Electrical Application Patents (Class 606/32)
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Patent number: 7175618Abstract: A high frequency electrosurgical power generator configured to produce electrical power at a frequency of about 1 to about 14 MHz and preferably having an essentially sinusoidal waveform with a voltage level up to 1,000 Vrms, and a current level up to 5 Amps. The output of the high frequency electrosurgical power generator is connected to an electrosurgical tool configured to receive the voltage and current produced by the electrosurgical power generator and deliver the voltage and current to an electrosurgical site. The output of the electrosurgical generator preferably is an essentially sinusoid waveform with a frequency between about 3 MHz and about 8 MHz, up to about 700 volts rms, up to about 2 amps, with a total power of up to 1,000 watts.Type: GrantFiled: September 9, 2003Date of Patent: February 13, 2007Assignee: SenoRx, Inc.Inventors: James Huntington Dabney, Richard L. Quick, Conrad Sawicz, Paul Lubock, Dan Kussman
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Patent number: 7177680Abstract: Improved pacing thresholds for capturing the heart are achieved by forming a discontinuity in the cardiac tissue of the heart chamber, disposing a pacing electrode at a distance less than a space constant of the cardiac tissue from the discontinuity in the cardiac tissue, and applying a stimulus of a first polarity at an energy insufficient to cause the directly stimulated tissue adjacent to the pacing electrode to propagate a depolarization wave through the cardiac tissue mass of the heart chamber but sufficient to induce a transmembrane potential change at the tissue adjacent to the discontinuity that results in a propagated wave front. Thus, pacing energy is advantageously reduced.Type: GrantFiled: March 31, 2003Date of Patent: February 13, 2007Assignee: Medtronic, Inc.Inventors: Vinod Sharma, Xiaohong Zhou
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Patent number: 7174201Abstract: Apparatus for performing a medical procedure on a tissue within a body of a subject includes a wireless tag which is fixed to the tissue and includes a first sensor coil. A second sensor coil is fixed to a medical device for use in performing the procedure. An integral processing and display unit includes a plurality of radiator coils, along with processing circuitry and a display. The radiator coils generate electromagnetic fields in a vicinity of the tissue, thereby causing currents to flow in the sensor coils. The processing circuitry processes the currents so as to determine coordinates of the tag relative to the medical device. The display is driven by the processing circuitry so as to present a visual indication to an operator of the medical device of an orientation of the device relative to the tag.Type: GrantFiled: June 17, 2002Date of Patent: February 6, 2007Assignee: Biosense, Inc.Inventors: Assaf Govari, Yitzhack Schwartz
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Patent number: 7169143Abstract: An electrosurgical probe comprises a shaft having at least one electrode terminal at its distal end and a connector at its proximal end. The electrode terminal may be spaced from a return electrode such that when the electrode terminal is brought adjacent a tissue structure immersed in an electrically conductive fluid from outside the body, the electrically conductive fluid completes a conduction path between the electrode terminal and the return electrode. By applying high frequency electrical energy to the electrode terminal, target tissue may be cut or ablated while heat dissipation through low impedance paths, such as blood and normal saline, will be minimized. Related methods are disclosed.Type: GrantFiled: October 20, 2005Date of Patent: January 30, 2007Assignee: Arthrocare CorporationInventors: Philip E. Eggers, Hira V. Thapliyal
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Patent number: 7166102Abstract: A removable semi-insulating sheet for use in self-limiting electrosurgical return semi-insulating sheet for use with electrosurgery. Through the selection of impedance characteristics for the electrode materials of the principal body of the semi-insulating sheet, and through tailoring of semi-insulating sheet geometries, the return electrode of the present invention is self-regulating and self-limiting as to current density and temperature rise so as to prevent patient trauma. The semi-insulating sheet has an effective bulk impedance equal to or greater than about 4,000 ?·cm. The effective bulk impedance of the sheet may arise from resistive components, capacitive components, inductive components, or combinations thereof. The configuration of the presently described return electrode allows the electrode to self-limit the electrode's current densities, thereby preventing burning of a patient during surgery.Type: GrantFiled: May 9, 2002Date of Patent: January 23, 2007Assignee: Megadyne Medical Products, Inc.Inventors: Richard P. Fleenor, David B. Kieda, James D. Isaacson, Paul R. Borgmeier
