Bipolar Pulses Patents (Class 607/74)
  • Patent number: 11878161
    Abstract: Described is a low voltage, pulsed electrical stimulation device for controlling expression of Collagen Type XVII Alpha 1 chain (COL17A1), a useful protein, by tissues. Also described are methods of COL17A1 in cells.
    Type: Grant
    Filed: January 28, 2021
    Date of Patent: January 23, 2024
    Inventor: Howard J. Leonhardt
  • Patent number: 11191966
    Abstract: An automated method of controlling neural stimulation. A neural stimulus is applied to a neural pathway in order to give rise to an evoked action potential on the neural pathway, and the stimulus is defined by at least one stimulus parameter. A neural compound action potential response evoked by the stimulus is measured. From the measured evoked response a feedback variable such as observed ECAP voltage (V) is derived. A feedback loop is completed by using the feedback variable to control the at least one stimulus parameter value for a future stimulus. The method adaptively compensates for changes in a gain of the feedback loop caused by electrode movement relative to the neural pathway. A compensating transfer function is applied to the feedback variable, the compensating transfer function being configured to compensate for both (i) a distance-dependent transfer function of stimulation, and (ii) a distance dependent transfer function of measurement which is distinct from (i).
    Type: Grant
    Filed: April 5, 2017
    Date of Patent: December 7, 2021
    Assignee: Saluda Medical Pty Ltd
    Inventor: James Hamilton Wah
  • Patent number: 10849678
    Abstract: A method of non-thermally ablating undesirable tissue in the body by application of pulsed, bipolar, instant charge reversal electrical fields of sufficient energy to cause complete and immediate cell membrane rupture and destruction. Energy is delivered through radio frequency pulses of particular frequencies, wave characteristics, pulse widths and pulse numbers, such that enhanced physical stresses are placed on the cell membrane to cause its immediate and complete destruction thereby spilling the entire cell content and membrane constituents into, the extracellular space without denaturing proteins so as to enable an immunological response to destroy and remove the target tissue and similarly marked tissue elsewhere in the subject.
    Type: Grant
    Filed: December 5, 2014
    Date of Patent: December 1, 2020
    Assignee: ImmunSys, Inc.
    Inventors: Gary M. Onik, James A. Miessau
  • Patent number: 10583299
    Abstract: Stimulation treatments for various medical disorders, such as neurological disorders, comprise novel systems, strategies, and methods for providing TMS, electrical, magnetic, optical and other stimulation modalities. Some stimulation methods comprise varying the stimulation parameters to improve the therapeutic efficacy of stimulation, and decrease risk of habituation and side-effects such as interference with normal brain, sensory, motor, and cognitive processes. The creation, and subsequent variation, of stimulation parameters can use sensed data in order to match, adjust, or avoid matching characteristics of the stimulation therapy relative to certain endogenous brain activities. Novel methods are described for choosing, creating and subsequently stimulating with partial signals which summate to produce therapeutic vector fields having unique temporal patterns and low- or high-frequency spectral content. Improvements for the treatment of pain are disclosed.
    Type: Grant
    Filed: January 7, 2019
    Date of Patent: March 10, 2020
    Inventor: Michael Sasha John
  • Patent number: 10391313
    Abstract: Methods, devices and systems for developing new therapy options for patient suffering from neurological disorders. An example may include the use of a therapy patterning system that allows significant freedom to program therapy patterns using arbitrary shapes and functions. For such patterning to be implemented, a physician may identify a condition needing new and/or alternative therapy options, link the identified condition one or more therapy parameters, program, test and assess the therapy. The process may include multiple iterations to address an initial condition and then to mitigate side effects of the initial therapy. Some embodiments comprises devices configured to deliver combinations of therapy patterns to accomplish at least first and second therapeutic purposes.
    Type: Grant
    Filed: December 2, 2016
    Date of Patent: August 27, 2019
    Assignee: BOSTON SCIENTIFIC NEUROMODULATION CORPORATION
    Inventors: Michael A. Moffitt, G. Karl Steinke, Sridhar Kothandaraman, Bradley Lawrence Hershey, Changfang Zhu, Jordi Parramon, Goran N. Marnfeldt, John Rivera, Stephen Carcieri
  • Patent number: 10363194
    Abstract: An oral appliance for use with a subject in his/her mouth includes a flexible tube having an input end and an output end and an electrode coupled to the flexible tube adjacent the output end. The flexible tube is adapted to be positioned in the subject's oral cavity with the output end positioned in a posterior region of the oral cavity. The electrode is adapted and configured to administer an electrical stimulation to the posterior region of the oral cavity. An electrode lead is disposed within the flexible tube and connected to the electrode. An electrical stimulation control unit is connected to the electrode lead. A method of administering an electrical stimulation to a posterior region of an oral cavity of a subject is also provided.
