ELECTROMEDICAL ASSOCIATES LLC Patent applications |
Patent application number | Title | Published |
20150238245 | FLEXIBLE ELECTROSURGICAL ABLATION AND ASPIRATION ELECTRODE WITH BEVELED ACTIVE SURFACE - Disclosed herein is a flexible single piece active element for use in connection with aspirating electrosurgical ablators, particularly those configured for bulk tissue vaporization. The active electrode elements of the present invention provide a simple construction suitable for use with a wide array of electrosurgical components and adjustable to wide range of angled positions to permit access to a variety of tissues, in an array of diverse environments and address a host of ablation needs. Additionally, the novel geometry and positioning of both ablation surface and aspiration ports permit aspiration flow to remove primarily waste heat rather than process heat, to thereby improve vaporization efficiency and reduce procedure time. Thus, active electrodes and ablation devices of the present invention maximize efficiency and adaptability while minimizing manufacturing cost and device profile. | 08-27-2015 |
20150230856 | DUAL-MODE ELECTROSURGICAL DEVICES AND ELECTROSURGICAL METHODS USING SAME - Herein disclosed are dual-mode electrosurgical devices designed to function in a first mode in which high-density RF energy is used to cut or vaporize tissue, and then a second mode in which lower-density RF energy desiccates tissue to produce hemostasis, as well as methods of performing electrosurgery using same. Devices formed in accordance with the principles of this invention may be used for any surgical procedure in which highly vascular tissue is cut electrosurgically in a dry or semi-dry field, examples of which include tonsillectomy, liver resection, and cosmetic procedures such as breast augmentation, breast reduction, breast mastopexy, and abdominoplasty. | 08-20-2015 |
20150196350 | ELECTROSURGICAL DEVICES HAVING ENHANCED EFFECTIVENESS AND METHODS OF MAKING AND USING SAME - Conventional electrosurgical devices used in a conductive fluid environment have one or more electrodes at the active electrode potential, and one or more return electrodes at the return potential. The shape of the electric field and the current density for a given power setting are determined primarily by the configuration, size and relative locations of the active and return electrodes and of dielectric elements surrounding and separating the electrodes. Two potentials are supplied to the site by the electrosurgical power supply. Disclosed herein are mechanisms and methods for enhancing the effectiveness of an electrosurgical device in a conductive fluid environment that utilize an additional electrode (i.e., an auxiliary electrode) that designates a third potential between that of the active and return electrodes. | 07-16-2015 |
20140364844 | MINIATURIZED DUAL-MODE ELECTROSURGICAL DEVICE AND METHODS OF USING SAME - Described herein is a miniaturized dual-mode high-efficiency electrosurgical device that uses radio frequency (RF) energy to cut, resect, ablate, vaporize, denaturize, drill, coagulate and/or form lesions in soft tissues by means of a current-dispersing active element, with or without the use of externally supplied liquids, when operating in a first mode and then uses energy and same active element to thermally cauterize and/or spot coagulate tissues as needed when operating in a second mode. The miniaturized dual-mode RF electrosurgical devices of the instant invention find particular utility in the field neurosurgery, more particularly in the removal of brain tumors. | 12-11-2014 |
20140088593 | CABLE ASSEMBLIES FOR ELECTROSURGICAL DEVICES AND METHODS OF USE - Herein described is a novel cable assembly that is free from additional resistor, capacitor and inductor components and suitable for connecting a bipolar device to the monopolar active and return receptacles of a standard multipurpose electrosurgical generator. The cable assembly of the instant invention uses a conventional connector currently in use for either hand or foot control of electrosurgical pencils and a standard connector currently in use for dispersive electrodes; either single-foil (solid) or dual-foil (split) configuration connectors may be used. No resistors, capacitors, inductors transformers, or interface circuitry are incorporated in the cable or connectors distal to the electrosurgical generator. | 03-27-2014 |