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Patent number: 7150749Abstract: An endoscopic bipolar forceps includes a housing and a shaft affixed to the housing. The shaft includes a longitudinal axis defined therethrough and a pair of jaw members attached to a distal end thereof. The forceps also includes a drive assembly for moving one of the jaw members relative to the other jaw member. A movable handle is included which moves the jaw members from the open and closed positions. The forceps is adapted to connect to a source of electrosurgical energy such that the jaw members are capable of conducting bipolar energy through tissue held therebetween to effect a tissue seal. A trigger assembly is operatively disposed relative to the movable handle for selectively advancing a knife assembly for cutting tissue along the tissue seal. The knife assembly includes a knife collar which cooperates with a knife shaft to advance a knife through tissue upon activation of the trigger assembly.Type: GrantFiled: September 29, 2004Date of Patent: December 19, 2006Assignee: Sherwood Services AGInventors: Sean T. Dycus, Duane E. Kerr, Darion Peterson
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Patent number: 7146210Abstract: The apparatus and method are designed to compute the optimal spatial and temporal characteristics for combating tumor growth within a body on the basis of cytological (as provided by biopsies, etc.) and anatomical data (as provided by CT, MRI, PET, etc.), as well as the electric properties of the different elements. On the basis of this computation, the apparatus applies the fields that have maximal effect on the tumor and minimal effect on all other tissues by adjusting both the field generator output characteristics and by optimal positioning of the insulated electrodes or isolects on the patient's body.Type: GrantFiled: March 28, 2003Date of Patent: December 5, 2006Assignee: Standen Ltd.Inventor: Yoram Palti
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Patent number: 7142928Abstract: Improved pacing thresholds for capturing the heart are achieved by forming a discontinuity in the cardiac tissue of the heart chamber, disposing a pacing electrode at a distance exceeding a space constant of the cardiac tissue from the discontinuity in the cardiac tissue, and applying a stimulus of a first polarity at an energy insufficient to cause the directly stimulated tissue adjacent to the pacing electrode to propagate a depolarization wave through the cardiac tissue mass of the heart chamber but sufficient to induce a transmembrane potential change at the tissue adjacent to the discontinuity that results in a propagated wave front. Thus, pacing energy is advantageously reduced.Type: GrantFiled: December 3, 2002Date of Patent: November 28, 2006Assignee: Medtronic, Inc.Inventors: Vinod Sharma, Xiaohong Zhou
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Patent number: 7130698Abstract: Apparatus for inducing electrically charged alignment changes in biological tissue includes a generally flat translucent cavity containing a volume of gas that includes water vapor, carbon dioxide and other similarly common molecules that is charged along one surface by a sequence of pulses of electrical charge each of a potential sufficient to excite the common molecules to a higher state. The opposite side of the cavity is then conformed for intimate contact with the skin of a person, thus communicating the electromagnetic pulses associated with each excitation level change into the tissue.Type: GrantFiled: March 11, 2004Date of Patent: October 31, 2006Inventor: Robert G. James
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Patent number: 7122030Abstract: A method of localized cell heating introduces a plurality of ferroelectric comprising particles into a target region of a patient, and applies a time varying electrical field to the target region. The ferroelectric particles absorb energy from the electrical field and heat the target region in response, such as to a temperature sufficient to induce apoptosis of cancer cells in the target region. A ferroelectric hyperthermia-based cancer treatment system includes a time varying electrical field source for applying a time varying electrical field to a plurality of ferroelectric particles disposed in a target cancer containing region of a patient. A composition of matter includes a particle having a ferroelectric portion, the particle being non-toxic, slowly biodegradable in body fluids, and less than 15 ?m in its maximum dimension.Type: GrantFiled: July 13, 2004Date of Patent: October 17, 2006Assignee: University of Florida Research Foundation, Inc.Inventors: Glen Patrick Flores, Christopher D. Batich
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Patent number: 7118567Abstract: A method for treating a vulnerable plaque associated with a blood vessel of a patient is disclosed. The method includes positioning an electrical lead adjacent a vulnerable plaque lesion, and then delivering at least one electrical pulse to the lesion.Type: GrantFiled: April 30, 2004Date of Patent: October 10, 2006Assignee: Medtronic Vascular, Inc.Inventor: Maura G. Donovan
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Patent number: 7113821Abstract: The present invention relates to a method and a device for transporting a molecule through a mammalian barrier membrane of at least one layer of cells comprising the steps of: ablating the membrane with an electric current from a treatment electrode; and utilizing a driving force to move the molecule through the perforated membrane.Type: GrantFiled: August 23, 2000Date of Patent: September 26, 2006Assignee: Johnson & Johnson Consumer Companies, Inc.Inventors: Ying Sun, Ralph W. Oakeson, Stephen J. Wisniewski, Jonas C. T. Wang
