Patent application number | Description | Published |
20080269862 | Extension and retraction mechanism for a hand-held device - The disclosure describes a hand-held device that utilizes a mechanical lever system to operate the device with a single hand. The mechanical lever system is coupled to a sliding element within the housing of the hand-held device that slides linearly. The sliding element may be attached to another element that is extended, retracted, or rotated in or out of the device. For example, the hand-held device may be used for prostate ablation therapy. The hand-held device may include an ablation needle electrode that is extended out of a catheter and into a tissue of a patient by depressing an extension lever of the mechanical lever system to deliver ablation therapy. Depressing a retraction lever of the mechanical lever system may retract the needle electrode back into the catheter of the hand-held device. Other variations of the mechanical system and applications of the hand-held device are also described. | 10-30-2008 |
20090082620 | Methods and Apparatus Providing Suction-Assisted Tissue Engagement Through a Minimally Invasive Incision - Suction-assisted tissue-engaging devices, systems, and methods are disclosed that can be employed through minimal surgical incisions to engage tissue during a medical procedure through application of suction to the tissue through a suction member applied to the tissue. A shaft is introduced into a body cavity through a first incision, and a suction head is attached to the shaft via a second incision. The suction head is applied against the tissue by manipulation of the shaft and suction is applied to engage the tissue while the medical procedure is performed through the second incision. A system coupled to the shaft and a fixed reference point stabilizes the shaft and suction head. When the medical procedure is completed, suction is discontinued, the suction head is detached from the shaft and withdrawn from the body cavity through the second incision, and the shaft is retracted through the first incision. | 03-26-2009 |
20090254078 | ABLATION ELECTRODE AND CATHETER ASSEMBLY FOR EPICARDIAL MAPPING AND ABLATION WITH DIRECTIONALLY FOCUSED RF ENERGY - The present invention provides various embodiments of electrodes and/or electrode tips for use in connection with ablation catheters and ablation catheter systems. In an embodiment, an electrode tip for an ablation catheter is provided, comprising an electrode carrier, a first electrode, and second electrode, each adapted to direct energy is various directions and configured to be selectively activated. In another embodiment, an electrode is provided that comprises an electrode body having an insulated portion to protect adjacent tissue from ablation while further adapted to direct energy in a downward direction towards the target tissue. Other embodiments of electrodes and/or electrode tips providing ablative elements that are directed laterally are also disclosed. Moreover, embodiments of several types of electrodes and/or electrode tips, which may include positioning, orientation, irrigating, cooling, and deflecting features, whether provided individually or in various combinations, are also disclosed. | 10-08-2009 |
20100081987 | Vacuum-Stabilized Ablation System - Cardiac ablation systems include vacuum-stabilized, irrigated ablation devices that have ablating elements capable of providing regions of relatively low pressure to maintain the ablating element in a stable position relative to the tissue, or minimize relative movement of the ablating element relative to the tissue. The ablation elements have integrated structures for vacuum-stabilization. The devices also include one or more electrodes for both orienting the ablating element as well as for diagnostic purposes. | 04-01-2010 |
20100114136 | CUTTING DEVICE AND METHOD OF VESSEL HARVESTING - Embodiments of the invention provide a cutting device and method of vessel harvesting. The cutting device can include at least one tubular member, a cutting element, and a centering member. The cutting device can include at least one tubular member with a flexible section and a cutting element. The method of vessel harvesting can include spacing a cutting element of the cutting device from the vessel as the cutting element is advanced over the vessel. | 05-06-2010 |
20100121362 | VESSEL SUPPORT DEVICE AND METHOD OF VESSEL HARVESTING - Embodiments of the invention provide a vessel support system and a method of vessel harvesting. The system can include a cutting device, a catheter adapted to be inserted into a section of the vessel in order to support the vessel as the cutting device is advanced over the vessel, and a cannula adapted to be coupled to the vessel and adapted to receive the catheter as the catheter is inserted into the section of the vessel. The method can include orienting a cutting device coaxially with the cannula and the catheter and advancing the cutting device over the cannula, the catheter, and the section of the vessel in order to core out the section of the vessel and a portion of the surrounding tissue. | 05-13-2010 |
20100198041 | Apparatus and method for positioning and retention of catheter - A catheter for anchoring an electrode in a coronary sinus includes an elongate catheter body adapted to be inserted into a coronary sinus and at least one electrode on the catheter body. The elongate catheter body also includes at least one anchor movable between an undeployed configuration and a deployed configuration. When the anchor is in the undeployed configuration, the catheter may be introduced into and removed from the coronary sinus. When the anchor is in the deployed configuration, the anchor engages a tissue surface of the coronary sinus to inhibit movement between the catheter body and the coronary sinus, preferably without completely occluding the coronary sinus. The anchor may be a section of the catheter body having an expandable axial cross-section, an expandable member mounted on the catheter body, one or more wire anchors, or a flexible section of the catheter body. | 08-05-2010 |