20140081256 | PORTABLE ELECTROSURGICAL INSTRUMENTS AND METHOD OF USING SAME - In contrast to instruments of the prior art that require bulky, cumbersome and/or costly electrical connections and energy sources, instruments designed in accordance with the instant disclosure are both portable and self-powered. The electrosurgical instruments of the present invention are not limited to a particular use or construction and can be adapted for operation with or without a patient return electrode (sometimes referred to as return pad or plate), in dry or wet fields, in the presence of bodily fluids (such as blood saliva and more), electrically conductive or non-conductive fluids. They may further be optionally equipped or configured for irrigation and or aspiration of liquids, gases or cryogenics, either external, remote or on-board. The electrode component of the electrosurgical instrument of the present invention may be monopolar, bipolar, or multipolar and may optionally include one or more floating electrodes. The electrosurgical instruments of the present invention may be single use (disposable) or multi-use (reusable) and can be compatible with various image-guiding systems, like fluoroscopic, ultrasound and others. | 03-20-2014 |
20140039480 | BIPOLAR ENDOSCOPIC TISSUE ABLATOR WITH SIMPLE CONSTRUCTION - The present invention relates generally to the field of electrosurgery, more particularly to electrosurgical devices and methods that employ high frequency voltage to cut, ablate and/or coagulate tissue in conductive fluid and semi-dry environments, even more particularly to ablation electrodes designed for the bulk removal of tissue by vaporization as opposed to the simple cutting of tissue or coagulation of bleeding vessels. Further to a need in the art, the present invention provides bipolar ablators of simple construction. | 02-06-2014 |
20140018786 | Instruments and Methods for Thermal Tissue Treatment - Disclosed herein are high efficiency surgical devices and methods of using same using radio frequency (RF) electrical power and/or electrically heated filaments to destroy tumors, form lesions, denaturize, desiccate, coagulate and ablate soft tissues, as well as to drill, cut, resect and vaporize soft tissues. According to the principles of this invention, the electrosurgical instruments can be used with externally supplied conductive or non-conductive liquids, as well as without externally supplied liquids, a mode of operation often referred to as “dry field” environment. | 01-16-2014 |
20130079773 | ELECTROSURGICAL DEVICE HAVING BUBBLE TRAP AND FLOATING-POTENTIAL ELECTRODE - Disclosed herein are embodiments of an electrosurgical device that include one or more floating electrodes and are specifically adapted to remove, cut, resect, ablate, vaporize, denaturize, drill, coagulate and form lesions in soft tissues, with or without externally supplied liquids, preferably in combination with a resectoscope, particularly in the context of urological, gynecological, laparoscopic, arthroscopic, and ENT procedures. Specific adaptations for urological and gynecological applications, for example kidney stone removal and BPH treatment, are also described. | 03-28-2013 |
20130053842 | FLEXIBLE ELECTROSURGICAL ABLATION AND ASPIRATION ELECTRODE WITH BEVELED ACTIVE SURFACE - Disclosed herein is a flexible single piece active element for use in connection with aspirating electrosurgical ablators, particularly those configured for bulk tissue vaporization. The active electrode elements of the present invention provide a simple construction suitable for use with a wide array of electrosurgical components and adjustable to wide range of angled positions to permit access to a variety of tissues, in an array of diverse environments and address a host of ablation needs. Additionally, the novel geometry and positioning of both ablation surface and aspiration ports permit aspiration flow to remove primarily waste heat rather than process heat, to thereby improve vaporization efficiency and reduce procedure time. Thus, active electrodes and ablation devices of the present invention maximize efficiency and adaptability while minimizing manufacturing cost and device profile. | 02-28-2013 |
20130041363 | Dual-Mode Electrosurgical Devices And Electrosurgical Methods Using Same - Herein disclosed are dual-mode electrosurgical devices designed to function in a first mode in which high-density RF energy is used to cut or vaporize tissue, and then a second mode in which lower-density RF energy desiccates tissue to produce hemostasis, as well as methods of performing electrosurgery using same. Devices formed in accordance with the principles of this invention may be used for any surgical procedure in which highly vascular tissue is cut electrosurgically in a dry or semi-dry field, examples of which include tonsillectomy, liver resection, and cosmetic procedures such as breast augmentation, breast reduction, breast mastopexy, and abdominoplasty. | 02-14-2013 |
