Patent application number | Description | Published |
20080269831 | IMPLANTABLE PULSE GENERATOR COMPRISING MRI CURRENT LIMITING WINDINGS IN HEADER STRUCTURE - In one embodiment, a pulse generator for generating electrical stimulation for delivery to a patient, comprises: a hermetically sealed housing containing pulse generating circuitry; a header coupled to the housing for receiving one or more stimulation leads, wherein feedthrough wires are provided to conduct electrical pulses from the pulse generating circuitry to the header; the header comprising a plurality of connectors for electrically connecting to each terminal of the one or more stimulation leads, wherein an inductive winding is disposed around or adjacent to each of the connector structures and is electrically connected between the respective connector structure and a corresponding feedthrough wire to limit MRI induced heating of a respective electrode of the one or more stimulation leads. | 10-30-2008 |
20090024187 | MULIT-PROGRAMMABLE TRIAL STIMULATOR - Disclosed are systems and methods which provide trial stimulators suited for use interoperatively and during patient trial. Trial stimulator embodiments provide a patient interface and/or clinician interface which appears and functions substantially the same as an interface of a pulse generator controller which will be used after a trial period. A compliance monitor feature may be provided to facilitate verifying the proper use of the trial stimulator during a trial period. A diagnostic feature may be provided to facilitate verifying proper operation of various aspects of a trial stimulator, such as electrode impedance analysis. Trial stimulators of embodiments provide stimulation to a plurality of tissues and/or areas of the body, such as spinal cord stimulation, deep brain stimulation, etcetera. Embodiments provide for multi-electrode stimulation and multi-stimulation programs. Embodiments are configured to provide active discharge of stimulation pulses as well as to utilize constant current sources in providing the stimulation pulses. | 01-22-2009 |
20090048643 | METHOD FOR PROVIDING MULTIPLE VOLTAGE LEVELS DURING PULSE GENERATION AND IMPLANTABLE PULSE GENERATING EMPLOYING THE SAME - In one embodiment, a method of operating an implantable pulse generator comprises: providing power to a voltage converter at a first voltage level; outputting a second voltage level by the voltage converter, the second voltage level being a variable voltage level that is controlled by a control signal provided to the voltage converter, the second voltage level being provided to pulse generating circuitry of the implantable pulse generator, the second voltage level being selectable from a plurality of voltages including non-integer multiples of the first voltage level; generating pulses by the pulse generating circuitry, the pulse generating circuitry including current control circuitry for controlling the pulses to cause the pulses to provide substantially constant current to tissue of the patient; and applying at least two different control signals to the voltage converter during individual pulses to provide successively increasing voltages to the pulse generating circuitry during a respective pulse. | 02-19-2009 |
20090132017 | STIMULATION/SENSING LEAD ADAPTED FOR PERCUTANEOUS INSERTION - The present invention relates to a percutaneous insertion-capable lead, wherein insertion made through a percutaneous insertion structure. For one embodiment of such lead, the electrode-supporting stimulation portion of the lead includes at least one waisted region, relative to a transverse dimension of the lead, to facilitate lead steerability. | 05-21-2009 |
20090326608 | METHOD OF ELECTRICALLY STIMULATING TISSUE OF A PATIENT BY SHIFTING A LOCUS OF STIMULATION AND SYSTEM EMPLOYING THE SAME - In one embodiment, a method for assisting programming a pulse generator comprises: defining a set of unique electrode combinations in the controller device, each electrode combination within the set providing a unique locus of stimulation for a single stimulation pulse applied at a base location relative to loci of stimulation of other electrode combinations, the set of unique electrode combinations defining a two-dimensional range of multiple loci of stimulation; providing one or more user interfaces to the clinician to control pulse generation and delivery by the single-source pulse generator; and processing input from the clinician related to relocation of a locus of stimulation, the processing comprising (i) automatically selecting an electrode combination from the set, and (ii) automatically modifying an electrode combination used by the single-source pulse generator to deliver electrical stimulation pulses to the selected electrode combination. | 12-31-2009 |
20100004637 | System and method for implantation of devices having unknown biocompatible materials - There is disclosed a system and method for allowing use within a body of devices having material not known for its biocompatibility with the body. In one embodiment, a magnetically controlled solenoid/valve is used where portions of the valve are directly in contact with compositions that are to be delivered to a target site. Advantage is taken of an existing solenoid/valve having chromium alloy parts by coating the portions of the valve that contact the deliverable composition with a known biocompatible material having good wear resistance. In one embodiment, titanium nitride (TiN) is used as the coating material. | 01-07-2010 |