20100305398 | Methods and Devices for Stabilizing Tissue - Tissue stabilizers including a clamp assembly, a turret assembly, an articulating arm having a tension element extending therethrough, a collet assembly and a head-link assembly are disclosed. Methods of stabilizing tissue are also disclosed. | 12-02-2010 |
20100324552 | Methods and systems for occluding vessels during cardiac ablation incuding optional electroanatomical guidance - A method is provided for ablating a portion of the myocardium. The method includes inserting an occlusion catheter into a vessel on a heart, occluding the vessel using the occlusion catheter, inserting an ablation catheter into a chamber of the heart, positioning the ablation catheter against the myocardium, and ablating a portion of the myocardium while the vessel is occluded. The system includes an occlusion catheter having a catheter body including a tubular member having a distal portion and a bend located in the distal portion, a balloon located proximal of the bend and configured to contact an inner surface of the CS when positioned therewithin, a plurality of marker bands positioned on the catheter body, and a plurality of electrodes positioned on the catheter body. One or more electrodes or coils can be used as a reference for an electroanatomical system and can be disposed on the occlusion catheter. | 12-23-2010 |
20110230799 | Vacuum-Stabilized Ablation System - A tissue ablation apparatus includes a body having at least two lumens extending therethrough and an ultrasound ablation element positioned within a distal region of the body. The ultrasound ablation element includes an ultrasound transducer and a membrane. One of the lumens is arranged so as to deliver a fluid into a cavity defined between the transducer and the membrane. A first orifice is provided in the body proximal of the ultrasound ablation element and is open to the first lumen to define a first vacuum pathway. A distal vacuum chamber, opening to a second orifice in the body, is defined by the body distal of the ultrasound ablation element and is in communication with the first lumen to define a second vacuum pathway. At least one flow control apparatus is provided to regulate flow through one of the vacuum pathways independent of flow through the other vacuum pathway. | 09-22-2011 |
20120123326 | CATHETER SYSTEMS WITH DISTAL END FUNCTION, SUCH AS DISTAL DEFLECTION, USING REMOTE ACTUATION OR LOW INPUT FORCE - Systems capable of providing force and displacement outputs sufficient to actuate remote mechanisms to enhance catheter capabilities include both low-force and remote actuation arrangements. The remote actuation and low-force actuation systems may be used for catheter distal end deflection, sensor deployment, feedback controlled movement, fluid delivery rate and directional control applications as well as catheter retention mechanism deployment. Remote actuation mechanism may employ phase change based, magnetic based or hydraulic based. Low-force remote actuation structures include a coaxially-extending pull wire, a reaction member, and a remote mechanism responsive to the pull force. | 05-17-2012 |
20120157990 | IRRIGATED ABLATION ELECTRODE ASSEMBLIES - An irrigated ablation electrode assembly comprises a distal member, a first manifold, and a second manifold. The distal member includes an outer surface; an inner surface; and at least one radially extending passageway that extends from the inner surface of the distal member to the outer surface of the distal member. The first manifold includes an outer surface, an inner cavity, and at least one radially extending passageway that extends from the inner cavity to the outer surface of the first manifold. The second manifold includes an outer surface, an inner surface, and at least one radially extending passageway that extends from the inner surface of the second manifold to the outer surface of the second manifold. Other irrigated ablation electrode assemblies are also presented. | 06-21-2012 |
20120157991 | IRRIGANT DISTRIBUTION SYSTEM FOR FLEXIBLE ELECTRODES - Ablation electrode assemblies having a longitudinal axis include an electrode core member; an electrode shell; and an irrigant distribution element. The electrode core member comprises a thermal insulator and has a first end; a second end; and at least one irrigation passageway. The electrode shell comprises an electrically conductive material, defines an inner volume, and has a first end; and a second end. The second end of the electrode shell is configured for connection to the first end of the electrode core member. The electrode shell is sufficiently flexible for deflection of the distal end of the electrode shell relative to the longitudinal axis of the ablation electrode assembly. The irrigant distribution assembly comprises a first end; and a second end, wherein the second end of the irrigant distribution element defines a circumferential irrigation port between the irrigant distribution element and the electrode core member. | 06-21-2012 |
20120165809 | ABLATION ELECTRODE ASSEMBLIES AND METHODS FOR USING SAME - Ablation electrode assemblies include an inner core member and an outer shell surrounding the inner core member. The inner core member and the outer shell define a space or separation region therebetween. The inner core member is constructed from a thermally insulative material having a reduced thermal conductivity. In an embodiment, the space is a sealed or evacuated region. In other embodiments, irrigation fluid flows within the space. The ablation electrode assembly further includes at least one thermal sensor in some embodiments. Methods for providing irrigation fluid during cardiac ablation of targeted tissue are disclosed that include calculating the energy delivered to irrigation fluid as it flows within the ablation electrode assembly through temperature measurement of the irrigation fluid. Pulsatile flow of irrigation fluid can be utilized in some embodiments of the disclosure. | 06-28-2012 |