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Patent number: 7104986Abstract: The present invention provides systems and methods for selectively applying electrical energy to a target location within a patient's body, particularly including tissue in the spine. The present invention applies high frequency (RF) electrical energy to one or more electrode terminals in the presence of electrically conductive fluid to contract collagen fibers within the tissue structures. In one aspect of the invention, a system and method is provided for removing a vertebral disc in preparation for implanting a prosthetic disc or removing a portion of the vertebral disc such as the nucleus pulposus in preparation for placing a prosthetic nucleus within the annulus of the disc. The present invention also teaches shrinking residual tissue in preparation for placing the implants.Type: GrantFiled: May 12, 2003Date of Patent: September 12, 2006Assignee: ArthroCare CorporationInventors: David C. Hovda, Brian Martini, Zsuzsi Conforti, Jean Woloszko
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Patent number: 7099713Abstract: Surfactants useful for enhancing the electrical conduction of electrodes attached to the surface of a patient. The surfactants are also useful in transport of materials in and out of the body of a patient (animal or human) and in the measurement of disease states. Typical surfactants particularly useful in the invention are broadly represented by protein/fatty acid based compounds. The protein/fatty acid compounds may be lipopolypeptides. In some embodiments the lipopolypeptides may be acyl peptides. Typical acyl peptides are Lamepon S™, MayTein C™ and MayTein CT™.Type: GrantFiled: June 27, 2003Date of Patent: August 29, 2006Assignee: Battelle Memorial InstituteInventors: James D. Browning, Vincent McGinniss, Steven M. Risser, Dale L. Robinson, Robert E. Russell, III, Robert R. Boyd, Matthew S. Fleming
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Patent number: 7097643Abstract: The present invention provides positioning mechanisms for devices that cause conduction blocks or ablation in desired areas of tissue. The positioning mechanisms allow for variable geometry of the target sites and enable more accurate therapy at the tissue site.Type: GrantFiled: March 2, 2004Date of Patent: August 29, 2006Assignee: Sinus Rhythm Technologies, Inc.Inventors: Richard Cornelius, William Swanson
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Patent number: 7097640Abstract: An interface which allows a surgeon to operate multiple surgical devices from a single input device. The input device may be a foot pedal that provides output signals to actuate a number of different surgical devices. The surgical devices may include a robotic arm, a laser, an electrocautery device, or an operating table. The interface has an input channel that is coupled to the input device and a plurality of output channels that are coupled to the surgical devices. The interface also has a select input channel which can receive input commands to switch the input channel to one of the output channels. The select channel may be coupled to a speech interface that allows the surgeon to select one of the surgical devices with a voice command. The surgeon can operate any device by providing an input command which switches the input channel to the desired output channel.Type: GrantFiled: November 26, 2003Date of Patent: August 29, 2006Assignee: Intuitive Surgical, Inc.Inventors: Yulun Wang, Charles S. Jordan, Darrin R. Uecker
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Patent number: 7066761Abstract: An electrosurgical system is provided which includes an electrosurgical energy source; a return pad including a conductive surface; and a return pad cable connector selectively connectable to the electrosurgical generator. The return pad cable connector includes a cord having a conductive wire disposed therethrough, the conductive wire have a first end which connects to the electrosurgical energy source; and a connector operatively coupled to the cord. The connector includes a conductive surface which is selectively engageable with a corresponding conductive surface disposed on the return pad and is in electrical contact with a second end of the conductive wire, the conductive surface of the connector including a conductive adhesive disposed thereon; and a non-conductive adhesive disposed about the periphery of the conductive surface of the connector for engagement with a corresponding non-conductive adhesive disposed about the periphery of the conductive surface of the return pad.Type: GrantFiled: October 4, 2005Date of Patent: June 27, 2006Assignee: Sherwood Services AGInventors: Chris J. Ehr, Joe D. Sartor
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Patent number: 7066932Abstract: Compositions, systems and methods utilizing engineered surgical irrigants providing delivery of components with therapeutic or other secondary benefits. Engineered irrigants provide targeted delivery of desired agents, including agents for propulsion of nano-devices, agents including molecular probes, gene expression agents, magnetically orientable agents, agents for discrete tissue temperature detection and tissue regeneration agents.Type: GrantFiled: May 28, 2002Date of Patent: June 27, 2006Assignee: MAP Technologies LLCInventors: Roy E. Morgan, Wayne K. Auge, II
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Patent number: 7066931Abstract: The variable stiffness heating catheter includes a heating catheter shaft including at least one electrically conductive member, a reinforcing tube with apertures formed around the surface of the reinforcing tube, and at least one coaxial outer layer of a polymer, metal, or both for providing desired variations in stiffness along at least a portion of the length of the shaft. The apertures can be formed as axial or helical slits in the surface of the reinforcing tube, and the reinforcing tube can also be formed to be tapered at the point where the apertures are formed in the reinforcing tube to provide a heating catheter that is torqueable and pushable at the proximal end, yet soft and flexible at the distal end.Type: GrantFiled: August 31, 2004Date of Patent: June 27, 2006Assignee: Micrus CorporationInventors: Michael J. O'Connor, David A. Ferrera, Matthew Connors
