Patent application number | Description | Published |
20080294211 | 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. | 11-27-2008 |
20080294226 | SHORT DURATION PRE-PULSING TO REDUCE STIMULATION-EVOKED SIDE-EFFECTS - A method and neurostimulation system of providing therapy to a patient is provided. At least one electrode is place in contact with tissue of a patient. A sub-threshold, hyperpolarizing, conditioning pre-pulse (e.g., an anodic pulse) is conveyed from the electrode(s) to render a first region of the tissue (e.g., dorsal root fibers) less excitable to stimulation, and a depolarizing stimulation pulse (e.g., a cathodic pulse) is conveyed from the electrode(s) to stimulate a second different region of the tissue (e.g., dorsal column fibers). The conditioning pre-pulse has a relatively short duration (e.g., less than 200 μs). | 11-27-2008 |
20090082835 | Apparatus and Methods For Charging An Implanted Medical Device Power Source - Apparatus and methods for charging an implanted medical device. | 03-26-2009 |
20090234427 | SYSTEMS, APPARATUSES, AND METHODS FOR DIFFERENTIATING BETWEEN MULTIPLE LEADS IMPLANTED WITHIN A PATIENT - Systems, apparatuses, and methods for differentiating between multiple leads that are implanted within a patient include a stimulator configured to be implanted at an implant site within the patient and generate electrical stimulation current, a plurality of leads each comprising one or more electrodes configured to deliver the electrical stimulation current at a stimulation site within the patient, and a shuttle assembly having a plurality of receiving ports each configured to receive a proximal portion of one of the leads and guide the leads from the stimulation site to the implant site of the stimulator. The shuttle assembly is configured to enable a user to differentiate between each of the leads after the leads are guided to the implant site of the stimulator. | 09-17-2009 |
20090326627 | DEVICES WITH CANNULA AND ELECTRODE LEAD FOR BRAIN STIMULATION AND METHODS OF USE AND MANUFACTURE - A device for brain stimulation includes a cannula configured and arranged for insertion into a brain of a patient; at least one cannula electrode disposed on the cannula; and an electrode lead for insertion into the cannula, the electrode lead comprising at least one stimulating electrode. | 12-31-2009 |
20100106204 | SYSTEMS AND METHODS FOR DETECTING A LOSS OF ELECTRICAL CONNECTIVITY BETWEEN COMPONENTS OF IMPLANTABLE MEDICAL LEAD SYSTEMS - A connection monitoring system for an implantable medical lead system includes an implantable lead, a first trial system cable, an external trial system, and a sensor. The lead has a distal end and at least one proximal end. The lead includes a plurality of terminals disposed at each proximal end. The first trial system cable has a distal end and at least one proximal end. The distal end of the first trial system cable is configured and arranged to electrically couple with the lead. The external trial system is configured and arranged to electrically couple with the first trial system cable. The sensor is electrically coupled to the external trial system. The sensor is configured and arranged for detecting a loss of electrical connectivity between the external trial system and the lead when the lead becomes electrically decoupled from the external trial system. | 04-29-2010 |
20100106206 | METHOD TO DETECT PROPER LEAD CONNECTION IN AN IMPLANTABLE STIMULATION SYSTEM - An implantable pulse generator or external trial stimulator for coupling to a lead with a distal end and a proximal end, the lead comprising at least one terminal disposed at the proximal end. The implantable pulse generator comprises a connector for receiving the proximal end of the lead, the connector having at least one contact, and a sensor configured and arranged for detecting electrical connectivity between the implantable pulse generator or external trial stimulator and the lead, the sensor comprising at least one sensor contact, the sensor contact being configured and arranged for electrically coupling to a terminal of the lead and at least one of the contacts of the connector when the lead is fully inserted in the connector and thereby detecting electrical connectivity between the implantable pulse generator or external trial stimulator and the lead. | 04-29-2010 |
20100137960 | IMPLANTABLE NEUROSTIMULATORS HAVING REDUCED POCKET STIMULATION - Neurostimulators and methods of using neurostimulators are provided. The neurostimulator is implanted within a tissue pocket of a patient, and electrical energy is conveyed from the neurostimulator to stimulate a target tissue site remote from the tissue pocket. The neurostimulator has a case with which one or more electrodes are associated. The electrical energy is returned to the electrode(s) in a manner that prevents, or at least reduces, pocket stimulation that may otherwise occur due to the return of electrical energy to the case of the neurostimulator. | 06-03-2010 |
20100137961 | IMPLANTABLE NEUROSTIMULATORS HAVING REDUCED POCKET STIMULATION - Neurostimulators and methods of using neurostimulators are provided. The neurostimulator is implanted within a tissue pocket of a patient, and electrical energy is conveyed from the neurostimulator to stimulate a target tissue site remote from the tissue pocket. The neurostimulator has a case with which one or more electrodes are associated. The electrical energy is returned to the electrode(s) in a manner that prevents, or at least reduces, pocket stimulation that may otherwise occur due to the return of electrical energy to the case of the neurostimulator. | 06-03-2010 |