    Type: Grant
    Filed: January 26, 2017
    Date of Patent: July 30, 2019
    Assignee: TRUDELL MEDICAL INTERNATIONAL
    Inventors: Ruth E. Martin, Michael Nuttall, George Baran, Bryan Finlay, Julie Theurer, Sarah Trotter
  • Patent number: 9327121
    Abstract: Selective high-frequency spinal cord modulation for inhibiting pain with reduced side effects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 100 KHz may be applied to the patient's spinal cord region from an epidural location to address phantom limb pain without creating paresthesia in the patient.
    Type: Grant
    Filed: September 7, 2012
    Date of Patent: May 3, 2016
    Assignee: Nevro Corporation
    Inventors: James R. Thacker, Konstantinos Alataris, Bradford Evan Gliner
  • Patent number: 9220895
    Abstract: A system and method of stimulating a nerve of a patient is provided. A electro-therapy device is used that includes a signal generator and two electrodes. The first electrode is positioned on an epidermis of the patient over the nerve to be stimulated. The second electrode is positioned on an epidermis of the patient at a second location. A The electro-therapy device is configured to alternately deliver to a first and second electrode a summation of first and second signals which result in a therapeutic signal encompassing the nerve of the patient. The intensity of the first and second signal is adjusted over time.
    Type: Grant
    Filed: April 8, 2014
    Date of Patent: December 29, 2015
    Assignees: Biowave Corporation, William Beaumont Hospital
    Inventors: Bradford Siff, Kenneth M. Peters
  • Publication number: 20150148862
    Abstract: The present invention includes methods and devices for treating hypotension, such as in cases of shock, including septic shock, anaphylactic shock and hypovolemia. The method includes the step of applying at least one electrical impulse to at least one selected region of a parasympathetic nervous system of the patient. The electrical impulse is sufficient to modulate one or more nerves of the parasympathetic nervous system to increase the ratio of blood pressure to heart rate and relieve the condition and/or extend the patient's life.
    Type: Application
    Filed: February 2, 2015
    Publication date: May 28, 2015
    Inventors: Bruce J. Simon, Joseph P. Errico, Steven Mendez
  • Publication number: 20150039059
    Abstract: A guide catheter system includes a guide catheter having a proximal end, a distal end, an outer wall and a first, second and third electrode wherein the first, second and third electrodes are spaced longitudinally apart from each other on the outer wall of the catheter, and an electrical impulse generator connected to the guide catheter wherein the electrical impulse generator includes a circuit for selecting an adjacent pair of electrodes to use as a bipolar electrode system to send an electrical impulse and a method of use thereof to treat vasospasm.
    Type: Application
    Filed: September 30, 2014
    Publication date: February 5, 2015
    Inventors: ERIC A. MOKELKE, ROBERT SHIPLEY
  • Publication number: 20150039051
    Abstract: A functional electrical stimulation (FES) device and system. In one embodiment, sequential bipolar pulse stimulation may be provided to an area of a living body via one or more electrode leads applied to the area via a FES device comprising a current pulse generating circuit comprising output nodes for operative coupling to the one or more electrode leads, and configured for operative coupling to a voltage supply. The current pulse generating circuit generally comprises positive and negative stimulation paths drawing from the voltage supply to respectively apply positive and negative currents through the area via the one or more electrode leads. In one example, the stimulation paths comprise respective capacitive elements, a capacitance ratio of which dictating, at least in part, an amplitude ratio of the positive and negative currents, wherein periodic alternative activation of the stimulation paths provides the sequential bipolar pulse stimulation.
    Type: Application
    Filed: September 29, 2014
    Publication date: February 5, 2015
    Inventors: Milos R. Popovic, Massimo Tarulli, Aleksandar Prodic, Peter Lehn
  • Patent number: 8948878
    Abstract: A method and device for treating a condition aggravated by the presence of amyloid fibrils is disclosed. The method includes applying a plurality of ultra-short pulses to target tissue comprising amyloid fibrils. The plurality of ultra-short pulses produce an electric field in the target tissue sufficient to change a molecular structure of the amyloid fibrils without causing the death, destruction, or serious injury of healthy cells surrounding the target tissue. For example, the plurality of ultra-short pulses can be sufficient to change the molecular structure of amyloid fibrils without causing apoptosis or necrosis of surrounding cells. The ultra-short pulses can be applied using an electrode device or a wideband antenna. The ultra-short pulses can have a duration ranging from 1 ps to 10 ns, an amplitude ranging from 100 V to 1 MV, and can apply an electrical field to the target tissue ranging from 1 kV/cm to 1 MV/cm.
    Type: Grant
    Filed: June 15, 2011
    Date of Patent: February 3, 2015
    Assignee: Old Dominion University Research Foundation
    Inventors: Karl H. Schoenbach, Lesley Greene
  • Patent number: 8874229
    Abstract: A method comprises applying a first open-loop electrical signal to a neural structure at a first rate. The method also comprises applying a closed-loop electrical signal to the neural structure in response to an event detection, thus causing an overall rate at which electrical stimulation is applied to the neural structure to exceed the first rate. The method further comprises applying a second open-loop electrical signal to a neural structure at a second rate that is lower than the first rate, thus causing the overall rate to be reduced to the first rate.