20120245578 | ELECTROSURGICAL DEVICE HAVING FLOATING-POTENTIAL ELECTRODE FOR OBSTRUCTION REMOVAL - Disclosed herein are embodiments of an electrosurgical device that include one or more floating electrodes and are specifically adapted to remove, cut, resect, ablate, vaporize, denaturize, drill, coagulate and form lesions in soft tissues, with or without externally supplied liquids, preferably in combination with a resectoscope, particularly in the context of urological, gynecological, laparoscopic, arthroscopic, and ENT procedures. Specific adaptations for urological and gynecological applications, for example kidney stone removal and BPH treatment, are also described. | 09-27-2012 |
20120239033 | Electrosurgical Device Having Floating-Potential Electrode And Curvilinear Profile - Disclosed herein are embodiments of an electrosurgical device that include one or more floating electrodes and are specifically adapted to remove, cut, resect, ablate, vaporize, denaturize, drill, coagulate and form lesions in soft tissues, with or without externally supplied liquids, preferably in combination with a resectoscope, particularly in the context of urological, gynecological, laparoscopic, arthroscopic, and ENT procedures. Specific adaptations for urological and gynecological applications, for example kidney stone removal and BPH treatment, are also described. | 09-20-2012 |
20120203221 | Electrosurgical Device Having Floating-Potential Electrode And Bubble Trap - Disclosed herein are embodiments of an electrosurgical device that include one or more floating electrodes and are specifically adapted to remove, cut, resect, ablate, vaporize, denaturize, drill, coagulate and form lesions in soft tissues, with or without externally supplied liquids, preferably in combination with a resectoscope, particularly in the context of urological, gynecological, laparoscopic, arthroscopic, and ENT procedures. Specific adaptations for urological and gynecological applications, for example kidney stone removal and BPH treatment, are also described. | 08-09-2012 |
20110282341 | BRAZED ELECTROSURGICAL DEVICE - Disclosed herein is a distal end electrode assembly for use in connection with electrosurgical devices, particularly those adapted for the modification, sculpting, resection, removal, or vaporization of tissue, configured for coagulation, cauterization or hemostasis purposes, or utilized for thermal treatment of normal and tumorous tissues. In the context of the present invention, mechanical fastening means, epoxies and other high-temperature adhesives connecting electrode(s) to insulator(s) are replaced with brazed joints to yield electrosurgical devices capable of safely and reliably operating at high power densities and elevated temperatures without thermal failure of the bonds between the electrode and the insulator. The use of brazed joints further permits the construction of miniaturized, compact electrosurgical devices, of both monopolar and bipolar configurations, having utility in a number of divergent fields, from arthroscopy to otolaryngology to oncology, and applicable to both laparoscopic and open surgery techniques. Thus, active electrodes and electrosurgical devices of the present invention maximize efficiency, safety and reliability while minimizing manufacturing cost and device profile. | 11-17-2011 |
20110264092 | FLEXIBLE ELECTROSURGICAL ABLATION AND ASPIRATION ELECTRODE WITH BEVELED ACTIVE SURFACE - Disclosed herein is a flexible single piece active element for use in connection with aspirating electrosurgical ablators, particularly those configured for bulk tissue vaporization. The active electrode elements of the present invention provide a simple construction suitable for use with a wide array of electrosurgical components and adjustable to wide range of angled positions to permit access to a variety of tissues, in an array of diverse environments and address a host of ablation needs. Additionally, the novel geometry and positioning of both ablation surface and aspiration ports permit aspiration flow to remove primarily waste heat rather than process heat, to thereby improve vaporization efficiency and reduce procedure time. Thus, active electrodes and ablation devices of the present invention maximize efficiency and adaptability while minimizing manufacturing cost and device profile. | 10-27-2011 |
20100016854 | BIPOLAR ELECTROSURGICAL DEVICE WITH FLOATING-POTENTIAL ELECTRODES - An electrosurgical instrument, system, and methods are provided for the vaporization, cutting, coagulation, or treatment of tissue in the presence of an electrically conductive fluid medium. The electrosurgical probe comprises at least one active electrode, and at least one “floating” electrode having at least one end in close proximity to at least one active electrode. The floating electrode is not connected in any way to the electrosurgical power supply, but rather has a “floating” potential determined by the shape and position of the electrode. The floating electrode increases current density in the region of the probe distal end. | 01-21-2010 |