Entries |
Document | Title | Date |
20080269736 | Autoclaveable handle with stripping mechanism to attach a disposable connecting cable - Embodiments of a handle for use in a surgical tool that uses electricity is disclosed. In one embodiment, the handle is autoclaveable and reusable, and includes connections between an electrical cable (e.g. for providing electrical energy and/or transmitting electrical signals) and an operating end of the tool. An insert member having arms for stripping wire or cable electrically connects the cable and the operating end of the tool, and a set screw may be provided to hold the cable in place. A clip member may also be provided to hold the handle to the rest of the tool. Method for using and assembling handle embodiments are also described. | 10-30-2008 |
20080281309 | Capacitive electrosurgical return pad with contact quality monitoring - A return pad includes a backing, at least one return electrode, and at least one ring sensor. The backing has a top side, a bottom side, and a periphery. The return electrode is disposed on the bottom side of the backing layer and is adapted to connect to a current generator. The ring sensor(s) is disposed in substantial concentric registration with the periphery of the backing and is configured to connect to a measuring component. The measuring component is operable to approximate contact quality of the return electrode during electrosurgical application and is configured to communicate with the generator. | 11-13-2008 |
20080281310 | Temperature monitoring return electrode - An electrosurgical return electrode is disclosed. The return electrode includes a first and second flexible conductive material layers and a material layer disposed between the first and second conductive material layers. The material layer is transitionable between a solid state and a non-solid state, the material layer is also configured to melt upon an increase in temperature beyond a predetermined threshold, thereby increasing conductivity between the first and second conductive material layer. | 11-13-2008 |
20080281311 | Temperature monitoring return electrode - An electrosurgical return electrode includes a conductive pad including a patient-contacting surface configured to conduct electrosurgical energy, and a temperature sensing circuit coupled to the conductive pad. The temperature sensing circuit includes a plurality of switching elements connected in series, wherein each of the plurality of switching elements is configured to vary in impedance in response to temperature changes, such that an interrogation signal transmitted therethrough is indicative of the temperature change. | 11-13-2008 |
20090024118 | Surgical Device For Bone Surgery - A surgical device ( | 01-22-2009 |
20090036881 | Polyp removal jaws and method of use - Apparatus configured for the removal of polyps are provided and include a first jaw member including first and second elongated members, the first and second elongated members having proximal and distal ends and defining a channel therebetween; and a second jaw member having proximal and distal ends and defining a tissue contacting surface, the proximal end of the second jaw member being pivotably coupled between the proximal ends of the first and second elongated members, wherein the distal end of the second jaw member is in a spaced apart relationship with the first jaw member when in a first position, and the distal end of the second jaw member extends into the channel defined between the distal ends of first and second elongated members when in a second position. | 02-05-2009 |
20090209953 | Multi-Layer Return Electrode - An electrosurgical return pad including a material backing configured to support first and second conductive materials and an insulative layer disposed therebetween. A switch element is mounted on the first conductive material and is activatable upon reaching a threshold condition, such as temperature. Upon reaching the threshold condition, the switch element automatically activates to provide electrical continuity between the first and second conductive materials to offset the threshold condition. | 08-20-2009 |
20100076422 | Thermal Treatment of Nucleus Pulposus - A method for relieving pain associated with an intervertebral disc having a disc nucleus pulposus is provided. The method includes the initial step of: providing an elongated probe member having proximal and distal ends and defining a longitudinal axis, and having a flexible guidable region adjacent the distal end. The method also includes the steps of: introducing the flexible guidable region of the probe into the nucleus pulposus of the intervertebral disc and supplying energy to the guidable region from an energy source, to heat or induce an electromagnetic field within the nucleus pulposus sufficient to denature proteins expressing at least one inflammatory cytokine. | 03-25-2010 |