20100137962 | IMPLANTABLE NEUROSTIMULATORS HAVING REDUCED POCKET STIMULATION - Neurostimulators and methods of using neurostimulators are provided. The neurostimulator is implanted within a tissue pocket of a patient, and electrical energy is conveyed from the neurostimulator to stimulate a target tissue site remote from the tissue pocket. The neurostimulator has a case with which one or more electrodes are associated. The electrical energy is returned to the electrode(s) in a manner that prevents, or at least reduces, pocket stimulation that may otherwise occur due to the return of electrical energy to the case of the neurostimulator. | 06-03-2010 |
20100228325 | SHORT DURATION PRE-PULSING TO REDUCE STIMULATION-EVOKED SIDE-EFFECTS - A method and neurostimulation system of providing therapy to a patient is provided. At least one electrode is place in contact with tissue of a patient. A sub-threshold, hyperpolarizing, conditioning pre-pulse (e.g., an anodic pulse) is conveyed from the electrode(s) to render a first region of the tissue (e.g., dorsal root fibers) less excitable to stimulation, and a depolarizing stimulation pulse (e.g., a cathodic pulse) is conveyed from the electrode(s) to stimulate a second different region of the tissue (e.g., dorsal column fibers). The conditioning pre-pulse has a relatively short duration (e.g., less than 200 μs). | 09-09-2010 |
20100234918 | SYSTEM AND METHOD FOR UNIFORMLY DISPLACING A REGION OF NEURAL STIMULATION - A tissue stimulation system and computer software and method of operating the system is provided. An array of electrodes is placed contact with tissue of a patient (e.g., neural tissue), and electrical current is conveyed within the electrode array, thereby creating a stimulation region in the tissue. Electrical current is shifted between cathodes of the electrode array in incremental steps over a range, thereby causing displacement of the stimulation region at substantially uniform distances over the incremental steps. The electrical current may be shifted between the cathodes in accordance with a sigmoid-like function of a position of the stimulation region. A navigation table containing a series of states and corresponding gradually and non-uniformly changing electrical current values can be accessed, in which case, the electrical current may be shifted between the cathodes by incrementing through the states of the navigation table. | 09-16-2010 |
20100268298 | DEEP BRAIN STIMULATION CURRENT STEERING WITH SPLIT ELECTRODES - A device for brain stimulation includes a lead having a longitudinal surface, a proximal end, a distal end and a lead body. The device also includes a plurality of electrodes disposed along the longitudinal surface of the lead near the distal end of the lead. The plurality of electrodes includes a first set of segmented electrodes comprising at least two segmented electrodes disposed around a circumference of the lead at a first longitudinal position along the lead; and a second set of segmented electrodes comprising at least two segmented electrodes disposed around a circumference of the lead at a second longitudinal position along the lead. The device further includes one or more conductors that electrically couple together all of the segmented electrodes of the first set of segmented electrodes. | 10-21-2010 |
20100305631 | APPARATUS AND METHOD FOR DETERMINING THE RELATIVE POSITION AND ORIENTATION OF NEUROSTIMULATION LEADS - A method for determining whether the relative position of electrodes used by a neurostimulation system has changed within a patient comprises determining the amplitude of a field potential at each of at least one of the electrodes, determining if a change in each of the determined electric field amplitudes has occurred, and analyzing the change in each of the determined electric field amplitudes to determine whether a change in the relative position of the electrodes has occurred. Another method comprises measuring a first monopolar impedance between a first electrode and a reference electrode, measuring a second monopolar impedance between second electrode and the reference electrode, measuring a bipolar impedance between the first and second electrodes, and estimating an amplitude of a field potential at the second electrode based on the first and second monopolar impedances and the bipolar impedance. | 12-02-2010 |
20110022122 | SYSTEM AND METHOD FOR COMPUTATIONALLY DETERMINING MIGRATION OF NEUROSTIMULATION LEADS - A tissue stimulation system and computer software and method of monitoring a neurostimulation lead having a plurality of electrodes implanted within a patient (e.g., adjacent the spinal cord) is provided. Neurostimulation lead models are provided, each of which includes estimated electrical parameter data (e.g., electrical field potential data) corresponding to a predetermined position of the neurostimulation lead. Electrical energy is transmitted to or from the electrodes, and electrical parameter data (e.g., electrical field potential data) is measured in response to the transmitted electrical energy. The measured electrical parameter data is compared with the estimated electrical parameter data of each of the neurostimulation lead models, and a position of the neurostimulation lead is determined based on the comparison. | 01-27-2011 |