20100010479 | DOSAGE CONTROL APPARATUS - The invention is directed to a dose control apparatus. The apparatus has two armatures pressed against a valve seat by at least one spring. A coil induces a magnetic field that motivates the armatures against the force of the spring, thereby opening the valve. The armatures may move along a common axis in opposite directions. The apparatus may also include a core located between the armatures and a casing about the coil. The core and casing act to guide the magnetic field, reducing the power requirements for creating the field. Current may be periodically reversed in the coil to provide a degaussing field. In addition, a signal may be produced by the coil in the presence an externally applied magnetic field such as an MRI. An opposing magnetic field may be produced by the coil or the current provided to the coil may be adjusted. | 01-14-2010 |
20100030300 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 02-04-2010 |
20100030310 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 02-04-2010 |
20110144721 | SYSTEM AND METHOD FOR PROGRAMMING AN IMPLANTABLE PULSE GENERATOR - In one embodiment, a method of programming an IPG comprises providing one or several GUI screens on the programmer device, the GUI screens comprising a master amplitude GUI control for controlling amplitudes for stimsets of a stimulation program and one or several balancing GUI controls for controlling amplitudes of each stimset of the stimulation program; communicating one or several commands from the programmer device to the IPG to change the amplitude of all stimsets of the stimulation program in response to manipulation of the master amplitude GUI control, wherein the amplitude of each stimulation set is automatically calculated by a level selected through the master amplitude GUI control and one or several calibration parameters for the respective stimulation set; and automatically recalculating the one or several calibration parameters for a respective stimulation set in response to manipulation of one of the balancing GUI controls and storing the recalculated calibration parameters. | 06-16-2011 |
20110208265 | MULTI-PROGRAMMABLE TRIAL STIMULATOR - Disclosed are systems and methods which provide trial stimulators suited for use interoperatively and during patient trial. Trial stimulator embodiments provide a patient interface and/or clinician interface which appears and functions substantially the same as an interface of a pulse generator controller which will be used after a trial period. A compliance monitor feature may be provided to facilitate verifying the proper use of the trial stimulator during a trial period. A diagnostic feature may be provided to facilitate verifying proper operation of various aspects of a trial stimulator, such as electrode impedance analysis. Trial stimulators of embodiments provide stimulation to a plurality of tissues and/or areas of the body, such as spinal cord stimulation, deep brain stimulation, etcetera. Embodiments provide for multi-electrode stimulation and multi-stimulation programs. Embodiments are configured to provide active discharge of stimulation pulses as well as to utilize constant current sources in providing the stimulation pulses. | 08-25-2011 |
20110270350 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 11-03-2011 |
20110273225 | PULSE GENERATOR HAVING AN EFFICIENT FRACTIONAL VOLTAGE CONVERTER AND METHOD OF USE - Disclosed are systems and methods which provide voltage conversion in increments less than integer multiples of a power supply (e.g., battery) voltage. A representative embodiment provides power supply voltage multipliers in a binary ladder distribution to provide a desired number of output voltage steps using a relatively uncomplicated circuit design. By using different sources in various combinations and/or by “stacking” different sources in various ways, the voltage multiplier circuit may be used to provide desired voltages. In order to minimize the number of components used in a voltage converter of an embodiment, a capacitive voltage converter circuit uses one or more storage capacitors in place of pump capacitors in a voltage generation cycle. Also, certain embodiments do not operate to generate an output voltage until the time that voltage is needed. | 11-10-2011 |
20110313489 | METHOD AND APPARATUS FOR PROVIDING COMPLEX TISSUE STIMULATION PATTERNS - The invention relates to a stimulation device for creating complex or multi-purpose tissue stimulation. Many typical stimulation devices suffer from deficiencies in providing complex stimulation patterns. Using a circuitry operable or programmable to repeat and skip stimulation settings, a complex stimulation set may be created. The repeating and skipping functionality may be implemented in hardware or software. In this manner, complex stimulations may be derived from simple circuitries. Furthermore, these stimulations may be used to treat pain, stimulate bone growth, and control motor disorders, among others. | 12-22-2011 |
20120016453 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - The present invention relates to a multi-column paddle structure and its uses thereof to provide neuromodulation therapy to a patient. | 01-19-2012 |
20120123500 | IMPLANTABLE PULSE GENERATOR COMPRISING MRI CURRENT LIMITING WINDINGS IN HEADER STRUCTURE - In one embodiment, a pulse generator for generating electrical stimulation for delivery to a patient, comprises: a hermetically sealed housing containing pulse generating circuitry; a header coupled to the housing for receiving one or more stimulation leads, wherein feedthrough wires are provided to conduct electrical pulses from the pulse generating circuitry to the header; the header comprising a plurality of connectors for electrically connecting to each terminal of the one or more stimulation leads, wherein an inductive winding is disposed around or adjacent to each of the connector structures and is electrically connected between the respective connector structure and a corresponding feedthrough wire to limit MRI induced heating of a respective electrode of the one or more stimulation leads. | 05-17-2012 |
