an aortic valve. The methods and devices of the present invention break up or obliterate calcific deposits in and around the aortic valve through application or removal of heat energy from the calcific deposits.

A calcification treatment device includes a catheter with proximal and distal ends. The catheter has at its distal end a non-occluding expansion element movable from a closed to an open position. In the open position, the expansion element is configured to apply force to leaflets of a valve so as to forcefully open the leaflets.

A method of delivering a prosthetic heart valve to the aortic valve annulus while a patient's heart is beating is disclosed. The method includes accessing the left ventricle through an intercostal incision and forming a puncture in the left ventricle. A guidewire is advanced into the left ventricle and through the native aortic valve. An introducer is passed over the guidewire and into the left ventricle. A valve delivery device is advanced over the guidewire and through the introducer until a prosthetic heart valve positioned thereon is located within the native aortic valve. The prosthetic heart valve is then radially expanded within the aortic valve annulus for replacing the function of the native aortic valve.

Device for the treatment of tissue calcification, in particular aortic valve leaflets, characterized by the fact that it comprises a first ultrasound emission source that is adapted to provide ultrasound waves with MHz frequencies and a second ultrasound emission source that is adapted to provide ultrasound waves with KHz frequencies, both MHz and KHz waves being used for the said treatment. The invention also includes a method for the treatment of tissue calcification that is characterized by the simultaneous use of ultrasound waves with MHz frequencies and ultrasound waves with KHz frequencies.

A catheter system (100) for treating a vascular lesion (106) within or adjacent to a heart valve (108) within a body (107) of a patient (109), includes an energy source (124), and a plurality of spaced apart treatment devices (143). The energy source (124) generates energy. Each treatment device (143) includes (i) a balloon (104) that is positionable substantially adjacent to the vascular lesion (106), the balloon (104) having a balloon wall (130) that defines a balloon interior (146), the balloon (104) being configured to retain a balloon fluid (132) within the balloon interior (146); and (ii) at least one of a plurality of energy guides (122A) that receive energy from the energy source (124) so that plasma (134) is formed in the balloon fluid (132) within the balloon interior (146).