20110093044 | SYSTEM AND METHOD FOR MODELING ELECTRODE MORPHOLOGIES - A system for a neurostimulation device comprises a user input device configured for receiving an electrode morphology having at least one electrode, memory storing at least one basis electrode model, and at least one processor configured for modeling at least one electrode by recalling the at least one basis electrode model from the memory, and using the recalled at least one basis electrode model multiple times to construct a model of the at least one electrode. | 04-21-2011 |
20110106215 | SYSTEM AND METHOD FOR MAPPING ARBITRARY ELECTRIC FIELDS TO PRE-EXISTING LEAD ELECTRODES - A method and system for stimulating tissue using a plurality of electrodes is provided. Desired electrical parameter (e.g., field potential) values are determined at a plurality of spatial points. A plurality of constituent current sources is selected at the locations of the electrodes. The relative strengths of the constituent current sources that, when combined, result in estimated electrical parameter (e.g., field potential)|values at the spatial points that best matches the desired electrical parameter values at the spatial points are determined. The polarity and percentage of electrical current to be associated with each of the electrodes is selected based on the determined strengths of the constituent current sources. Electrical current is conveyed through the plurality of electrodes in accordance with the selected electrical current magnitudes to stimulate the tissue. | 05-05-2011 |
20110319967 | SYSTEM AND METHOD FOR COMPUTATIONALLY DETERMINING MIGRATION OF NEUROSTIMULATION LEADS - A tissue stimulation system and computer software and method of monitoring a neurostimulation lead having a plurality of electrodes implanted within a patient (e.g., adjacent the spinal cord) is provided. Neurostimulation lead models are provided, each of which includes estimated electrical parameter data (e.g., electrical field potential data) corresponding to a predetermined position of the neurostimulation lead. Electrical energy is transmitted to or from the electrodes, and electrical parameter data (e.g., electrical field potential data) is measured in response to the transmitted electrical energy. The measured electrical parameter data is compared with the estimated electrical parameter data of each of the neurostimulation lead models, and a position of the neurostimulation lead is determined based on the comparison. | 12-29-2011 |
20120046715 | USER INTERFACE FOR SEGMENTED NEUROSTIMULATION LEADS - An external control device for use with a neurostimulation system having a plurality of electrodes capable of conveying an electrical stimulation field into tissue in which the electrodes are implanted is provided. The external control device comprises a user interface having one or more control elements, a processor configured for generating stimulation parameters designed to modify the electrical stimulation field relative to one or more neurostimulation lead carrying the electrodes. The external control device further comprises output circuitry configured for transmitting the stimulation parameters to the neurostimulation system. | 02-23-2012 |
20120109257 | SYSTEM AND METHOD FOR PROVIDING FLUID REAL-TIME VISUALIZATION OF REGION OF TISSUE ACTIVATION - A system for a tissue stimulator coupled to an array of electrodes. The system comprises a user-controlled input device configured for generating control signals, and at least one processor configured for generating a plurality of stimulation parameter sets in response to the control signals that, when applied to the electrodes, will shift electrical current between electrodes to modify a region of tissue activation. The processor(s) is further configured for computing an estimate of the region of tissue activation, and for generating display signals capable of prompting a monitor to display an animated graphical representation of the computed estimate of the region of tissue activation. | 05-03-2012 |
20120165898 | NEUROSTIMULATION SYSTEM FOR SELECTIVELY ESTIMATING VOLUME OF ACTIVATION AND PROVIDING THERAPY - An external control device, neurostimulation system, and method of programming a neurostimulator. A volume of tissue activation for each of a first one or more candidate stimulation parameter sets is simulated without conveying electrical stimulation energy into the tissue. One of the first candidate stimulation parameter set(s) is selected based on each simulated volume of tissue activation. Electrical stimulation energy is conveyed into the tissue in accordance with a second one or more candidate stimulation parameter sets, wherein the initial one of the second candidate stimulation parameter set(s) is the selected one of the first candidate stimulation parameter set(s). One of the second candidate stimulation parameter set(s) is selected based on a therapeutic efficacy of the electrical stimulation energy conveyed into the tissue. The neurostimulator is programmed with the selected one of the second candidate stimulation parameter set(s). | 06-28-2012 |