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Patent number: 7063699Abstract: A surgical instrument useful in harvesting blood vessels such as veins and arteries and for manipulating and grasping tissue. The instrument has a pair of jaws and a closing tube to open and close the jaws.Type: GrantFiled: September 28, 2001Date of Patent: June 20, 2006Assignee: Ethicon, Inc.Inventors: Christopher J. Hess, Gary W. Knight, Michael F. Clem, Rudolph H. Nobis, Dale R. Schulze
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Patent number: 7052506Abstract: The tool comprises an ultrasonic vibration generator and a waveguide operatively connected thereto at one end. The distal end of the waveguide is provided with cutting and/or coagulating means. A shroud is adapted to surround and isolate the waveguide, and an actuating rod surrounds the shroud, or vice versa. The shroud and actuating rod are detachably connected at their proximal ends to the generator.Type: GrantFiled: March 14, 2002Date of Patent: May 30, 2006Inventors: Michael John Radley Young, Stephen Michael Radley Young
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Patent number: 7052492Abstract: A surgical method and apparatus for positioning a diagnostic or therapeutic element within the body. The apparatus may be catheter-based or a probe including a relatively short shaft.Type: GrantFiled: August 30, 2004Date of Patent: May 30, 2006Assignee: EP Technologies, Inc.Inventors: David K. Swanson, Sidney D. Fleischman, Josef V. Koblish, Russell B. Thompson, James G. Whayne, Thomas R. Jenkins, Edward J. Snyder
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Patent number: 7041095Abstract: A medical device, and related method, use epicardial ablators and detectors for intraoperative epicardial approaches to ablation therapy of cardiac conduction pathways. An epicardial gripper is sized to grasp the cardiac circumference or smaller structures on the epicardial surface of the heart. Ablators are disposed on the arms of the gripper for epicardial ablation of cardiac conduction tissue. In another embodiment of the invention, an electrode system includes a flexible, adjustable probe forming a loop for epicardial ablation. Ablators are provided on one or multiple surfaces of the probe for epicardial ablation of cardiac conduction tissue. In yet another embodiment of the invention, an endocardial ablator detection system provides an indicator adjacent an ablator on an endocardial catheter, and a detector on an epicardial probe.Type: GrantFiled: October 28, 2003Date of Patent: May 9, 2006Assignee: New England Medical CenterInventors: Paul J. Wang, Hassan Rastegar
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Patent number: 7033351Abstract: An electronic circuit for identifying an electrical surgical tool and for providing a selectable constant current appropriate to the identified electrical surgical tool.Type: GrantFiled: July 14, 2003Date of Patent: April 25, 2006Assignee: Starion Instruments CorporationInventor: Thomas A. Howell
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Patent number: 7008419Abstract: Instruments for thermally-mediated treatment of a patient's lower esophageal sphincter (LES) to induce an injury healing response to thereby populate the extracellular compartment of walls of the LES with collagen matrices to altere the biomechanics of the LES to provide an increased intra-esophageal pressure for preventing acid reflux. A preferred embodiment is a bougie-type device for trans-esophageal introduction that carries conductive electrodes for delivering Rf energy to walls of the LES (i) to induce the injury healing response or (ii) to “model” collagenous tissues of the LES by shrinking collagen fibers therein.Type: GrantFiled: February 17, 2004Date of Patent: March 7, 2006Inventor: John H. Shadduck
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Patent number: 7004941Abstract: Systems, apparatus, and methods for selectively applying electrical energy to a target location within the head or neck of a patient for treating obstructive sleep disorders. A method of the present invention involves positioning an electrosurgical probe with respect to a target tissue that affects the aperture of the upper airway of the patient. For example, the position of the tongue and the radix linguae affect the upper airway. The position of the tongue is controlled by the genioglossus muscle and tendon. The tendon of the genioglossus muscle may be irreversibly shrunk by positioning an electrosurgical probe in at least close proximity to the tendon, and applying a suitable high frequency voltage to the probe in a sub-ablation mode. Controlled heating of the tendon is effected by application of the high frequency voltage to the probe, wherein the voltage is insufficient to ablate the tissue of the tendon.Type: GrantFiled: November 7, 2002Date of Patent: February 28, 2006Assignee: Arthrocare CorporationInventors: Magne Tvinnereim, Jean Woloszko
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Patent number: 7001379Abstract: Method for heating tissue by delivering radio frequency energy through tissue electrodes having controlling energy delivery so that an abrupt increase in impedance between the electrodes and the tissue is observed, typically in the form of an abrupt decrease in power delivered to the electrodes. The power at which the impedance increases and/or the time required to induce such an increase in impedance, are relied on to determine acceptable ranges to achieve a maximum sustainable delivery of radio frequency energy to the tissue consistent with complete, rapid, and uniform heating of the tissue.Type: GrantFiled: January 12, 2004Date of Patent: February 21, 2006Assignee: Boston Scientific Scimed, Inc.Inventors: Robert S. Behl, Eben L. Kermit, Peter F. Lyons, Colin J. Nichols