20120165812 | MULTI-RATE FLUID FLOW AND VARIABLE POWER DELIVERTY FOR ABLATION ELECTRODE ASSEMBLIES USED IN CATHETER ABLATION PROCEDURES - A system for providing irrigation fluid during ablation of tissue includes a catheter, an electrode assembly, at least one thermal sensor adapted to be connected to the catheter, and a control system. The electrode assembly is adapted to be connected to an ablation generator. The thermal sensor is adapted to be operatively connected to an electronic control unit (ECU). The ECU receives as an input temperature measurement data from the thermal sensor; determines a power delivery rate value for the ablation generator responsive to the temperature measurement data; and outputs the power delivery rate value. The control system also delivers irrigation fluid to the irrigated catheter at a first flow rate in a first time period and at a second flow rate in a second time period that is temporally after the first time period. The second flow rate is at least half of the first flow rate. | 06-28-2012 |
20130184727 | VESSEL SUPPORT DEVICE AND METHOD OF VESSEL HARVESTING - Embodiments of the invention provide a vessel support system and a method of vessel harvesting. The system can include a cutting device, a catheter adapted to be inserted into a section of the vessel in order to support the vessel as the cutting device is advanced over the vessel, and a cannula adapted to be coupled to the vessel and adapted to receive the catheter as the catheter is inserted into the section of the vessel. The method can include orienting a cutting device coaxially with the cannula and the catheter and advancing the cutting device over the cannula, the catheter, and the section of the vessel in order to core out the section of the vessel and a portion of the surrounding tissue. | 07-18-2013 |
20130217959 | Methods and Apparatus Providing Suction-Assisted Tissue Engagement Through a Minimally Invasive Incision - Suction-assisted tissue-engaging devices, systems, and methods are disclosed that can be employed through minimal surgical incisions to engage tissue during a medical procedure through application of suction to the tissue through a suction member applied to the tissue. A shaft is introduced into a body cavity through a first incision, and a suction head is attached to the shaft via a second incision. The suction head is applied against the tissue by manipulation of the shaft and suction is applied to engage the tissue while the medical procedure is performed through the second incision. A system coupled to the shaft and a fixed reference point stabilizes the shaft and suction head. When the medical procedure is completed, suction is discontinued, the suction head is detached from the shaft and withdrawn from the body cavity through the second incision, and the shaft is retracted through the first incision. | 08-22-2013 |
20140163548 | IRRIGANT DISTRIBUTION SYSTEM FOR ELECTRODES - An ablation electrode assembly is provided with improved irrigation cooling of the assembly and ablation site. The assembly includes a proximal end configured to be coupled to a catheter shaft and a distal end configured to deliver ablation energy to tissue. The assembly further includes a fluid manifold extending from the proximal end to the distal end and configured to fluidly communicate with a fluid lumen in the catheter shaft. The fluid manifold defines an axial passageway centered about a longitudinal axis extending in the longitudinal direction of the assembly. The axial passageway has a distal end terminating prior to the distal end of the electrode assembly. The assembly further includes means for creating turbulence in fluid exiting the first axial passageway. | 06-12-2014 |
20140276078 | ELECTRODE CONTACT FEEDBACK SYSTEM - A sensing assembly for sensing contact with an object is disclosed. The contact sensing assembly may comprise an elongate tubular body. An electrode may be connected to the elongate tubular body. A vibration element is operatively connected with the electrode and configured to deliver a vibration-inducing signal to induce vibration of the electrode. A sensor is configured to monitor the electrode for a perturbation in the induced vibration. The perturbation results from contact between the electrode and the object. | 09-18-2014 |
20140364848 | SYSTEM FOR OPTIMIZED COUPLING OF ABLATION CATHETERS TO BODY TISSUES AND EVAULATION OF LESIONS FORMED BY THE CATHETERS - A system for diagnosis or treatment of tissue in a body is provided. The system includes an ablation catheter having a deformable, elongate shaft having proximal and distal ends. The catheter further includes an ablation delivery member disposed proximate the distal end of the shaft and configured to deliver ablation energy to ablate the tissue. In one embodiment, the ablation delivery member comprises an ablation electrode and may also be configured to generate a signal indicative of electrical activity in the tissue. The catheter further includes one or more sensing electrodes disposed proximate the ablation delivery member. The sensing electrodes are configured to generate signals indicative of electrical activity in the tissue. The system further includes an electronic control unit configured to control delivery of ablation energy from the ablation delivery member responsive to one or more of the generated signals indicative of electrical activity in the tissue. | 12-11-2014 |