Class / Patent application number | Description | Number of patent applications / Date published |
607066000 | Generating more than one signal | 31 |
20090018619 | SHIFTING OF ELECTRICAL STIMULATION ELECTRODE COMBINATIONS AMONG DIFFERENTLY SIZED ELECTRODE ARRAYS - The disclosure provides techniques for parameter-directed shifting of electrical stimulation electrode combinations. An external programmer permits a user to shift electrode combinations, e.g., along the length of a lead or leads. The external programmer accepts shift input and causes an electrical stimulator to shift electrode combinations as indicated by the input. Different sets of electrodes may have different electrode counts. For example, an array of electrodes carried by one lead may have a greater number of electrodes than an array of electrodes carried on another lead. The disclosure provides techniques for shifting electrode combinations among leads with different electrode counts. For example, an external programmer may execute shifts in a series of shift operations, where the number of shift operations along the length of a lead having a greater electrode count is greater than the number of shift steps along the length of a lead having a lesser electrode count. | 01-15-2009 |
20090024189 | USE OF STIMULATION PULSE SHAPE TO CONTROL NEURAL RECRUITMENT ORDER AND CLINICAL EFFECT - A method, electrical tissue stimulation system, and programmer for providing therapy to a patient are provided. Electrodes are placed adjacent tissue (e.g., spinal cord tissue) of the patient, electrical stimulation energy is delivered from the electrodes to the tissue in accordance with a defined waveform, and a pulse shape of the defined waveform is modified, thereby changing the characteristics of the electrical stimulation energy delivered from the electrode(s) to the tissue. The pulse shape may be modified by selecting one of a plurality of different pulse shape types or by adjusting a time constant of the pulse shape. | 01-22-2009 |
20090157149 | DERMATOME STIMULATION DEVICES AND METHODS - A nerve stimulation device includes a first waveform generator adapted to generate a first waveform having a first frequency capable of stimulating nerves within a dermatome, a second waveform generator adapted to generate a first carrier waveform having a second frequency capable of passing through tissue of a mammal, and a third waveform generator adapted to generate a second carrier waveform having a third frequency different than the second frequency and being capable of passing through the tissue of the mammal. The device includes a modulator electrically coupled to the first, second and third waveform generators and adapted to modulate the first waveform, the first carrier waveform, and the second carrier waveform to generate a modulated signal package capable of stimulating the nerves at different depths within the dermatome. The device also has an electrode electrically coupled to the modulator for applying the modulated waveform to the dermatomic region. | 06-18-2009 |
20100036464 | ELECTRONIC STIMULATION DEVICE - An electronic stimulation device is provided. The electronic stimulation device includes a wave generation device and a wave buffer connected to the wave generation device. A wave amplifier is connected to the wave buffer, and a transformer is connected to the wave amplifier. The transformer is configured for connection to leads for transmitting a current through a body of a user. The present invention further provides a method for providing electronic stimulation to a body of a user. | 02-11-2010 |
20100070005 | DEVICE FOR CONTROLLING THE ELECTRIC CHARGE ON STIMULATING ELECTRODES - A device for stimulating living tissue or nerves by individual or repeated stimulating pulses via stimulating electrodes which stimulate living tissue or nerves by stimulating pulses includes an electrical circuit which regulates the electric voltage or charge on the stimulating electrodes as a function of the electric voltage between the stimulating electrodes and reduces or equalises imbalances of electric charges on the stimulating electrodes. This device is capable of equalizing the electric charge on the stimulating electrodes of a stimulation system. The device and the process for using the device have the advantage that imbalances of electric charges on the stimulating electrodes, and the associated disadvantageous effects on the tissue and on the nerves, are avoided or eliminated. Furthermore, the device has a small space requirement. | 03-18-2010 |
20100121416 | SYSTEM AND METHOD FOR INCREASING RELATIVE INTENSITY BETWEEN CATHODES AND ANODES OF NEUROSTIMULATION SYSTEM USING PULSE SLICING - 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. | 05-13-2010 |