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Patent number: 7001380Abstract: A method is disclosed for treating benign conditions, such as enlarged tonsils and/or adenoids located in a patient's throat or nasopharynx, or soft tissue lesions located in a patient's oropharynx or larynx. According to the method, a space containing the patient's nasopharynx, oropharynx or pharynx and larynx is isolated from the patient's trachea and lungs using an inflatable cuff tracheostomy tube or nasotracheal tube inserted in the patient's trachea. The cuff is inflated to occlude the trachea. The patient is placed in a supine position, whereupon at least a portion of the space containing the nasopharynx and/or oropharynx and larynx is filled with saline. An endoscope is then inserted into the space to view the operative site in which the tonsils or tissue lesion are to be treated.Type: GrantFiled: February 25, 2004Date of Patent: February 21, 2006Assignee: Gyrus Medical LimitedInventor: Nigel M. Goble
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Patent number: 6997735Abstract: A return pad cable connector, in accordance with the present disclosure, for use with a disposable return pad, includes a cord having a conductive wire disposed therethrough which conductive wire interconnects the return pad cable connector to an electrosurgical energy source. The return pad clamp further includes a connector operatively coupled to the cord, the connector having a conductive surface which is selectively engageable with a corresponding conductive surface disposed on the return pad, the conductive surface of the connector including a conductive adhesive disposed thereon and a non-conductive adhesive disposed above the periphery of the conductive surface of the connector for engagement with a corresponding non-conductive adhesive disposed above the periphery of the conductive surface of the return pad. The connector can include a magnet for magnetically coupling the connector to the conductive surface disposed on the return pad.Type: GrantFiled: August 17, 2004Date of Patent: February 14, 2006Assignee: Sherwood Services AGInventors: Chris J. Ehr, Joe D. Sartor
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Patent number: 6991631Abstract: Electrosurgical methods, systems, and apparatus for the controlled ablation of tissue from a target site, such as a synovial joint, of a patient. An electrosurgical probe of the invention includes a shaft, and a working end having an electrode array comprising an outer circular arrangement of active electrode terminals and an inner circular arrangement of active electrode terminals. The electrode array is adapted for the controlled ablation of hard tissue, such as meniscus tissue. The working end of the probe is curved to facilitate access to both medial meniscus and lateral meniscus from a portal of 1 cm. or less.Type: GrantFiled: February 13, 2003Date of Patent: January 31, 2006Assignee: Arthrocare CorporationInventors: Jean Woloszko, Paul O. Davison, Theodore C. Ormsby
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Patent number: 6981972Abstract: A catheter introduces electrodes in a vein for a minimally invasive treatment of venous insufficiency by the application of energy to cause selective heating of the vein. The catheter is positioned within the vein to be treated, and the electrodes on the catheter are moved toward one side of the vein. RF energy is applied in a directional manner from the electrodes at the working end of the catheter to cause localized heating and corresponding shrinkage of the adjacent venous tissue, which may include commissures, leaflets and ostia. Fluoroscopy or ultrasound may be used to detect shrinkage of the vein. After treating one section of the vein, the catheter can be repositioned to place the electrodes to treat different sections of the vein until all desired venous valves are repaired and rendered functionally competent.Type: GrantFiled: January 18, 2000Date of Patent: January 3, 2006Assignee: VNUS Medical Technologies, Inc.Inventors: Brian E. Farley, Michael D. Laufer, Dawn A. Henderson, Douglas M. Petty, Mark P. Parker
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Patent number: 6974458Abstract: A bipolar endoscopic device is provided having a detachable power cord with a plug capable of forming a sealed connection with the endoscopic device. The plug is connected at a back face of a movable guide member of the endoscopic device and can be oriented in different orientations to accommodate different operators. The detachable plug forms a sealed connection with the endoscopic device so that the electrosurgical connection cannot be short-circuited by the outside environment such as a saline irrigation fluid.Type: GrantFiled: April 11, 2003Date of Patent: December 13, 2005Assignee: ACMI CorporationInventors: Richard P. Muller, Murray Beaver, Ezra Navok