20120290038 | MANAGEMENT OF STIMULATION SAFETY LIMITS IN A NEUROSTIMULATION SYSTEM - A neurostimulation system for management of stimulation safety limits. The system determines a tissue charge injection metric at each electrode, compares the metric to the hard stop charge limit, and prevents the neurostimulator from delivering stimulation energy to the tissue region in accordance based on the comparison. The hard stop limit may be user-programmable or may be automatically modified in response to detection of electrode characteristics. The system may quantitatively notify a user of a value of the injected charge injected into the tissue. The electrodes may be organized into different sets, in which case, the system may directly control tissue charge independently at each of the electrode sets. If current steering is provided, the system may displace the electrical stimulation energy along the tissue region in one direction, while preventing the charge injection value at each of the electrodes from meeting or exceeding the hard stop charge limit. | 11-15-2012 |
20120290039 | MANAGEMENT OF STIMULATION SAFETY LIMITS IN A NEUROSTIMULATION SYSTEM - A neurostimulation system for management of stimulation safety limits. The system determines a tissue charge injection metric at each electrode, compares the metric to the hard stop charge limit, and prevents the neurostimulator from delivering stimulation energy to the tissue region in accordance based on the comparison. The hard stop limit may be user-programmable or may be automatically modified in response to detection of electrode characteristics. The system may quantitatively notify a user of a value of the injected charge injected into the tissue. The electrodes may be organized into different sets, in which case, the system may directly control tissue charge independently at each of the electrode sets. If current steering is provided, the system may displace the electrical stimulation energy along the tissue region in one direction, while preventing the charge injection value at each of the electrodes from meeting or exceeding the hard stop charge limit. | 11-15-2012 |
20120290040 | MANAGEMENT OF STIMULATION SAFETY LIMITS IN A NEUROSTIMULATION SYSTEM - A neurostimulation system for management of stimulation safety limits. The system determines a tissue charge injection metric at each electrode, compares the metric to the hard stop charge limit, and prevents the neurostimulator from delivering stimulation energy to the tissue region in accordance based on the comparison. The hard stop limit may be user-programmable or may be automatically modified in response to detection of electrode characteristics. The system may quantitatively notify a user of a value of the injected charge injected into the tissue. The electrodes may be organized into different sets, in which case, the system may directly control tissue charge independently at each of the electrode sets. If current steering is provided, the system may displace the electrical stimulation energy along the tissue region in one direction, while preventing the charge injection value at each of the electrodes from meeting or exceeding the hard stop charge limit. | 11-15-2012 |
20120296396 | USER-DEFINED GRAPHICAL SHAPES USED AS A VISUALIZATION AID FOR STIMULATOR PROGRAMMING - A system for programming a neurostimulation device coupled to one or more electrodes. The system comprises a user interface configured for allowing a user to select a set of stimulation parameters and to define a graphical shape representative of an anatomical region of interest. The system further comprises memory configured for storing the graphical shape in registration with an anatomical reference, and output circuitry configured for communicating with the neurostimulation device. The system further comprises a controller configured for recalling the registered graphical shape and anatomical reference from the memory, generating display signals capable of prompting the user interface to concurrently display a representation of the electrode(s) relative to the recalled graphical shape and anatomical reference, and programming the neurostimulation device with the selected stimulation parameter set via the output circuitry. | 11-22-2012 |
20120302912 | COLLECTION OF CLINICAL DATA FOR GRAPHICAL REPRESENTATION AND ANALYSIS - A method of treating a patient and an external programmer for use with a neurostimulator. Electrical stimulation energy is serially conveyed into tissue of the patient via different combinations of electrodes implanted within the patient, thereby creating one or more clinical effects for each of the different electrode combinations. An influence of each of the different electrode combinations on the clinical effect(s) is determined. A graphical indication of the one or more clinical effects is generated based on the determined electrode combination influences. A graphical representation of the electrodes is displayed. The graphical indication of the clinical effect(s) is displayed adjacent the graphical electrode representation, such that a user can view an extent to which each of the different electrode combinations influences the clinical effect(s). | 11-29-2012 |
