Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to the thrombectomy system. The system can include a catheter having a distal portion configured to be positioned adjacent to a thrombus in a blood vessel, an electrode disposed at the distal portion of the catheter, and an interventional element configured to be delivered through a lumen of the catheter. The electrode and the interventional element are each configured to be electrically coupled to an extracorporeal power supply.

Devices and methods are discussed directed to the use of a low profile laser ablation catheter for use in laser ablation removal of arterial plaque blockages to restore blood flow in the treatment of arteriovenous fistulas. Also discussed are devices and methods directed to packaging, long term storage and sterilization of liquid core ablation catheters.

The subject invention relates to novel methods for the rapid treatment of disorders resulting from thrombosis or embolism such as a myocardial infraction or stroke. Specifically, the invention relates to diffusion enhancing compounds and their use with embolectomy and thrombectomy, or other procedures for the treatment of ischemia.

An apparatus (20f) for removing a blockage from a body of a subject includes a reference electrode (26), configured for insertion into the body, an electrically-insulative element (68) covering the reference electrode, the electrically-insulative element being shaped to define a gap (72) that exposes a portion of the reference electrode, an active electrode (28) covering the electrically-insulative element, and an electrically-conductive element (32) passing through the reference electrode and electrically connected to the active electrode, the electrically-conductive element being configured to electrically connect the active electrode to a power source (34) such that application, by the power source, of a voltage between the active electrode and the reference electrode causes the active electrode to attract the blockage. Other embodiments are also described.

Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to the thrombectomy system. The system can include a catheter having a distal portion configured to be positioned adjacent to a thrombus in a blood vessel, an electrode disposed at the distal portion of the catheter, and an interventional element configured to be delivered through a lumen of the catheter. The electrode and the interventional element are each configured to be electrically coupled to an extracorporeal power supply.

Systems, devices and methods treat target tissue to provide a therapeutic benefit to the patient. A tissue treatment device comprises a tissue treatment element constructed and arranged to treat target tissue, such as duodenal mucosa and/or submucosal tissue. Patients treated can safely eliminate or reduce their daily insulin intake.

An apparatus for treating vascular thrombosis with ultrasound, includes a therapeutic ultrasonic transducer, suitable for generating focused ultrasonic waves that propagate along an emission axis; an imaging ultrasonic transducer associated with the therapeutic transducer; a means for moving the focal spot of the therapeutic ultrasonic transducer along the emission axis with respect to the imaging transducer; a motorized mechanical system for translating the transducers along at least a first axis parallel to the emission axis and a second axis perpendicular to the first; and an electronic control system for driving the motorized mechanical system and the means for moving the focal spot of the therapeutic transducer.

Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to a medical device. The device can include an elongate core member having a distal portion configured to be intravascularly positioned at a treatment site within a blood vessel lumen, and an interventional element connected to the distal portion of the elongate core member. The interventional element includes a body that is expandable from a first configuration to a second configuration and an electrically conductive radiopaque marker coupled to the body. An electrically conductive lead has a distal portion electrically coupled to the radiopaque marker and a proximal portion configured to be electrically coupled to a current source.

Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to a medical device. The device can include an elongate core member having a distal portion configured to be intravascularly positioned at a treatment site within a blood vessel lumen, and an interventional element connected to the distal portion of the elongate core member. The interventional element includes a body that is expandable from a first configuration to a second configuration and an electrically conductive radiopaque marker coupled to the body. An electrically conductive lead has a distal portion electrically coupled to the radiopaque marker and a proximal portion configured to be electrically coupled to a current source.

A multi-pillar piezoelectric stack (MPPS) ultrasound transducer includes N pillars, each formed of a stack of M piezoelectric elements, N and M being integers of at least two. The ultrasound transducer further includes a bonding layer between each pair of the M piezoelectric elements. The pillars are laterally spaced from each other to form an inter-pillar gap. The transducer further includes at least one electrical interconnect for connecting the ultrasound transducer to a signal source. Through the MPPS design, the therapeutic range and the transducer sensitivity are increased over the conventional single pillar piezoelectric stack (SPPS) transducer design.