20100286749 | Current Generation Architecture for an Implantable Stimulator Device Having Coarse and Fine Current Control - Disclosed herein is a current generation architecture for an implantable stimulator device such as an Implantable Pulse Generator (IPG). Current source and sink circuitry are both divided into coarse and fine portions, which respectively can provide a coarse and fine current resolution to a specified electrode on the IPG. The coarse portion is distributed across all of the electrodes and so can source or sink current to any of the electrodes. The coarse portion is divided into a plurality of stages, each of which is capable via an associated switch bank of sourcing or sinking a coarse amount of current to or from any one of the electrodes on the device. The fine portion of the current generation circuit preferably includes source and sink circuitry dedicated to each of the electrode on the device, which can comprise digital-to-analog current converters (DACs). The DACs also receives the above-noted reference current, which is amplified by the DACs in fine increments by appropriate selection of fine current control signals. When the coarse and fine current control circuitry are used in tandem, ample current with a fine current resolution can be achieved at any electrode and in a space- and power-efficient manner. | 11-11-2010 |
20110015705 | Architectures for an Implantable Medical Device System - An improved architecture for an implantable medical device such as an implantable pulse generator (IPG) is disclosed. In one embodiment, the various functional blocks for the IPG are incorporated into a signal integrated circuit (IC). Each of the functional blocks communicate with each other, and with other off-chip devices if necessary, via a centralized bus governed by a communication protocol. To communicate with the bus and to adhere to the protocol, each circuit block includes bus interface circuitry adherent with that protocol. Because each block complies with the protocol, any given block can easily be modified or upgraded without affecting the design of the other blocks, facilitating debugging and upgrading of the IPG circuitry. Moreover, because the centralized bus can be taken off the integrated circuit, extra circuitry can easily be added off chip to modify or add functionality to the IPG without the need for a major redesign of the main IPG IC. | 01-20-2011 |
20110125223 | NEUROSTIMULATION SYSTEM AND METHOD FOR COMPOUNDING CURRENT TO MINIMIZE CURRENT SOURCES - A neurostimulation system and method of providing therapy to a patient implanted with a plurality of electrodes using a plurality of electrical sources is provided. A source-electrode coupling configuration is determined from the electrical sources and electrodes. Electrical current is respectively conveyed between active ones of the plurality of electrical sources and active subsets of the plurality of electrodes in accordance with the determined source-electrode coupling configuration. The total number of the electrodes in the active electrode subsets is greater than the total number of the active electrical sources. | 05-26-2011 |
20110125224 | NEUROSTIMULATION SYSTEM AND METHOD FOR COMBINING CURRENT USING RECONFIGURABLE CURRENT SOURCES - A neurostimulation system and method of providing therapy to a patient implanted with a plurality of electrodes using a plurality of electrical sources is provided. One of the electrical sources is reconfigured from a second polarity to a first polarity. A first electrical current is generated with the one electrical source when configured in the first polarity. A second electrical current is generated with another one of the electrical sources. At least a portion of the first electrical current and at least a portion of the second electrical current is combined in one of an additive manner and a subtractive manner to produce a first combined electrical current. The first combined electrical current is conveyed to or from one or more of the electrodes. | 05-26-2011 |
20110184496 | MEDICAL DEVICE WITH MULTIPLE CHANNEL INDEPENDENT RATE CONTROL - Techniques are described in this disclosure for delivering electrical stimulation therapy to a patient over multiple channels, with independent rate control for each channel, using a single stimulation generator. In one example, the disclosure describes a method for delivering electrical stimulation therapy to a patient that includes delivering first electrical stimulation pulses at a first programmed rate on a first channel using a stimulation generator, and delivering second electrical stimulation pulses at a second programmed rate on a second channel using the stimulation generator, the second programmed rate being different than the first programmed rate, and the second programmed rate being independent of the first programmed rate. | 07-28-2011 |