20120303087 | COLLECTION OF CLINICAL DATA FOR GRAPHICAL REPRESENTATION AND ANALYSIS - A method of treating a patient and an external programmer for use with a neurostimulator. Electrical stimulation energy is conveyed into tissue of the patient via a specified combination of a plurality of electrodes, thereby creating one or more clinical effects. An influence of the specified electrode combination on the clinical effect(s) is determined. An anatomical region of interest is displayed in registration with a graphical representation of the plurality of electrodes. The displayed anatomical region of interest is modified based on the determined influence of the specified electrode combination on the clinical effect(s). | 11-29-2012 |
20120314924 | SYSTEM AND METHOD FOR ATLAS REGISTRATION - A system and method for associating anatomically significant regions with regions of one or more images may include automatically modifying images of different modalities according to different correction algorithms, providing a user interface for identifying a plane within three-dimensional data, scaling atlas structures to fit an anatomical image according to identified landmarks, registering an atlas to such an image via a combination of registration algorithms, and/or registering an atlas to such an image using a feature extraction algorithm. | 12-13-2012 |
20120330374 | SYSTEM AND METHOD FOR DETERMINING TARGET STIMULATION VOLUMES - A system and method may include determining a target stimulation volume based on modifying a patient population image for which an efficacious volume had been determined. A system and method for suggesting stimulation devices may include determining which stimulation device is capable of producing an output volume of activation that most closely matches the target volume. A system and method for facilitating selection of stimulation parameters may include graphically identifying a maximum volume in which tissue is stimulatable by an implanted stimulation device. A system and method may pre-compute volumes of activation that result from a predetermined modification of programming settings. A system and method may transmit stimulation programming settings from a stimulation programming module to a stimulation generating device. | 12-27-2012 |
20130054270 | COMMUNICATION INTERFACE FOR THERAPEUTIC STIMULATION PROVIDING SYSTEMS - A system and method for communicating patient data for therapeutic stimulation purposes may provide a communication interface for exporting patient data, a communication interface for importing patient data, and a user interface for programming a patient device in response to communication of patient data. | 02-28-2013 |
20130096655 | SHORT DURATION PRE-PULSING TO REDUCE STIMULATION-EVOKED SIDE-EFFECTS - A method and neurostimulation system of providing therapy to a patient is provided. At least one electrode is place in contact with tissue of a patient. A sub-threshold, hyperpolarizing, conditioning pre-pulse (e.g., an anodic pulse) is conveyed from the electrode(s) to render a first region of the tissue (e.g., dorsal root fibers) less excitable to stimulation, and a depolarizing stimulation pulse (e.g., a cathodic pulse) is conveyed from the electrode(s) to stimulate a second different region of the tissue (e.g., dorsal column fibers). The conditioning pre-pulse has a relatively short duration (e.g., less than 200 μs). | 04-18-2013 |
20130116744 | VOA generation system and method using a fiber specific analysis - A system and method for generating an estimated volume of activation (VOA) corresponding to settings applied to a stimulation leadwire includes a processor performing the following: determining, for each of a plurality of neural elements, one or more respective parameters characterizing an electrical distribution along the neural element, looking up the one or more parameters for each of the neural elements in a look-up table (LUT), obtaining threshold values for each of the neural elements recorded in the LUT in association with the looked-up parameters, comparing, for each of the neural elements, a value of the leadwire settings to each of the respective threshold value, estimating based on the comparisons which of the neural elements would be activated by the settings, and generating a structure corresponding to a region including the neural elements estimated to be activated. | 05-09-2013 |
20130116748 | CONTROL AND/OR QUANTIFICATION OF TARGET STIMULATION VOLUME OVERLAP AND INTERFACE THEREFOR - A method and system include a processor that outputs a characterization of a correspondence between a volume of estimated tissue activation and a target and/or side effect stimulation volume, and/or that provides controls by which to modify thresholds and/or amounts according to which the volume of estimated activation is to correspond to the target volume. | 05-09-2013 |
20130116749 | SYSTEMS AND METHODS FOR STIMULATION-RELATED VOLUME ANALYSIS, CREATION, AND SHARING - A computer implemented system and method facilitates a cycle of generation, sharing, and refinement of volumes related to stimulation of anatomical tissue, such as brain or spinal cord stimulation. Such volumes can include target stimulation volumes, side effect volumes, and volumes of estimated activation. A computer system and method also facilitates analysis of groups of volumes, including analysis of differences and/or commonalities between different groups of volumes. | 05-09-2013 |