    Type: Grant
    Filed: April 28, 2010
    Date of Patent: October 28, 2014
    Assignee: Cyberonics, Inc.
    Inventor: John C. Colborn
  • Publication number: 20140303679
    Abstract: A multi-modal electrotherapy apparatus including circuitry for administering defibrillation therapy and for administering medium voltage therapy (MVT). A combined-use capacitor bank of at least one capacitor stores energy to be administered as defibrillation therapy and MVT. Combined-use discharge circuitry electrically is coupled between the combined-use capacitor bank and patient terminals for selectively administering energy from the capacitor bank according to a plurality of controllable waveforms as either defibrillation therapy or MVT. A controller is configured to cause the discharge circuitry to apply the MVT from the capacitor bank while the capacitor bank undergoes charging in preparation for administration of the defibrillation therapy.
    Type: Application
    Filed: April 9, 2014
    Publication date: October 9, 2014
    Applicant: Galvani, Ltd.
    Inventor: Mark W. Kroll
  • Patent number: 8843211
    Abstract: A method and neurostimulation system for providing therapy to a patient is provided. A plurality of electrodes is placed adjacent to tissue of the patient. A plurality of first electrical pulses is delivered to a first set of the electrodes, at least a second electrical pulse is delivered to a second set of the electrodes during the deliverance of each of the first electrical pulses, and at least a third electrical pulse is delivered to a third set of the electrodes during the deliverance of each of the first electrical pulses. The first electrical pulses have a first polarity, and each of the second electrical pulse(s) and third electrical pulses(s) has a second a second polarity opposite to the first polarity. The second and third electrical pulses are temporarily offset from each other.
    Type: Grant
    Filed: December 26, 2012
    Date of Patent: September 23, 2014
    Assignee: Boston Scientific Neuromodulation Corporation
    Inventor: Dongchul Lee
  • Patent number: 8750984
    Abstract: A device for stimulation via electric and magnetic fields is provided. The autonomic/vegetative nervous system can be controlled by signals in the frequency ranges of 0.05 to 0.15 Hz and 0.15 to 0.30 Hz, respectively. By addition of characteristic sinusoidal oscillations between the head and a peripheral area with the corresponding low-frequency sympathetic or parasympathetic control frequency as base oscillation and with application-typical EEG frequencies and higher-frequency sinusoidal oscillations in the range of ca. 250 to 1500 Hz, characteristic stimulation programs are established. These are applied by field applicators in the upper body area and in the lower body. The associated mat applicators distribute field energy. The field applicator is equipped with a combination of a magnetic-field-generating coil arrangement and an electrode arrangement generating the electric field. The electrode generating the electric field can at the same time be designed as a magnetic-field-generating coil.
    Type: Grant
    Filed: August 31, 2006
    Date of Patent: June 10, 2014
    Assignee: Actegy Ltd.
    Inventors: Stewart Penny, Manfred Krauss, Roland Fischer, Werner Schmidt, Mario Mobius
  • Publication number: 20140100638
    Abstract: A functional electrical stimulation system having a boost module to raise an output voltage of a primary power to a first preset voltage, an energy storage module, connected to the boost module, configured to store electrical energy of the first preset voltage, a central control unit configured to generate data packets of electrical stimulation parameters, and an electrical stimulation output channel, connected to the energy storage module, configured to receive the data packets of electrical stimulation parameters, analyze the electrical stimulation parameters from the data packets, convert electrical energy stored in the energy storage module to an electrical stimulation pulse corresponding to the electrical stimulation parameters and apply the electrical stimulation pulse to a part of a user.
    Type: Application
    Filed: June 28, 2011
    Publication date: April 10, 2014
    Inventors: Zengguang Hou, Yixiong Chen, Pengfeng Li, Min Tan, Long Cheng, Qingling Li, Feng Zhang, Jin Hu, Long Peng, Xinchao Zhang
  • Patent number: 8655453
    Abstract: This disclosure describes electrical stimulators that include some electrical sources (e.g., current sources, voltage sources) that are directly connected to a plurality of electrode nodes, and other electrical sources that may be selectively connected to selected ones of the plurality of electrode nodes via a switching unit, such as a multiplexer. One example stimulator comprises a processor, a plurality of electrode nodes, and a stimulation generator that is coupled to the processor and to the plurality of electrode nodes. The stimulation generator comprises a plurality of negative electrical sources, a switching unit, and at least one positive electrical source. The negative electrical sources are each directly connected to a different one of the plurality of electrode nodes. The switching unit is connected to each of the plurality of electrode nodes. The at least one positive electrical source is connected to the switching unit.
    Type: Grant
    Filed: August 14, 2009
    Date of Patent: February 18, 2014
    Assignee: Medtronic, Inc.