20110230940 | SHIFTING BETWEEN ELECTRODE COMBINATIONS IN ELECTRICAL STIMULATION DEVICE - The disclosure is directed to techniques for shifting between two electrode combinations. An amplitude of a first electrode combination is incrementally decreased while an amplitude of a second, or subsequent, electrode combination is concurrently incrementally increased. Alternatively, an amplitude of the first electrode combination is maintained at a target amplitude level while the amplitude of the second electrode combination is incrementally increased. The stimulation pulses of the electrode combinations are delivered to the patient interleaved in time. In this manner, the invention provides for a smooth, gradual shift from a first electrode combination to a second electrode combination, allowing the patient to maintain a continual perception of stimulation. The shifting techniques described herein may be used during programming to shift between different electrode combinations to find an efficacious electrode combination. Additionally, the techniques may be used for shifting between different electrode combinations associated with different stimulation programs or program sets. | 09-22-2011 |
20120071950 | Current Management System for a Stimulation Output Stage of an Implantable Neurostimulation System - A current management system for use in the stimulation output stage of a neurostimulation system can be programmed to steer different amounts of current through different stimulation electrodes to vary how strongly the tissue adjacent each electrode is stimulated during a particular programmed stimulation episode. An stimulation electrode drive circuit associated with each electrode that is available for stimulation allows independent control of the flow of current through that electrode. A reference electrode is provided in the circuit to source or sink current as necessary to balance the currents going into and out of the patient, so that no stimulation electrode is required to serve that purpose. More specifically, by configuring the circuit to maintain a constant potential at the reference electrode (e.g., a potential that is approximately half way between a top and bottom voltage rail), the reference electrode will source or sink currents as necessary to cause the net current flow into the patient to be equal to the net current flowing out of the patient, thus satisfying Kirchhoff's current law. | 03-22-2012 |
20130018441 | ELECTRONIC STIMULATOR DEVICE PULSE GENERATOR CIRCUIT - An electronic stimulator device comprises a battery, first and second output ports, and an energy discharge circuit. The energy discharge circuit is coupled to the battery and configured to receive an electrical charge from the battery and deliver the electrical charge through an energy output port. A first switch is connected between the energy output and the first output port. A second switch is connected between the second output port and electrical ground. A third switch is connected between the second output port and the energy output. A fourth switch is connected between the first output port and electrical ground. A controller comprising a processor is configured to actuate the first, second, third and fourth switches between open and close states to deliver a biphasic current pulse between the first and second output ports. | 01-17-2013 |
20130035745 | CHARGE-ENHANCED NEURAL ELECTRIC STIMULATION SYSTEM - A system and method to treat neural communication impairment is provided. The neural communication impairment is present in a neural pathway, which can be a cortico-neuromuscular pathway, an intra-brain neural pathway, or in a sensory-cortico pathway. A synchronized external stimulation is applied to a first point in proximity to a first neural component at one end of the neural pathway and to a second point in proximity to a second neural component at the other end of the neural pathway. Two induced neural handshake signals contemporaneously arrive at a neural communication impairment point in the neural pathway, triggering and stimulating a rehabilitation process by which the neural connection is permanently improved. The synchronized applied electrical signals applied to the first and second points may have an opposite polarity in dipolar neural stimulation, or may have identical polarity and waveform in in-phase neural stimulation. | 02-07-2013 |
20130304160 | IDENTIFYING LEAD INSULATION BREACHES AND EXTERNALIZATION OF LEAD CONDUCTORS - A technique for identifying lead-related conditions, such as insulation breaches and/or externalization of lead conductors, includes analyzing characteristics of electrical signals generated on one or more electrode sensing vectors of the lead by a test signal to determine whether a lead-related condition exists. The characteristics of the electrical signals induced on the lead by the test signal may be significantly different on a lead having an insulation breach or externalized conductor than on a lead not having such lead-related conditions. As such, the implantable medical device may be subject to a known test signal and analyze the signals on the lead to detect lead-related conditions. | 11-14-2013 |