20130116751 | SYSTEM AND METHOD FOR MAPPING ARBITRARY ELECTRIC FIELDS TO PRE-EXISTING LEAD ELECTRODES - A system for a neurostimulator coupled to electrodes, and a method of providing therapy to a patient using the electrodes implanted within the patient. A target multipole relative to the electrodes is defined. The target multipole is emulated by defining an initial electrical current distribution for the electrodes, such that a first set of active electrodes respectively has electrical current values of a first polarity. Each of the electrical current values of the first polarity is compared to a first threshold value, and at least one of the electrodes in the first active electrode set is zeroed-out based on the comparison. The electrical current value of each of the zeroed-out electrode(s) is redistributed to remaining ones of the electrodes to define a new electrical current distribution for the electrodes. Electrical current is conveyed to the electrodes in accordance with the new electrical current distribution, thereby providing the therapy. | 05-09-2013 |
20130116929 | SYSTEMS AND METHODS FOR STIMULATION-RELATED VOLUME ANALYSIS, CREATION, AND SHARING - A computer implemented system and method facilitates a cycle of generation, sharing, and refinement of volumes related to stimulation of anatomical tissue, such as brain or spinal cord stimulation. Such volumes can include target stimulation volumes, side effect volumes, and volumes of estimated activation. A computer system and method also facilitates analysis of groups of volumes, including analysis of differences and/or commonalities between different groups of volumes. | 05-09-2013 |
20130138165 | SYSTEM AND METHOD FOR COMPUTATIONALLY DETERMINING MIGRATION OF NEUROSTIMULATION LEADS - A tissue stimulation system and computer software and method of monitoring a neurostimulation lead having a plurality of electrodes implanted within a patient (e.g., adjacent the spinal cord) is provided. Neurostimulation lead models are provided, each of which includes estimated electrical parameter data (e.g., electrical field potential data) corresponding to a predetermined position of the neurostimulation lead. Electrical energy is transmitted to or from the electrodes, and electrical parameter data (e.g., electrical field potential data) is measured in response to the transmitted electrical energy. The measured electrical parameter data is compared with the estimated electrical parameter data of each of the neurostimulation lead models, and a position of the neurostimulation lead is determined based on the comparison. | 05-30-2013 |
20130150918 | SYSTEM AND METHOD FOR AUTOMATICALLY TRAINING A NEUROSTIMULATION SYSTEM - Neurostimulators, neurostimulation systems, and methods for providing therapy to a patient. A neurostimulation system stores reference measurements and reference stimulation parameter sets respectively associated with the reference measurements. A new measurement of least one environmental parameter indicative of a change in a therapeutic environment is taken. Whether the new measurement matches one of the stored reference measurements is determined. If a match is determined, stimulation energy is conveyed from the neurostimulation system to the patient in accordance with the stimulation parameter set corresponding to the matching reference measurement. If a match is not determined, stimulation energy is conveyed from the neurostimulation system to the patient in accordance with a user-defined stimulation parameter set, another reference stimulation parameter set is defined based on the user-defined stimulation parameter set, and the new measurement is stored as an additional reference measurement in association with the additional reference stimulation parameter set. | 06-13-2013 |
20130268021 | METHOD FOR ACHIEVING LOW-BACK SPINAL CORD STIMULATION WITHOUT SIGNIFICANT SIDE-EFFECTS - A method for treating an ailment of a patient using at least one electrode implanted within a spinal column of the patient at a T4-T6 spinal nerve level. The method comprises increasing an activation threshold of a side-effect exhibiting neural structure relative to the activation threshold of a dorsal column (DC) nerve fiber of the patient, and applying electrical stimulation energy to the DC nerve fiber via the at least one electrode while the activation threshold of the neural structure is increased, thereby treating the ailment while minimizing stimulation of the neural structure. Another method comprises applying electrical stimulation energy to the spinal column of the patient via the plurality of electrodes, thereby generating a medio-lateral electrical field relative to the spinal column of the patient and treating the ailment. | 10-10-2013 |
20140039577 | TECHNIQUES AND METHODS FOR STORING AND TRANSFERRING REGISTRATION, ATLAS, AND LEAD INFORMATION BETWEEN MEDICAL DEVICES - A neurostimulator system includes a portable component configured for storing patient-specific data, and an external control device configured for obtaining the patient-specific data from the portable component. The portable component is an implantable neurostimulator, a patient's remote controller, and/or an external charger. The patient-specific data is imaging-related data. A method of storing data in a neurostimulation system includes generating patient-specific data, and storing the patient-specific data in at least one of the portable components. A method for programming the implantable neurostimulator includes receiving the patient-specific data from the portable component, simulating a volume of tissue activation for each of one or more candidate stimulation parameters, wherein the simulation is based at least in part on the patient-specific data, selecting at least one of the candidate stimulation parameters, and programming the implantable neurostimulator with the selected stimulation parameters. | 02-06-2014 |