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Patent number: 6971391Abstract: An assembly for protecting biological tissue from the effects of heating. The assembly contains a conductor in contact with the biological tissue and forming an electrical circuit comprising the biological tissue. The assembly contains a device for modifying the impedance of the electrical circuit such that, at a frequency of from about 10 megahertz to about 150 megahertz, such impedance is at least about 0.5 ohms per centimeter of length of said conductor. The assembly also contains a device for limiting the flow of current through the biological tissue such that, when the assembly is exposed to an alternating current electromagnetic field at a frequency of 64 megahertz and a magnetic field strength of 1.5 Tesla for 15 minutes, the temperature of the biological tissue does not exceed 42 degrees Celsius.Type: GrantFiled: February 24, 2003Date of Patent: December 6, 2005Assignee: Nanoset, LLCInventors: Xingwu Wang, Howard J. Greenwald, Jeffrey L. Helfer, Robert W. Gray
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Apparatus for applying energy to biological tissue including the use of tumescent tissue compression
Patent number: 6969388Abstract: An electrode catheter is introduced into a hollow anatomical structure, such as a vein, and is positioned at a treatment site within the structure. Tumescent fluid is injected into the tissue surrounding the treatment site to produce tumescence of the surrounding tissue which then compresses the vein. The solution may include an anesthetic, and may further include a vasoconstrictive drug that shrinks blood vessels. The tumescent swelling in the surrounding tissue causes the hollow anatomical structure to become compressed, thereby exsanguinating the treatment site. Energy is applied by an electrode catheter in apposition with the vein wall to create a heating effect. The heating effect causes the hollow anatomical structure to become molded and durably assume the compressed dimensions caused by the tumescent technique. The electrode catheter can be moved within the structure so as to apply energy to a large section of the hollow anatomic structure.Type: GrantFiled: April 23, 2001Date of Patent: November 29, 2005Assignee: VNUS Medical Technologies, Inc.Inventors: Mitchel P. Goldman, Robert A. Weiss, James G. Chandler -
Patent number: 6960204Abstract: An electrosurgical probe comprises a shaft having an electrode array (12) at its distal end and a connector at its proximal end. The array (12) includes a plurality of isolated electrode terminals, and an electrosurgical power supply (28) is provided with a multiplicity of independently limited or controlled current sources and a connector. The electrosurgical probe and the power supply may be connected through their respective connectors so that the independent current sources are connected to individual electric terminals. By applying very high frequency electrical energy to the electrode array, target tissue may be cut or ablated while heat dissipation through low impedance paths, such as blood and normal saline, will be minimized.Type: GrantFiled: July 16, 2003Date of Patent: November 1, 2005Assignee: Arthrocare CorporationInventors: Philip E. Eggers, Hira V Thapliyal
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Patent number: 6958063Abstract: The present invention furnishes a plasma generator for generating a cold plasma jet beam in the application field of medicine and in particular of surgery as well as other fields of science. The plasma generator is furnished with a separate, frequency tunable oscillator, wherein the frequency tunable oscillator controls the power end stage through a driver stage. The radio frequency of the outpout of the generator is determined by a resonance frequency of a resonance transformer. The plasma current is limited by a capacitor disposed in the hand piece.Type: GrantFiled: April 21, 2000Date of Patent: October 25, 2005Assignee: Soring GmbH MedizintechnikInventors: Joachim Soll, Klaus Zobawa, Buu Son Trinh, Holger Soring
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Patent number: 6955674Abstract: The control for an ablation catheter provides increased ablation catheter operation feedback and increased options for programmable control of the ablation catheter for clinicians. The control for an ablation catheter has a microcontroller containing memory, an input and output coupled to the microcontroller, a movement program, a comparison program, and an annunciating program. The movement program processes position information from the input to calculate ablation catheter movement. The comparison program compares ablation catheter movement to a predetermined control data.Type: GrantFiled: April 7, 2003Date of Patent: October 18, 2005Assignee: Medtronic, Inc.Inventors: Olaf J. Eick, John C. M. J. Feron
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Patent number: 6955173Abstract: This invention is a method for treating a patient diagnosed with atrial arrhythmia by forming a circumferential conduction block along a circumferential path of tissue in a pulmonary vein wall that circumscribes the pulmonary vein lumen and transects the electrical conductivity of the pulmonary vein such that conduction is blocked along the longitudinal axis of the vein wall and into the left atrial wall. The method is performed to treat a patient with a focal arrythmogenic origin along the pulmonary vein wall by either ablating the focal origin or by isolating the focal origin from the atrial wall with the circumferential conduction block. The circumferential conduction block is also formed in a pulmonary vein in order to bridge the adjacent ends of two linear lesions, wherein each linear lesion is formed to extend between the pulmonary vein and another adjacent pulmonary vein in a less-invasive “maze”-type procedure.Type: GrantFiled: August 30, 2002Date of Patent: October 18, 2005Assignee: The Regents of the University of CaliforniaInventor: Michael D. Lesh