20140074189 | COUPLED MONOPOLAR AND MULTIPOLAR PULSING FOR CONDITIONING AND STIMULATION - A method and neurostimulation system of providing therapy to a patient is provided. A plurality of electrodes are placed in contact with tissue of a patient, a conditioning pulse is conveyed from the plurality of electrodes in one of a monopolar manner and a multipolar manner, and a stimulation pulse is conveyed from the plurality of electrodes in a different one of the monopolar manner and the multipolar manner. As one example, the sub-threshold conditioning pulse may be a depolarizing pulse conveyed from the plurality of electrodes to render a first region of the tissue less excitable to stimulation, and the stimulation pulse may be conveyed from the plurality of electrodes to stimulate a second different region of the tissue. | 03-13-2014 |
20140194953 | IMPLANTABLE MEDICAL DEVICE - An implantable medical device including a first generator. The first generator includes a first power source coupled to a first controller. The first header is removably coupled to the first generator and includes a first lead configuration. The device includes a first lead with a lead body having first terminals and at least one electrode on an end opposite the first terminals. The first terminals are removably received and secured by the first lead configuration of the first header and configured to communicate with the first generator. | 07-10-2014 |
20140257436 | TIBIAL NERVE STIMULATION DEVICE - A stimulation therapy device provides an electrical stimulation therapy to branches of the tibial nerve of a patient. The device comprises a support member configured to be worn around the ankle or foot of the patient, first and second pairs of electrodes attached to the support member, and a stimulation circuit attached to the support member. The stimulation circuit is configured to deliver electrical stimulation pulses through the first and second pairs of electrodes. | 09-11-2014 |
20150057723 | METHOD AND SYSTEM OF STIMULATION OF NERVE TISSUE WITH A SEQUENCE OF SPATIALLY DISTRIBUTED RESONANT SUB-THRESHOLD ELECTRICAL STIMULI - The present invention provides a method of stimulating an excitable tissue (e.g., in vitro, in vivo) with a primary electrical stimulus through a primary electrode at a primary stimulation frequency, to produce a propagating action potential in the excitable tissue. The invention is carried out by concurrently stimulating the excitable tissue with a secondary electrical stimulus through at least one secondary electrode at a secondary stimulation frequency. The primary and secondary stimulation frequencies are preferably different from one another. The secondary electrical stimulus preferably has an amplitude not more than one third that of the primary electrical stimulus. Preferably, propagation of the action potential in the excitable tissue is enhanced (e.g., when propagation of action potentials in the tissue is otherwise unstable, partially blocked, or fully blocked). Apparatus for carrying out the method is also described. | 02-26-2015 |
20150080988 | MEDICAL SYSTEM LEAD ADAPTER PROVIDING FOR CUSTOMIZED STIMULATION PATTERN FOR A SECONDARY LEAD - Medical system lead adapters distribute stimulation signals from a port of a medical device to both a primary medical lead and a secondary medical lead. The lead adapters provide for the selectable bridging of secondary lead contacts to thereby provide for customized stimulation patterns. The lead adapters may include a primary lead connector, a secondary lead connector, and a pin connector. A pin is selected to provide a particular stimulation pattern for the secondary lead and is inserted into the pin connector to thereby bridge together contacts of the pin connector that are also connected to contacts of the secondary lead connector. | 03-19-2015 |
20160001082 | SELECTIVE BLOCK OF NERVE ACTION POTENTIAL CONDUCTION - A method of selectively blocking a portion of a nerve signal is disclosed. The method may include the step of providing an electrode around a subject's peripheral nerve and connecting the electrode to a stimulator. The stimulator may then energize the electrode with a continuous periodic waveform of at least 50 kHz. This energization of the electrode can result in the selective block of one of: 1) a fast portion of a nerve signal having a conduction velocity greater than 2 m/s, and 2) a slow portion of the nerve signal having a conduction velocity less than 2 m/s. A method according to the present disclosure may allow the non-blocked portion of the nerve signal to be conducted substantially unimpeded. | 01-07-2016 |
20160114150 | PERINEAL PROBE - Provided is a perineal probe including a main axis coinciding with the direction of insertion of said probe and a main body, the main body including: a lower surface, an upper surface, opposite said lower surface, a lateral surface, extending between the lower surface and the upper surface and including two opposite main portions substantially parallel to the main axis, at least two lower electrodes, arranged on the lower surface and reciprocally separated along said main axis, at least two lateral electrodes arranged along said main portions of said lateral surface. | 04-28-2016 |