20140066999 | CAPTURE AND VISUALIZATION OF CLINICAL EFFECTS DATA IN RELATION TO A LEAD AND/OR LOCUS OF STIMULATION - A system and method for outputting historical stimulation information includes a processor configured to assign individual display regions, e.g., pixels or voxels, (or a larger region) a score based on those volumes of activations (VOA) in which the individual display region had been included and the scores assigned to those VOAs, and display in a display device a map of varying graphical indicia based on the different scores assigned to the elemental display regions. | 03-06-2014 |
20140067018 | PARAMETER VISUALIZATION, SELECTION, AND ANNOTATION INTERFACE - A system and method for providing a user interface by which to display and/or control stimulation parameter settings includes a processor displaying a ray at an angle from a predetermined direction, and about a point representing a leadwire, that corresponds to a direction at which an electrical field is produced by respective electrical settings of one or more directional electrodes of the leadwire, and whose ray length corresponds to an electrical amplitude of an electrical parameter of the one or more directional electrodes. | 03-06-2014 |
20140067022 | POINT-AND-CLICK PROGRAMMING FOR DEEP BRAIN STIMULATION USING REAL-TIME MONOPOLAR REVIEW TRENDLINES - A system and method for selecting leadwire stimulation parameters includes a processor iteratively performing, for each of a plurality of values for a particular stimulation parameter, each value corresponding to a respective current field: (a) shifting the current field longitudinally and/or rotationally to a respective plurality of locations about the leadwire; and (b) for each of the respective plurality of locations, obtaining clinical effect information regarding a respective stimulation of the patient tissue produced by the respective current field at the respective location; and displaying a graph plotting the clinical effect information against values for the particular stimulation parameter and locations about the leadwire, and/or based on the obtained clinical effect information, identifying an optimal combination of a selected value for the particular stimulation parameter and selected location about the leadwire at which to perform a stimulation using the selected value. | 03-06-2014 |
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 |
20140084860 | APPARATUS AND METHODS FOR CHARGING AN IMPLANTED MEDICAL DEVICE POWER SOURCE - Apparatus and methods for charging an implanted medical device. | 03-27-2014 |
20140122379 | SYSTEMS AND METHODS FOR VOA MODEL GENERATION AND USE - A computer implemented system and method provides a volume of activation (VOA) estimation model that receives as input two or more electric field values of a same or different data type at respective two or more positions of a neural element and determines based on such input an activation status of the neural element. A computer implemented system and method provides a machine learning system that automatically generates a computationally inexpensive VOA estimation model based on output of a computationally expensive system. | 05-01-2014 |
20140148874 | SYSTEM AND METHOD FOR MAPPING ARBITRARY ELECTRIC FIELDS TO PRE-EXISTING LEAD ELECTRODES - A system for a neurostimulator coupled to electrodes, and a method of providing therapy to a patient using the electrodes implanted within the patient. A target multipole relative to the electrodes is defined. The target multipole is emulated by defining an initial electrical current distribution for the electrodes, such that a first set of active electrodes respectively has electrical current values of a first polarity. Each of the electrical current values of the first polarity is compared to a first threshold value, and at least one of the electrodes in the first active electrode set is zeroed-out based on the comparison. The electrical current value of each of the zeroed-out electrode(s) is redistributed to remaining ones of the electrodes to define a new electrical current distribution for the electrodes. Electrical current is conveyed to the electrodes in accordance with the new electrical current distribution, thereby providing the therapy. | 05-29-2014 |
20140200633 | VISUALIZATION OF RELEVANT STIMULATION LEADWIRE ELECTRODES RELATIVE TO SELECTED STIMULATION INFORMATION - A system and method for graphically identifying candidate electrodes of a leadwire for stimulation of a patient anatomy includes a processor obtaining data corresponding to an anatomic region, identifying a spatial relationship between electrodes of the leadwire to the anatomic region, based on the identifying, selecting a subset of the electrodes of the leadwire, generating, based on the obtained data and the selected subset, a graphical output arrangement that includes a model of the leadwire including graphical representations of at least some of the electrodes and a graphical selection marking identifying the selected subset of the electrodes. | 07-17-2014 |