    Inventors: Jonathan C. Werder, Todd D. Heathershaw
  • Patent number: 8588931
    Abstract: Neural stimulation is effected by a stimulus current pulse. The current pulse is initially of an amplitude to rapidly induce a desired electrode voltage, and is subsequently of reduced amplitude to control electrode voltage in a desired manner. This can effect a reduced peak electrode voltage while delivering a given amount of charge. Optimization of the current pulse may further involve parameterising an electrode current waveform as a sequence of piecewise constant steps, each step having substantially the same duration as all other steps and each step having a calculatable amplitude, and identifying electrode-tissue interface (ETI) parameters. For each step of the pulse, the respective step amplitude is then calculated using the identified ETI parameters to optimise the electrode voltage.
    Type: Grant
    Filed: September 17, 2010
    Date of Patent: November 19, 2013
    Assignees: National ICT Australia Limited, The Bionics Institute of Australia
    Inventors: Mark Edward Halpern, James Bernard Fallon
  • Publication number: 20130261706
    Abstract: Described herein are methods and systems for delivering a burst of stimulation pulses or pulse segments sequentially to a plurality of stimulation pathways. The stimulation pulses may be generated by a stimulation device, which may comprise an implantable neurostimulator. The stimulation pathways may comprise one or more electrodes electrically connected to the stimulation device. In some variations, the stimulation pathway may comprise a monopolar stimulation pathway and/or a bipolar stimulation pathway.
    Type: Application
    Filed: April 11, 2012
    Publication date: October 3, 2013
    Applicant: NeuroPace, Inc.
    Inventors: Emily A. MIRRO, Stephen T. Archer
  • Publication number: 20130238059
    Abstract: Methods of neuromodulation in a live mammalian subject, such as a human patient. The method comprises applying an electrical signal to a target site in the nervous system, such as the brain, where the electrical signal comprises a series of pulses. The pulses includes a waveform shape that is more energy-efficient as compared to a corresponding rectangular waveform. Non-limiting examples of such energy-efficient waveforms include linear increasing, linear decreasing, exponential increasing, exponential decreasing, and Gaussian waveforms. Also described are apparatuses for neuromodulation and software for operating such apparatuses.
    Type: Application
    Filed: April 11, 2013
    Publication date: September 12, 2013
    Applicant: INTELECT MEDICAL INC.
    Inventors: Randall YORK, Scott KOKONES, Keith CARLTON, Alan GRESZLER
  • Patent number: 8504167
    Abstract: A living tissue stimulation circuit includes: an H-bridged circuit that includes a first series section in which a first semiconductor switch connected to a power source side and a third semiconductor switch connected to a ground side are connected to each other in series, and a second series section in which a second semiconductor switch connected to the power source side and a fourth semiconductor switch connected to the ground side are connected to each other in series, the first series section and the second series section being connected to each other in parallel; a stimulation electrode connected to a first node between the first and third semiconductor switches; a counter electrode connected to a second node between the second and fourth semiconductor switches; and a current adjusting circuit configured to determine a current value output from the stimulation electrode.
    Type: Grant
    Filed: November 4, 2011
    Date of Patent: August 6, 2013
    Assignee: Nidek Co., Ltd.
    Inventors: Eiji Yonezawa, Kenzo Shodo
  • Publication number: 20130144362
    Abstract: A method and neurostimulation system for providing therapy to a patient is provided. A plurality of electrodes is placed adjacent to tissue of the patient. A plurality of first electrical pulses is delivered to a first set of the electrodes, at least a second electrical pulse is delivered to a second set of the electrodes during the deliverance of each of the first electrical pulses, and at least a third electrical pulse is delivered to a third set of the electrodes during the deliverance of each of the first electrical pulses. The first electrical pulses have a first polarity, and each of the second electrical pulse(s) and third electrical pulses(s) has a second a second polarity opposite to the first polarity. The second and third electrical pulses are temporarily offset from each other.
    Type: Application
    Filed: December 26, 2012
    Publication date: June 6, 2013
    Applicant: BOSTON SCIENTIFIC NEUROMODULATION CORPORATION
    Inventor: BOSTON SCIENTIFIC NEUROMODULATION CORPORATION
  • Publication number: 20130131743
    Abstract: Endovascular nerve monitoring devices and associated systems and methods are disclosed herein. A nerve monitoring system configured in accordance with a particular embodiment of the present technology can include a shaft having a proximal portion and a distal portion and a nerve monitoring assembly at the distal portion. The shaft is configured to locate the distal portion intravascularly at a treatment site. The nerve monitoring assembly can include a bipolar stimulation electrode array and a bipolar recording electrode array disposed distal to the bipolar stimulation electrode assembly.
    Type: Application
    Filed: November 6, 2012
    Publication date: May 23, 2013
    Applicant: MEDTRONIC ARDIAN LUXEMBOURG S.A.R.L.
    Inventor: Medtronic Ardian Luxembourg S.a.r.l.