20170232254 | Methods and Devices for Activating Brown Adipose Tissue Using Electrical Energy | 08-17-2017 |
607067000 | Applied for interferential effect in body | 7 |
20100198314 | Computerized Determination of Insulin Pump Therapy Parameters Using Real Time and Retrospective Data Processing - Methods and devices for providing computerized adjustment to therapy parameters using real time and retrospective data processing is provided. Embodiments include receiving a respective data set from an infusion device and an analyte monitoring device for a predetermined time duration, user notification and reminder of the predetermined time duration, time synchronizing the received respective data set, detecting one or more marked data from the one or more respective data set received, establishing one or more filtering criteria to filter of retrospective or historical data based on certain condition, performing automated data analysis based on the detected one or more marked data or the data achieving certain predetermined condition to generate a modification to a therapy profile, generating and modifying rules for profile modification, and providing the generated modification to the therapy profile for reporting and transmission. | 08-05-2010 |
20110125225 | INTERFERENTIAL NON INVASIV TEMPORARY PACER - New effective emergency non invasive pacing technique and apparatus is designed to improve the heart rate, cardiac output in patients during bradycardia. It also overcomes the existing disadvantages of unwanted transcutaneous muscular stimulation in the process of cardiac stimulation. This method uses interferential high frequency currents to selectively produce pulsed stimulus to the desirable area of myocardium is introduced. | 05-26-2011 |
20110295341 | MEDICATION DELIVERY SYSTEM AND MONITOR - Systems and methods for the delivery and monitoring of a medication, such as insulin, to a recipient are provided. An exemplary feature-rich system comprises an infusion pump with a control system for controlling medication delivery by the infusion pump and a bolus estimator for estimating an appropriate amount of medication for delivery by the control system with the infusion pump. Estimating the appropriate amount of medication for delivery is based upon one or more settings which each vary according to a setting profile. In other embodiments, the control system comprises a suspend function for temporarily suspending medication delivery by the infusion pump, an alarm profile function for programming a variable alarm volume of the alarm and a simplified menu for controlling the dual wave bolus delivery function. | 12-01-2011 |
20120078326 | ELECTROMEDICAL DEVICE FOR THE NON-INVASIVE REDUCTION OR REMOVAL OF SUBCUTANEOUS ADIPOSE TISSUE - An electromedical device for the non-invasive reduction or removal of subcutaneous adipose tissue, comprising an energy source which provides a high-frequency alternating current, comprising at least two individual emitters which are fed by the energy source and which are designed to emit high-frequency electromagnetic waves into subcutaneous adipose tissue, and comprising a directivity control which is coupled with the individual emitters and which controls the individual emitters in such a way that, by direction and field concentration of the high-frequency electromagnetic waves emitted by the individual emitters, a total electromagnetic field with a desired field geometry can be produced in the subcutaneous adipose tissue. | 03-29-2012 |
20130296975 | SYSTEM AND METHOD FOR MODULATING ACTION POTENTIAL PROPAGATION DURING SPINAL CORD STIMULATION - A method and neurostimulator for providing therapy to a patient is provided. In one technique, an electrical pulsed waveform is conveyed between a caudal electrode and spinal cord tissue, thereby evoking action potentials that are orthodromically propagated along dorsal column fibers and evoking action potentials that are antidromically propagated along the DC fibers. Electrical energy is conveyed between a rostral electrode and the spinal cord tissue, thereby modulating times that the action potentials orthodromically propagated along the DC fibers arrive at the brain. In another technique, an electrical pulsed waveform is conveyed through a first electrode, thereby evoking action potentials that are propagated along a neural axon, and electrical energy is conveyed through the second electrode. The electrical energy has a frequency that is greater than a pulse rate of the electrical pulsed waveform, such that the action potentials propagated along the neural axon are blocked by the electrical energy. | 11-07-2013 |
20150127070 | METHOD, SYSTEM, AND APPARATUS FOR DERMATOLOGICAL TREATMENT - Embodiments of dermalogical cell treatment are described generally herein. Other embodiments may be described and claimed. | 05-07-2015 |
20150290457 | ELECTRICAL STIMULATION DEVICE AND METHOD FOR THE TREATMENT OF NEUROLOGICAL DISORDERS - 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. | 10-15-2015 |