20100121317 | Electrosurgical Power Control - A method and apparatus include determining a value of a parameter associated with operation of an electrosurgical probe having a particular probe design, and determining whether the value of the parameter is within a range of values that has been predetermined for the particular probe design to indicate that the probe is treating tissue in a desired manner. Power is delivered to the probe according to an algorithm based upon a determination that the value of the parameter is outside the range of values The algorithm delivers power in a pulsed profile including portions of low power and portions of high power. In one embodiment, the tissue treatment is ablation, the parameter is impedance, and the method limits tissue necrosis to less than 200 microns. In another embodiment, the tissue treatment is shrinkage, the parameter is temperature, and the method limits power delivery when the probe is not shrinking tissue. | 05-13-2010 |
20100145327 | SYSTEMS FOR TREATING A HOLLOW ANATOMICAL STRUCTURE - A working end of a catheter includes at least one therapeutic element, such as a resistive heating element, usable to deliver energy for ligating, or reducing the diameter of, a hollow anatomical structure. In certain examples, the catheter includes a lumen to accommodate a guide wire or to allow fluid delivery. In certain embodiments, a balloon is inflated to place resistive element(s) into apposition with a hollow anatomical structure and to occlude the structure. Indexing devices and methods are also disclosed for successively treating portions of the hollow anatomical structure. In certain examples, marks along the catheter shaft provide visual verification to the physician of the relative position of the therapeutic element of the catheter. Embodiments of indexing devices may include pairs of rings and/or hinged arms that move a catheter a desired indexed position between successive treatments. | 06-10-2010 |
20100198211 | DEVICES, SYSTEMS, AND METHODS FOR VALVE REMOVAL - Devices, systems, and methods for percutaneous and mini-invasive valve removal are provided. In at least one embodiment of a device for removing a valve, said device comprises a catheter, two mesh umbrellas coupled thereto, a cauterizing mechanism operable to excise a valve from a vessel, and a mechanical drill operable to grind said excised valve to allow for removal of the ground excised valve by way of an enclosure created by the two mesh umbrellas. In another embodiment, a temporary stent valve is positioned near the valve to be excised to avoid aortic insufficiency during valve excision. | 08-05-2010 |
20100222773 | COATING SUITABLE FOR SURGICAL INSTRUMENTS - A coating and devices using the coating are provided. The coating is applied in liquid form and dried or otherwise cured to form a durable adherent coating resistant to high temperatures and having optional hydrophobic properties. The coating formulation contains an aqueous formulation of silica, one or more fillers, and sufficient base, (e.g., potassium hydroxide), to have a pH exceeding about 10.5 during at least part of the formulation process. The formulation may contain a compound(s) that affects surface free energy, energy to make the cured coating hydrophobic. Such compounds include silanes containing halogens (e.g., fluorine or chlorine) and in particular silanes containing one or more hydrolyzable groups attached to at least one silicon atom and a group containing one or more halogens (e.g., chlorine or fluorine). A medical instrument (e.g., electrosurgical instrument) may be at least partially covered by a coating using the formulation. | 09-02-2010 |
20100249768 | METHOD FOR REMOVING TATTOOS OR SCARS - The invention relates to medicine and can be used for removing tattoos, scars, keloid and wound cicatrices. The inventive method consists in acting on the epidermal layer with an alternating electric field in such a way that high-frequency discharges are formed between the epidermal layer and a needle electrode. The method makes it possible to effectively remove tattoos of different colors and scars of different nature. The removal is carried out during a minimum time and does not bring about any complications, since the skin areas with defects to be removed are not exposed to excessive thermal action. | 09-30-2010 |
20100292683 | BIOMEDICAL DISPERSIVE ELECTRODE - Herein is disclosed a biomedical dispersive electrode which can redistribute the current in the subject body, increase subject safety, reduce the chance for burns and other tissue damage as well as discomfort experienced by subject during or after usage. Electrodes based on the principles of this invention can be made smaller than electrodes based on the principles of the prior art. | 11-18-2010 |
20110112522 | IONIZED GAS FOR MEDICAL TREATMENT - The present invention relates to a method for treatment of a pathology-affected site in a subject, the method comprising providing said site with a net electrical charge for a period of time by subjecting the subject to a flux of ionized gas molecules whereby is provided an electrical current between said site and tissue outside said site. | 05-12-2011 |