  • Patent number: 8355798
    Abstract: A method and neurostimulation system for providing therapy to a patient is provided. A plurality of electrodes is placed adjacent to tissue of the patient. A plurality of first electrical pulses is delivered to a first set of the electrodes, at least a second electrical pulse is delivered to a second set of the electrodes during the deliverance of each of the first electrical pulses, and at least a third electrical pulse is delivered to a third set of the electrodes during the deliverance of each of the first electrical pulses. The first electrical pulses have a first polarity, and each of the second electrical pulse(s) and third electrical pulses(s) has a second a second polarity opposite to the first polarity. The second and third electrical pulses are temporarily offset from each other.
    Type: Grant
    Filed: November 4, 2009
    Date of Patent: January 15, 2013
    Assignee: Boston Scientific Neuromodulation Corporation
    Inventor: Dongchul Lee
  • Patent number: 8301248
    Abstract: A patient's ejection fraction is maximized through simultaneous sensing and stimulating across multiple electrodes. In one exemplary embodiment, a catheter or lead having multiple electrodes connected to a pulse generator is used. The pulse generator provides individual current control of the stimulus applied to each electrode, and further includes the ability to sense intrinsic and evoked depolarization through multiple electrodes. In another exemplary embodiment, a multiplicity of individual implantable microstimulators, each having its own current source and/or sensor and electrodes, cooperate in concert to provide multi-site stimulation and sensing.
    Type: Grant
    Filed: June 27, 2008
    Date of Patent: October 30, 2012
    Assignee: Boston Scientific Neuromodulation Corporation
    Inventors: James R. Thacker, Kelly H. McClure, Todd K. Whitehurst
  • Publication number: 20120197356
    Abstract: Electrical stimulation systems and methods are configured to deliver remote electrical stimulation to a patient. Stimulation waveforms are employed that are designed to penetrate tissue within a patient to transmit the electrical stimulation from an origination site to a remote delivery site. The waveforms are defined by a series of pulses, which are characterized by a number of parameters, including pulse width, pulse frequency, constant voltage or constant current amplitude, and electrode polarity (anode or cathode). The waveforms include an envelope electrical stimulation pulse train including charge balanced pulses modulated by a high frequency carrier signal configured to deeply penetrate patient tissue to carry the electrical pulse train from an origination site to a remote delivery site.
    Type: Application
    Filed: January 20, 2012
    Publication date: August 2, 2012
    Applicant: Medtronic, Inc.
    Inventors: Xuan Wei, Duane L. Bourget
  • Publication number: 20120185020
    Abstract: Transcutaneous electrical and magnetic nerve stimulation devices are disclosed, along with methods of averting imminent medical attacks using energy that is delivered noninvasively by the devices. The attacks comprise asthma attack, epileptic seizure, attacks of migraine headache, transient ischemic attack or stroke, onset of atrial fibrillation, myocardial infarction, onset of ventricular fibrillation or tachycardia, panic attack, and attacks of acute depression. The imminence of an attack is forecasted using grey-box or black-box models as used in control theory. In preferred embodiments of the disclosed methods, a vagus nerve in the neck of a patient is stimulated noninvasively to avert the attack.
    Type: Application
    Filed: January 24, 2012
    Publication date: July 19, 2012
    Applicant: ElectroCore, LLC.
    Inventors: Bruce Simon, Joseph P. Errico, John T. Raffle
  • Patent number: 8204603
    Abstract: An implantable medical device (IMD) to treat a medical condition in a patient comprises an electrical signal generator; a cathode and an anode operatively coupled to the electrical signal generator and a cranial nerve of the patient; and a third electrode operatively coupled to the electrical signal generator and implanted within the patient's body; wherein the electrical signal generator is capable of generating and delivering at least one electrical signal effective at the anode to block at least a sufficient portion of action potentials induced by the at least one electrical signal in the cranial nerve proximate the cathode to reduce a side effect of said induced action potentials.
    Type: Grant
    Filed: April 25, 2008
    Date of Patent: June 19, 2012
    Assignee: Cyberonics, Inc.
    Inventor: Steven E. Maschino
  • Patent number: 8180445
    Abstract: A neurostimulation system comprises one or more electrical contacts, output stimulation circuitry capable of outputting a multiphasic waveform (e.g., a biphasic waveform) to the electrical contact(s), and control circuitry capable of varying an interphase of the multiphasic stimulation waveform. The control circuitry may also be capable of varying an amplitude of the multiphasic waveform. In this case, the control circuitry may be capable of discretely varying the amplitude of the multiphasic stimulation energy in a plurality of low-resolution steps, and may further be capable of varying the interphase of the multiphasic stimulation energy between the low-resolution steps; for example, by discretely varying the interphase in a plurality of high-resolution steps between each adjacent pair of low-resolution steps.