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Patent number: 6939344Abstract: A system and method for treating skin. The system comprises a source of radiation for irradiating the skin and a pair of electrodes for applying a voltage to the skin. An electrical meter measures an electrical response of the skin to the applied voltage. A processor adjusts a parameter of the radiation based upon the measured response. The invention may be used to control skin temperature during thermal treatment.Type: GrantFiled: August 2, 2001Date of Patent: September 6, 2005Assignee: Syneron Medical Ltd.Inventor: Michael Kreindel
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Patent number: 6939345Abstract: A first electrode is positioned within an artery proximate an implanted intravascular stent. A second electrode is positioned at a separate location relative the position of the first electrode. Electrical energy is then delivered between the first and the second electrodes to produce an electrical field adjacent the implanted intravascular stent. When a intravascular stent is implanted in a coronary artery, the delivery of the electrical energy is coordinated to cardiac cycles detected in sensed cardiac signals, where the delivery of the electrical energy between the first electrode and the second electrode occurs during a predetermined portion of the cardiac cycle.Type: GrantFiled: March 26, 2003Date of Patent: September 6, 2005Assignee: Cardiac Pacemakers, Inc.Inventors: Bruce H. KenKnight, Jay A. Warren, Stephen John Hahn
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Patent number: 6936047Abstract: A system for efficient delivery of radio frequency (RF) energy to cardiac tissue with an ablation catheter used in catheter ablation, with new concepts regarding the interaction between RF energy and biological tissue. In addition, new insights into methods for coagulum reduction during RF ablation will be presented, and a quantitative model for ascertaining the propensity for coagulum formation during RF ablation will be introduced. Effective practical techniques a represented for multichannel simultaneous RF energy delivery with real-time calculation of the Coagulum Index, which estimates the probability of coagulum formation. This information is used in a feedback and control algorithm which effectively reduces the probability of coagulum formation during ablation.Type: GrantFiled: May 14, 2001Date of Patent: August 30, 2005Assignee: Agility Capital LLCInventors: Michael Nasab, Eric K. Y. Chan
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Patent number: 6929643Abstract: A treatment electrode of a resectoscope apparatus is substantially semicircular-shaped. A length a of a first segment and a length b of a second segment satisfy a relationship of (a>2·b). The first segment is in parallel with the plane on which a parallel lead member exists and has the maximum width of the treatment electrode. The second segment is vertical to the first segment and has the maximum distance between an intersection to the first segment and an intersection to the treatment electrode.Type: GrantFiled: April 15, 2003Date of Patent: August 16, 2005Assignee: Olympus CorporationInventors: Masahide Ohyama, Kazuya Hijii, Shinji Hatta, Kenji Harano, Takeaki Nakamura, Shuichi Kimura
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Patent number: 6929640Abstract: The present invention provides systems and methods for selectively applying electrical energy to a target location within a patient's body, particularly including tissue in the spine. The present invention applies high frequency (RF) electrical energy to one or more electrode terminals in the presence of electrically conductive fluid to contract collagen fibers within the tissue structures. In one aspect of the invention, a system and method is provided for treating herniated or swollen discs within a patient's spine by applying sufficient electrical energy to the disc tissue to contract or shrink the collagen fibers within the nucleus pulposis. This causes the pulposis to shrink and withdraw from its impingement on the spinal nerve.Type: GrantFiled: February 24, 2000Date of Patent: August 16, 2005Assignee: Arthrocare CorporationInventors: Ronald A. Underwood, Terry S. Davison, Hira V. Thapliyal, Philip E. Eggers
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Patent number: 6923801Abstract: An ablation device placement spacer for use with a patient undergoing a targeted ablation procedure utilizing elongated ablation devices insertable into treatment zones of the patient. The ablation device placement spacer includes an elongated spacing member and at least one ablation device engaging element positioned on the elongated spacing member. During use, an ablation device is releasably engageable with the ablation device engaging element, a spacing portion of the elongated spacing member being spaced from the ablation device engaging element at a desired distance so as to provide the user with an indication of a desired spacing for a subsequent ablation device to be inserted into its respect treatment zone.Type: GrantFiled: September 11, 2003Date of Patent: August 2, 2005Assignee: Endocare, Inc.Inventors: Jeffrey D. Kurtzer, Sanford D. Damasco