20110238052 | Shaped Circuit Boards Suitable for Use in Electrosurgical Devices and Rotatable Assemblies Including Same - An electrosurgical instrument includes a housing having an elongated shaft extending therefrom and a rotatable member disposed on the housing and operably connected to the elongated shaft. The elongated shaft defines a longitudinal axis extending therealong. The rotatable member is configured to rotate the elongated shaft about the longitudinal axis upon actuation thereof. The rotatable member includes an inner surface defining an interior space therein configured to house at least one printed circuit board about the elongated shaft. | 09-29-2011 |
20110251604 | NANO DISCHARGES IN LIQUIDS - The present invention is direct to a nano-probe corona tool and uses thereof. A nano-probe corona tool is disclosed having a tip with a diameter in the nano-scale, typically around 100 nm. The nano-probe corona tool is constructed of electrically conductive material. On the other end of the tool, a pulsed voltage source outputs a pulsed voltage to generated a pulsed electrical potential at the tip. The pulsed electrical potential at the tip causes a plasma discharge corona to occur. Uses of the corona discharge include, but are not limited to, optical emission spectroscopy, in the enhancement of deposition of coatings and nanoscale welding, e.g., nanotube or nanowires to a contact pad and welding two nanowires together, and in nanoscale surgery. For example, a nano-probe comprising CNTs may be inserted into cell membranes. The resulting corona discharge may be used to destroy tumors within the cell. | 10-13-2011 |
20110276044 | METHOD FOR TREATING BIOLOGICAL MATERIAL - A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an n | 11-10-2011 |
20120078242 | Attenuated RF Power for Automated Capsulorhexis - A capsulorhexis apparatus includes a capsulorhexis probe configured for insertion into an eye through an incision and a pulse generator configured to deliver at least one radio-frequency (RF) pulse to the capsulorhexis probe. The delivered RF pulse has a pre-determined attenuation profile such that the power level of the delivered RF pulse is substantially attenuated over the RF pulse's duration. In some embodiments, the pulse generator is configured to deliver a series of two or more RF pulses to the eye, such that the energy of each of the second and subsequent pulses of the series is substantially attenuated relative to the energy of the immediately preceding pulse. | 03-29-2012 |
20120123402 | Method and Apparatus for Vascular Tissue Sealing with Reduced Energy Consumption - An end effector assembly for use with an electrosurgical instrument is provided. The end effector assembly includes a pair of opposing jaw members configured to grasp tissue therebetween. Each of the opposing jaw members includes a non conducting tissue contact surface and an energy delivering element configured to perforate the tissue to create an opening, extract elastin and collagen from the tissue and denaturize the elastin and the collagen in the vicinity of the opening. | 05-17-2012 |
20120203216 | SYSTEMS, ASSEMBLIES, AND METHODS FOR TREATING A BRONCHIAL TREE - Systems, assemblies, and methods to treat pulmonary diseases are used to decrease nervous system input to distal regions of the bronchial tree within the lungs. Treatment systems damage nerve tissue to temporarily or permanently decrease nervous system input. The treatment systems are capable of heating nerve tissue, cooling the nerve tissue, delivering a flowable substance that cause trauma to the nerve tissue, puncturing the nerve tissue, tearing the nerve tissue, cutting the nerve tissue, applying pressure to the nerve tissue, applying ultrasound to the nerve tissue, applying ionizing radiation to the nerve tissue, disrupting cell membranes of nerve tissue with electrical energy, or delivering long acting nerve blocking chemicals to the nerve tissue. | 08-09-2012 |
20120220993 | TREATMENT DEVICE FOR ELECTROSURGERY - The treatment device for electrosurgery includes a sheath; a needle-like electrode portion that has a distal end and a proximal end, and treats a target site at the distal end; a first electrode that is provided to the distal end of the needle-like electrode portion; a second electrode of which the relative positional relationship with respect to the first electrode is fixed at a position separated from the first electrode toward the proximal end; an insulator that insulates the first electrode from the second electrode by being interposed between the first and second electrodes; a first conductive portion that applies a high-frequency current to the first electrode; and a second conductive portion that applies a high-frequency current to the second electrode wherein a plurality of electrodes, which become passive electrodes of the high-frequency current between the first electrode and the second electrode, is provided. | 08-30-2012 |
