A catheter system (100) for treating a treatment site (106) within or adjacent to a vessel wall (108A) of a blood vessel (108), or within or adjacent to a heart valve, includes an energy source (124) and a system controller (126). The energy source (124) generates a plurality of energy pulses. The system controller (126) includes a processor that controls the energy source (124). The system controller (126) is configured to implement an energy control algorithm to control both of (i) a pulse frequency of the plurality of energy pulses, and (ii) an energy level for each of the plurality of energy pulses that are generated by the energy source (124). As the pulse frequency of the plurality of energy pulses increases, the energy level for each of the plurality of energy pulses decreases.

A catheter system (100) for placement within a blood vessel (108) having a vessel wall (108A) for treating a treatment site (106) within or adjacent to the vessel wall (108A) within a body (107) of a patient (109) includes a system console (123), one or more energy guides (122A), and an optical connector assembly (251). The system console (123) includes an energy source (124) and a console connection aperture (148). The one or more energy guides (122A) are configured to receive energy from the energy source (124). The optical connector assembly (251) includes a guide coupling housing (250) that retains at least a portion of each of the one or more energy guides (122A). The guide coupling housing (250) is configured to be mechanically connected to the system console (123) with at least a portion of the guide coupling housing (250) being configured to fit and be selectively retained within the console connection aperture (148) so that the one or more energy guides (122A) are adjustably and more precisely aligned within the guide coupling housing (250) and relative to the energy from the energy source (124) to receive the energy from the energy source (124).

A lithotripsy device includes an elongate body comprising a distal tip portion having an end surface that forms a non-zero angle with a longitudinal axis of the elongate body, a balloon circumferentially around a portion of the elongate body enclosing the end surface of the tip portion defining an interior configured to receive a fluid, and at least one emitter positioned at the end surface of the tip portion of the elongate body. The at least one emitter is configured to generate pressure waves in the fluid propagating through the balloon to disintegrate a calcified lesion. A method of using a lithotripsy device is also provided.

A catheter system usable for treating a treatment site within or adjacent to a vessel wall of a blood vessel or a heart valve within a body of a patient, the catheter system can include an energy source that generates energy, a catheter that includes an energy guide that receives the energy from the energy source, and a system console that is wirelessly couplable to the catheter so that one of data and power can be exchanged between the system console and the catheter.

A catheter system (100) for placement within a blood vessel (108) having a vessel wall (108A) for treating a treatment site (106) within or adjacent to the vessel wall (108A) within a body (107) of a patient (109) includes a system console (123), one or more energy guides (122A), and an optical connector assembly (251). The system console (123) includes an energy source (124) and a console connection aperture (148). The one or more energy guides (122A) are configured to receive energy from the energy source (124). The optical connector assembly (251) includes a guide coupling housing (250) that retains at least a portion of each of the one or more energy guides (122A). The guide coupling housing (250) is configured to be mechanically connected to the system console (123) with at least a portion of the guide coupling housing (250) being configured to fit and be selectively retained within the console connection aperture (148) so that the one or more energy guides (122A) are adjustably and more precisely aligned within the guide coupling housing (250) and relative to the energy from the energy source (124) to receive the energy from the energy source (124).