    Type: Grant
    Filed: March 30, 2007
    Date of Patent: May 15, 2012
    Assignee: Boston Scientific Neuromodulation Corporation
    Inventor: Michael A. Moffitt
  • Publication number: 20120116483
    Abstract: A living tissue stimulation circuit includes: an H-bridged circuit that includes a first series section in which a first semiconductor switch connected to a power source side and a third semiconductor switch connected to a ground side are connected to each other in series, and a second series section in which a second semiconductor switch connected to the power source side and a fourth semiconductor switch connected to the ground side are connected to each other in series, the first series section and the second series section being connected to each other in parallel; a stimulation electrode connected to a first node between the first and third semiconductor switches; a counter electrode connected to a second node between the second and fourth semiconductor switches; and a current adjusting circuit configured to determine a current value output from the stimulation electrode.
    Type: Application
    Filed: November 4, 2011
    Publication date: May 10, 2012
    Applicant: NIDEK CO., LTD.
    Inventors: Eiji YONEZAWA, Kenzo SHODO
  • Patent number: 8121703
    Abstract: A stimulation circuit for a channel in a multi-channel stimulator having a common voltage power supply for each of the channels included therein includes means for generating a stimulation current that is output by the channel and means for selecting between a high voltage compliance mode and a low voltage compliance mode for the channel. In the low voltage compliance mode, the channel operates at a voltage level substantially equal to a voltage level of the common voltage power supply. In the high voltage compliance mode, the channel operates at a voltage level that is higher than the voltage level of the common voltage power supply.
    Type: Grant
    Filed: March 28, 2008
    Date of Patent: February 21, 2012
    Assignee: Advanced Bionics
    Inventor: Logan P. Palmer
  • Publication number: 20120041511
    Abstract: A control system for use with a neurostimulator comprises a user interface for receiving an input from a user and a controller. The user interface has a first control and a second control. The controller is configured for, in response to actuating the first control, operating the neurostimulation control system in a PNFS programming mode, and for, in response to actuating the second control, operating the neurostimulation control system in a PNS programming mode. A method of providing therapy to a patient comprises initially conveying pulsed electrical current at a pulse width into a peripheral tissue region of the patient to create a side effect via stimulation of one of a nerve ending and neural axon, and subsequently conveying pulsed electrical current at an adjusted pulse width into the peripheral tissue region to create a therapeutic effect via stimulation of the other one of the nerve ending and neural axon.
    Type: Application
    Filed: August 4, 2011
    Publication date: February 16, 2012
    Applicant: BOSTON SCIENTIFIC NEUROMODULATION CORPORATION
    Inventor: Dongchul Lee
  • Patent number: 8112156
    Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.
    Type: Grant
    Filed: July 7, 2008
    Date of Patent: February 7, 2012
    Assignee: Lifewave Ltd
    Inventor: Zvi Nachum
  • Patent number: 8095221
    Abstract: To avoid charge accumulation on capacitive connections to implanted electrodes during delivery of stimulation pulses, stimulation pulses are followed by active discharge pulses having opposite polarity of the stimulation pulses. The active discharge pulses preferably have at least one pulse attribute magnitude (e.g., duration, voltage, and/or current) different than a corresponding stimulation pulse and are preferably programmable. Approximately the same total net current flow is delivered during active discharge pulses as during the stimulation pulses, but in the opposite direction and optionally at a lower amplitude. In addition, by reducing the driving voltage and a variable load within the electrical path for delivery of the pulses, power dissipation during active discharge is preferably reduced.
    Type: Grant
    Filed: May 27, 2008
    Date of Patent: January 10, 2012
    Assignee: Advanced Neuromodulation Systems, Inc.
    Inventors: Anthony J Varrichio, Benjamin A Tranchina
  • Patent number: 8060208
    Abstract: An example method for selectively and reversibly preventing the conduction of action potentials in a targeted nerve region is presented. The method includes generating an electrical waveform having two phases and selectively depolarizing a nerve membrane using the electrical waveform. The nerve membrane is depolarized to a state where the nerve membrane cannot conduct an action potential. The depolarization is achieved by selectively repetitively providing the electrical waveform to a targeted nerve region associated with the nerve region to control m gates and h gates in the region and thus to control the availability of ions.
    Type: Grant
    Filed: June 17, 2008
    Date of Patent: November 15, 2011
    Assignee: Case Western Reserve University
    Inventors: Kevin Kilgore, Niloy Bhadra
  • Patent number: 8032225
    Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.
    Type: Grant
    Filed: July 7, 2008
    Date of Patent: October 4, 2011
    Assignee: Lifewave Ltd.
    Inventor: Zvi Nachum
  • Patent number: 8027731
    Abstract: A treatment method and device for promoting a localized increase in the flow of blood through a blood vessel in an area of the body, the method including the steps of: (a) providing a system including: (i) at least a first electrode operatively contacting a first portion of body tissue; (ii) at least a second electrode operatively contacting a second portion of body tissue; and (iii) a signal generator, operatively connected to the first electrode and the second electrode, for providing a plurality of electrical impulses to the electrodes; (b) applying the electrical impulses so as to subject the muscular tissue to at least one voltage differential, thereby inducing repeated, contracting, directional movement of muscular tissue associated within the blood vessel, so as to produce a localized increase in the flow of blood through the blood vessel.