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Patent number: 6923805Abstract: Apparatus and methods are provided for ablating body tissue using radio frequency (RF) energy. A catheter having a lumen for delivering fluid can be inserted into a patient's body. A porous member, which may be expandable, is attached to the distal portion of the catheter. The porous member defines an interior region in communication with the lumen, such that the interior region is capable of receiving electrolyte fluid delivered from the proximal portion of the catheter. An RF electrode is disposed in the interior region and is configured for coupling to a source of RF energy, whereby RF energy may be transferred from the electrode to selected tissue areas in a patient's body via electrolyte fluid delivered through the lumen and into the interior region of the porous member.Type: GrantFiled: November 14, 2000Date of Patent: August 2, 2005Assignee: SciMed Life Systems, Inc.Inventors: Daniel M. LaFontaine, Jenifer Kennedy
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Patent number: 6915806Abstract: The present invention provides systems, apparatus and methods for selectively applying electrical energy to body tissue in order to incise, dissect, harvest or transect tissues or an organ of a patient. The electrosurgical systems and methods are useful, inter alia, for accessing, dissecting, and transecting a graft blood vessel, such as the internal mammary arteries (IMA) or the saphenous vein, for use in a by-pass procedure. A method of the present invention comprises positioning an electrosurgical probe adjacent the target tissue so that one or more active electrode(s) are brought into at least partial contact or close proximity with a target site in the presence of an electrically conductive fluid. A high frequency voltage is then applied between the active electrode and one or more return electrode(s). During application of the high frequency voltage, the electrosurgical probe may be translated, reciprocated, or otherwise manipulated such that the active electrode is moved with respect to the tissue.Type: GrantFiled: January 25, 2001Date of Patent: July 12, 2005Assignee: Arthrocare CorporationInventors: James L. Pacek, Hira V. Thapliyal, Philip E. Eggers
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Patent number: 6902564Abstract: Method and devices for electrosurgery by means of oxy-hydro combustion. Deleterious effects to tissue are minimized by means of control of acid-base shift reactions, which reactions can further be employed to control oxy-hydro combustion reactions. In one embodiment, radiofrequency energy in electrical connection with electrodes is employed to induce electrolysis in an aqueous salt environment, thereby producing oxygen and hydrogen, with the same energy source employed to initiate a combustion reaction.Type: GrantFiled: April 9, 2002Date of Patent: June 7, 2005Inventors: Roy E. Morgan, Wayne K. Auge, II, N. Mani Prakash
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Patent number: 6896672Abstract: Systems and methods are provided for removing fatty tissue underlying a patient's epidermis (e.g., blepharoplasty, brow lifts, eyelid shortening procedures, and the like). These methods include positioning one or more active electrode(s) and one or more return electrode(s) in close proximity to a target site on an external body surface of the patient. A high frequency voltage difference is applied between the active and return electrode(s), and the active electrode(s) are translated across the external body surface to create an incision therein. The bipolar configuration controls the flow of current to within and around the distal end of the probe, which minimizes tissue necrosis and the conduction of current through unwanted paths in the patient. The residual heat from the electrical energy also provides simultaneous hemostasis of severed blood vessels, which increases visualization and improves recovery time for the patient.Type: GrantFiled: May 1, 2000Date of Patent: May 24, 2005Assignee: Arthrocare CorporationInventors: Andrew R. Eggers, Philip E. Eggers, Ronald A. Underwood, Stephen M. Brunell, Hira V. Thapliyal
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Patent number: 6896674Abstract: Methods and apparatus for resecting and ablating tissue at a target site of a patient, the apparatus including a probe having an elongate shaft. The shaft includes a shaft distal end portion and a shaft proximal end portion, and a resection unit located at the shaft distal end portion. The resection unit includes a resection electrode support and at least one resection electrode arranged on the resection electrode support. The at least one resection electrode includes a resection electrode head. The probe and resection electrode head are adapted for concurrent electrical ablation and mechanical resection of target tissue. The shaft may include at least one digestion electrode capable of aggressively ablating resected tissue fragments. At least one fluid delivery port on the shaft distal end portion may provide an electrically conductive fluid to the resection unit or to the target site.Type: GrantFiled: November 8, 2000Date of Patent: May 24, 2005Assignee: Arthrocare CorporationInventors: Jean Woloszko, Terry S. Davison, David C. Hovda, Hira V. Thapliyal, Philip E. Eggers
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Patent number: 6896673Abstract: A method for transmural ablation using an instrument containing two electrodes or cryogenic probes. A clamping force is exerted on the two electrodes or probes such that the tissue of the hollow organ is clamped therebetween. Bipolar RF energy is then applied between the two electrodes, or the probes are cryogenically cooled, thus ablating the tissue therebetween. A monitoring device measures a suitable parameter, such as impedance or temperature, and indicates when the tissue between the electrodes has been fully ablated.Type: GrantFiled: December 23, 2002Date of Patent: May 24, 2005Assignee: AtriCure, Inc.Inventor: Michael D. Hooven