20130060244 | Electrosurgical Device and Methods - An electrosurgical bipolar probe with internal cooling for use in systems and methods for lesioning in bone and other tissue is disclosed. The bipolar probe includes tubular electrodes configured such that the inner surface of the electrodes are cooled, directly or indirectly, while keeping the electrodes electrically isolated. An exemplary disclosed method of using a bipolar probe having an active tip having at least two electrodes for delivering energy includes the steps of: advancing the active tip into a bone tissue; delivering energy substantially between the electrodes in a bipolar manner; and supplying cooling fluid to the active tip for internal cooling of the electrodes. Some versions of the method further include the steps of monitoring the temperature of tissue to which the energy is being delivered; and controlling the delivery of energy in response to the temperature of the tissue. | 03-07-2013 |
20130218153 | CLEANING DEVICE AND METHODS - An apparatus for treating tissue within a lumen may include a therapeutic or diagnostic instrument. A cleaning device may also be supported by the instrument. The cleaning device has a portion of a cleaning surface positioned proximal to the distal end of the cleaning device. | 08-22-2013 |
20140031807 | Electromagnetic Shielding For An Electrosurgical Unit - An electromagnetic shield apparatus is provided for an existing electrosurgical unit (ESU) including a pencil assembly and return pad assembly. The pencil assembly includes a pencil, pencil-assembly cable and terminal couplable to the ESU, and the return pad assembly includes a return pad, return-pad-assembly cable and return-pad-assembly terminal couplable to the ESU. The electromagnetic shield apparatus includes an electrically-conductive shield, a low-impedance, electrically-passive termination jumper and an insulated, low-impedance conductive cable. The electrically-conductive shield is configured for placement over the pencil-assembly cable to thereby cover and extend coaxially with the pencil-assembly cable. The termination jumper is couplable to and between the return-pad-assembly terminal and ESU, and the conductive cable is coupled to and between the electrically-conductive shield and termination jumper. | 01-30-2014 |
20140039479 | ENERGETIC MODULATION OF NERVES - In some examples, nerves surrounding arteries or leading to organs are targeted with energy sources to correct or modulate physiologic processes. In some examples, different types of energy sources are utilized singly or combined with one another. In some examples, bioactive agents or devices activated by the energy sources are delivered to the region of interest and the energy is enhanced by such agents or the agents are enhanced by the energy sources. | 02-06-2014 |
20140052118 | CATHETERS AND METHODS FOR INTRACARDIAC ELECTRICAL MAPPING - A method and system capable of identifying ectopic foci, rotors, or conduction pathways involved in reentrant arrhythmias within cardiac tissue, and then treating identified ectopic foci, rotors, and/or pathways with either lethal or sub-lethal temperatures. The system includes a medical device having one or more mapping elements and one or more treatment elements, and a computer programmable to identify ectopic foci and rotors based at least in part on signals received from the one or more mapping elements at one or more locations. | 02-20-2014 |
20140058372 | TREATMENT FOR RENAL FAILURE - A method of increasing renal function in a patient operates by stimulation of perivascular sympathetic nerves found in the vicinity of the hepatic portal vein and the hepatic artery. The method can be used as a treatment for renal failure or chronic kidney disease. Alternatively, the method can be used as a prophylactic treatment for preventing contrast-induced nephropathy or any other toxic nephropathy, which can result in renal failure. The perivascular sympathetic nerves can be stimulated by applying energy, such as electrical energy, light, vibration, and ultrasonic vibration, to the perivascular sympathetic nerves. Various methods are described for stimulating the perivascular sympathetic nerves using electrodes that are placed using minimally-invasive techniques. | 02-27-2014 |
20150297291 | COMBINED THERMAL THERAPY AND HYDROGEL WITH EMBEDDED STEM CELL TREATMENT - An energy delivery device for administering tissue therapy includes a housing and an elongated body extending distally from the housing. The energy delivery device also includes a first lumen extending a length of the elongated body. The first lumen is configured to facilitate application of thermal treatment to a target region of tissue. A second lumen extends the length of the elongated body and is configured to facilitate infusion of hydrogels embedded with stem cells to the target region of tissue thermally treated. The energy delivery device further includes a third lumen configured to facilitate delivery of ultraviolet (UV) light to the target region of tissue for curing the hydrogels. A distal end of the elongated body is positioned in proximity to the target region of tissue for enabling successive introduction of the thermal treatment, infusion of the hydrogels, and delivery of the UV light. | 10-22-2015 |
20160166309 | Method and System for Determining Ablation Parameters for Ablating a Tissue | 06-16-2016 |