    Type: Grant
    Filed: July 7, 2008
    Date of Patent: September 27, 2011
    Assignee: Lifewave Ltd.
    Inventor: Zvi Nachum
  • Patent number: 8027721
    Abstract: External pacemaker systems and methods deliver pacing waveforms that minimize hydrolysis of the electrode gel. Compensating pulses are interleaved with the pacing pulses, with a polarity and duration that balance the net charge at the electrode locations. The compensating pulses are preferably rectangular for continuous pacing, and decay individually for on-demand pacing.
    Type: Grant
    Filed: March 24, 2003
    Date of Patent: September 27, 2011
    Assignee: Physio-Control, Inc.
    Inventor: Joseph L. Sullivan
  • Patent number: 7949403
    Abstract: An electrical stimulation system and method for the treatment of neurological disorders is disclosed. In a preferred embodiment, the electrical stimulation system includes channels of electrodes positioned in electrical contact with tissue of a neuromuscular target body region of a patient to provide pattered neuromuscular stimulation to the patient's musculature. In addition, at least one electrode from a channel is positioned in electrical contact with a tissue of the motor control region of the brain. A series of patterned electrical pulses are then applied to the patient through the channels to provide peripheral neuromuscular stimulation, and a direct current is applied transcranially to the brain. Various exemplary embodiments of the invention are disclosed.
    Type: Grant
    Filed: February 27, 2007
    Date of Patent: May 24, 2011
    Assignee: Accelerated Care Plus Corp.
    Inventors: Francis X. Palermo, J. Chris Castel
  • Publication number: 20110106221
    Abstract: The present invention provides systems, methods, and devices for electroporation-based therapies (EBTs). Embodiments provide patient-specific treatment protocols derived by the numerical modeling of 3D reconstructions of target tissue from images taken of the tissue, and optionally accounting for one or more of physical constraints or dynamic tissue properties. The present invention further relates to systems, methods, and devices for delivering bipolar electric pulses for irreversible electroporation exhibiting reduced or no damage to tissue typically associated with an EBT-induced excessive charge delivered to the tissue.
    Type: Application
    Filed: October 18, 2010
    Publication date: May 5, 2011
    Inventors: Robert E. Neal, II, Paulo A. Garcia, Rafael V. Davalos, John H. Rossmeisl, John L. Robertson
  • Patent number: 7824341
    Abstract: A method of identifying the fossa ovalis in a patient by positioning one or more electrodes against the tissue of the interatrial septum of the patient and acquiring unipolar and/or bipolar electrograms of the tissue of the interatrial septum while moving the electrodes to a plurality of positions against the tissue of the interatrial septum. The fossa ovalis is identified on the basis of unipolar voltage reduction, signal fractionation, broadened signal, reduced signal slew rate, reduced local myocardial impedance, increased phase angle and/or increased pacing threshold. An apparatus for identify the fossa ovalis is also provided.
    Type: Grant
    Filed: September 19, 2007
    Date of Patent: November 2, 2010
    Assignee: St. Jude Medical, Atrial Fibrillation Division, Inc.
    Inventor: Subramaniam C. Krishnan
  • Publication number: 20100268307
    Abstract: Methods and apparatus are provided for intravascularly-induced neuromodulation using a pulsed electric field, e.g., to effectuate irreversible electroporation or electrofusion, necrosis and/or inducement of apoptosis, alteration of gene expression, changes in cytokine upregulation, etc., in target neural fibers. In some embodiments, the intravascular PEF system comprises a catheter having a pair of bipolar electrodes for delivering the PEF, with a first electrode positioned on a first side of an impedance-altering element and a second electrode positioned on an opposing side of the impedance-altering element. A length of the electrodes, as well as a separation distance between the first and second electrodes, may be specified such that, with the impedance-altering element deployed in a manner that locally increases impedance within a patient's vessel, e.g.
    Type: Application
    Filed: June 30, 2010
    Publication date: October 21, 2010
    Applicant: Ardian,Inc.
    Inventors: Denise Demarais, Nicolas Zadno, Benjamin J. Clark, Erik Thai
  • Patent number: 7769463
    Abstract: A therapeutic electrostimulation apparatus and method operates to supply electrostimulation signals to three channels. The basic electrostimulation signal for each of the channels is the same; and this signal is applied to a transcranial electrostimulation set of output electrodes. A second channel provided with the same signal is further operated to modulate the signal with a dual frequency signal pattern for the application of the second channel signal to a second set of electrodes, typically applied to the body near the spinal area. A third channel supplied with the basic electrostimulation signal modulates the electrostimulation signal during a portion of a treatment session with a diapason of frequencies varying randomly, and the output of this channel is applied to a set of electrodes at a local area for therapeutic treatment.
    Type: Grant
    Filed: June 19, 2007
    Date of Patent: August 3, 2010
    Assignee: Kalaco Scientific, Inc.