20140277284 | CLINICAL RESPONSE DATA MAPPING - A system and method include a processor that, based on at least a subset of stored data of clinical effects of one or more stimulations of anatomical tissue performed using electrodes of an implanted leadwire, generates and outputs at least one graphical marking representing the at least the subset of the stored data. Each of the at least one graphical marking represents a respective portion of the at least the subset of the stored data and is output in association with a respective set of values for each of at least two parameters by which one or more the stimulations were performed. The markings are plotted in a graph defined by axes corresponding to values of respective stimulation parameters. Alternative, the markings are arranged in a column of a tabular report. The markings are two-toned to provide respective information for both therapeutic and adverse side effects. | 09-18-2014 |
20140296942 | SHORT DURATION PRE-PULSING TO REDUCE STIMULATION-EVOKED SIDE-EFFECTS - A method and neurostimulation system of providing therapy to a patient is provided. At least one electrode is place in contact with tissue of a patient. A sub-threshold, hyperpolarizing, conditioning pre-pulse (e.g., an anodic pulse) is conveyed from the electrode(s) to render a first region of the tissue (e.g., dorsal root fibers) less excitable to stimulation, and a depolarizing stimulation pulse (e.g., a cathodic pulse) is conveyed from the electrode(s) to stimulate a second different region of the tissue (e.g., dorsal column fibers). The conditioning pre-pulse has a relatively short duration (e.g., less than 200 μs). | 10-02-2014 |
20140303689 | MANAGEMENT OF STIMULATION SAFETY LIMITS IN A NEUROSTIMULATION SYSTEM - An electrical stimulation system for use with a plurality of electrodes implanted within a tissue region comprises a neurostimulator configured for delivering electrical stimulation energy to the plurality of electrodes in accordance with a set of stimulation parameters, thereby injecting a charge into the tissue region, a control device configured for receiving user input to modify the set of stimulation parameters, and controller/processor circuitry configured for, in response to the user input computing a charge injection metric value as a function of a physical electrode parameter and an electrical source parameter for a first set of the electrodes, wherein the electrode set comprises at least two electrodes, comparing the computed charge injection metric value to a safety threshold value, and performing a corrective action based on the comparison. | 10-09-2014 |
20150073502 | HEURISTIC SAFETY NET FOR TRANSITIONING CONFIGURATIONS IN A NEURAL STIMULATION SYSTEM - A system and method using a plurality of electrodes. An immediate electrode configuration is defined, electrical energy is conveyed to the electrodes in accordance with the immediate electrode configuration, a final electrode configuration is defined, a series of intermediate electrode configurations is defined using a heuristic set of rules based on the immediate electrode configuration and the final electrode configuration, electrical energy is conveyed to the electrodes in accordance with the series of intermediate electrode configurations, and electrical energy is conveyed to the electrodes in accordance with the subsequent electrode configuration. | 03-12-2015 |
20150088223 | VOA GENERATION SYSTEM AND METHOD USING A FIBER SPECIFIC ANALYSIS - A system and method for generating an estimated volume of activation (VOA) corresponding to settings applied to a stimulation leadwire includes a processor performing the following: determining, for each of a plurality of neural elements, one or more respective parameters characterizing an electrical distribution along the neural element, looking up the one or more parameters for each of the neural elements in a look-up table (LUT), obtaining threshold values for each of the neural elements recorded in the LUT in association with the looked-up parameters, comparing, for each of the neural elements, a value of the leadwire settings to each of the respective threshold value, estimating based on the comparisons which of the neural elements would be activated by the settings, and generating a structure corresponding to a region including the neural elements estimated to be activated. | 03-26-2015 |
20150088228 | NEUROSTIMULATION SYSTEM FOR SELECTIVELY ESTIMATING VOLUME OF ACTIVATION AND PROVIDING THERAPY - An external control device, neurostimulation system, and method of programming a neurostimulator. A volume of tissue activation for each of a first one or more candidate stimulation parameter sets is simulated without conveying electrical stimulation energy into the tissue. One of the first candidate stimulation parameter set(s) is selected based on each simulated volume of tissue activation. Electrical stimulation energy is conveyed into the tissue in accordance with a second one or more candidate stimulation parameter sets, wherein the initial one of the second candidate stimulation parameter set(s) is the selected one of the first candidate stimulation parameter set(s). One of the second candidate stimulation parameter set(s) is selected based on a therapeutic efficacy of the electrical stimulation energy conveyed into the tissue. The neurostimulator is programmed with the selected one of the second candidate stimulation parameter set(s). | 03-26-2015 |