    Inventor: Yakov Katsnelson
  • Publication number: 20100094375
    Abstract: An apparatus for applying a signal to a nerve for the treatment of a disorder includes a first electrode and a second electrode. Each of the electrodes is adapted to be secured to a nerve of a patient. A signal generator is electrically connected to each of the first and second electrodes. The signal generator is adapted to create a signal having a first waveform at the first electrode and a second waveform at the second electrode. The waveforms have parameters selected to block propagation of neural action potentials. The waveforms have a repeating pattern of cycles of pulses with a delay period between at least selected ones of said pulses. In one embodiment, the first and second waveforms are out of phase for a cycle of one of the waveforms to occur during a delay period of the other of the waveforms.
    Type: Application
    Filed: December 15, 2009
    Publication date: April 15, 2010
    Applicant: EnteroMedics Inc.
    Inventors: Adrianus P. Donders, Koen J. Weijand, Mark B. Knudson
  • Publication number: 20100042187
    Abstract: This disclosure describes electrical stimulators that include some electrical sources (e.g., current sources, voltage sources) that are directly connected to a plurality of electrode nodes, and other electrical sources that may be selectively connected to selected ones of the plurality of electrode nodes via a switching unit, such as a multiplexer. One example stimulator comprises a processor, a plurality of electrode nodes, and a stimulation generator that is coupled to the processor and to the plurality of electrode nodes. The stimulation generator comprises a plurality of negative electrical sources, a switching unit, and at least one positive electrical source. The negative electrical sources are each directly connected to a different one of the plurality of electrode nodes. The switching unit is connected to each of the plurality of electrode nodes. The at least one positive electrical source is connected to the switching unit.
    Type: Application
    Filed: August 14, 2009
    Publication date: February 18, 2010
    Applicant: Medtronic, Inc.
    Inventors: Jonathan C. Werder, Todd D. Heathershaw
  • Publication number: 20100016828
    Abstract: A method for delivering a therapeutic agent to a predetermined location in a host is disclosed, wherein a liposome-encapsulated therapeutic agent is administered to the host, and an electrical field which encompasses a predetermined region within the host is established, such that as the liposome-encapsulated agent is exposed to the electrical field the release of the agent from the liposome to the predetermined region is enhanced.
    Type: Application
    Filed: September 24, 2009
    Publication date: January 21, 2010
    Inventors: Jeffrey P. Walker, Robert M. Bernard
  • Publication number: 20090287279
    Abstract: A method for configuring stimulation pulses in an implantable stimulator device having a plurality of electrodes is disclosed, which method is particularly useful in adjusting the electrodes by current steering during initialization of the device. In one aspect, a set of ideal pulses for patient therapy is determined, in which at least two of the ideal pulses are of the same polarity and are intended to be simultaneous applied to corresponding electrodes on the implantable stimulator device during an initial duration. These pulses are reconstructed into fractionalized pulses, each comprised of pulse portions. The fractionalized pulses are applied to the corresponding electrodes on the device during a final duration, but the pulse portions of the fractionalized pulses are not simultaneously applied during the final duration.
    Type: Application
    Filed: May 15, 2008
    Publication date: November 19, 2009
    Applicant: BOSTON SCIENTIFIC NEUROMODULATION CORPORATION
    Inventors: JORDI PARRAMON, RAFAEL CARBUNARU, MATT I. HALLER
  • Publication number: 20090240304
    Abstract: Methods and apparatus to restore central and peripheral disorders/dysfunction caused by edema, ischemia, and nitric oxide (NO) deficiency and to improve or facilitate muscle performance (e.g. endurance and recovery) by utilizing a device which stimulates cell initiated NO activation, promotes interstitial protein clearance, and induces angiogenesis. By use of these methods and apparatus, it is possible to treat a number of disorders/diseases caused by a deficiency of nitric oxide, a lack of proper circulation and vascularity, a build up of proteins and increased tissue water content due to injury; and to improve or facilitate muscle performance (e.g., muscle endurance and muscle recovery.
    Type: Application
    Filed: October 15, 2008
    Publication date: September 24, 2009
    Inventors: Kenneth Blum, William J. Heaney, Roger L. Waite
  • Patent number: RE42835
    Abstract: An apparatus and method for non-invasive treatment in lieu of cosmetic surgery is disclosed. The apparatus comprises a combination of a high and low voltage pulse generators connected to two or more electrodes placed on a treatment site of the patient's body. High voltage pulses, delivered to the electrodes, create an electric field that kills subcutaneous fat cells. Low voltage pulses, delivered to the same or individual electrodes provide transcutaneous electrical nerve stimulation (TENS), blocking the signals of discomfort or pain that may arise from the high voltage pulsing.
    Type: Grant
    Filed: October 1, 2009
    Date of Patent: October 11, 2011
    Assignee: AngioDynamics, Inc.
    Inventors: Victor Chornenky, Ali Jaafar