20120271390 | IMPLANTABLE PULSE GENERATOR COMPRISING MRI CURRENT LIMITING WINDINGS IN HEADER STRUCTURE - In one embodiment, a pulse generator for generating electrical stimulation for delivery to a patient, comprises: a hermetically sealed housing containing pulse generating circuitry; a header coupled to the housing for receiving one or more stimulation leads, wherein feedthrough wires are provided to conduct electrical pulses from the pulse generating circuitry to the header; the header comprising a plurality of connectors for electrically connecting to each terminal of the one or more stimulation leads, wherein an inductive winding is disposed around or adjacent to each of the connector structures and is electrically connected between the respective connector structure and a corresponding feedthrough wire to limit MRI induced heating of a respective electrode of the one or more stimulation leads. | 10-25-2012 |
20120286841 | PULSE GENERATOR HAVING AN EFFICIENT FRACTIONAL VOLTAGE CONVERTER AND METHOD OF USE - Disclosed are systems and methods which provide voltage conversion in increments less than integer multiples of a power supply (e.g., battery) voltage. A representative embodiment provides power supply voltage multipliers in a binary ladder distribution to provide a desired number of output voltage steps using a relatively uncomplicated circuit design. By using different sources in various combinations and/or by “stacking” different sources in various ways, the voltage multiplier circuit may be used to provide desired voltages. In order to minimize the number of components used in a voltage converter of an embodiment, a capacitive voltage converter circuit uses one or more storage capacitors in place of pump capacitors in a voltage generation cycle. Also, certain embodiments do not operate to generate an output voltage until the time that voltage is needed. | 11-15-2012 |
20130006341 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 01-03-2013 |
20130013039 | DIRECTIONAL STIMULATION LEAD AND ORIENTATION SYSTEM - A lead, method of manufacturing same, and system for stimulation is provided. The lead includes an insulative member or layer that masks a portion of the electrode(s) to effectively generate a directional lead that focuses or directs the stimulation to desired location(s). In another embodiment, the lead further includes a marking system to allow a clinician to orient the directional lead, as desired, while the lead is within a body. | 01-10-2013 |
20130030501 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 01-31-2013 |
20130035730 | IMPLANTABLE PULSE GENERATOR - In one embodiment, there is disclosed a lead locking mechanism for use in a header component of an implantable pulse generator. In certain embodiments, the lead locking mechanism comprises a first locking member positioned to engage a surface of at least two leads; a second locking member positioned to also engage a surface of at least two leads, and a coupling member coupling the first locking member to the second locking member. | 02-07-2013 |
20130041445 | STIMULATION/SENSING LEAD ADAPTED FOR PERCUTANEOUS INSERTION - The present invention relates to a percutaneous insertion-capable lead, wherein insertion made through a percutaneous insertion structure. For one embodiment of such lead, the electrode-supporting stimulation portion of the lead includes at least one waisted region, relative to a transverse dimension of the lead, to facilitate lead steerability. | 02-14-2013 |
20130116753 | IMPLANTABLE PULSE GENERATOR COMPRISING MRI CURRENT LIMITING WINDINGS IN HEADER STRUCTURE - In one embodiment, a pulse generator for generating electrical stimulation for delivery to a patient, comprises: a hermetically sealed housing containing pulse generating circuitry; a header coupled to the housing for receiving one or more stimulation leads, wherein feedthrough wires are provided to conduct electrical pulses from the pulse generating circuitry to the header; the header comprising a plurality of connectors for electrically connecting to each terminal of the one or more stimulation leads, wherein an inductive winding is disposed around or adjacent to each of the connector structures and is electrically connected between the respective connector structure and a corresponding feedthrough wire to limit MRI induced heating of a respective electrode of the one or more stimulation leads. | 05-09-2013 |
20130131758 | SYSTEM AND METHOD FOR PROGRAMMING AN IMPLANTABLE PULSE GENERATOR - In one embodiment, a method of programming an IPG comprises providing one or several GUI screens on the programmer device, the GUI screens comprising a master amplitude GUI control for controlling amplitudes for stimsets of a stimulation program and one or several balancing GUI controls for controlling amplitudes of each stimset of the stimulation program; communicating one or several commands from the programmer device to the IPG to change the amplitude of all stimsets of the stimulation program in response to manipulation of the master amplitude GUI control, wherein the amplitude of each stimulation set is automatically calculated by a level selected through the master amplitude GUI control and one or several calibration parameters for the respective stimulation set; and automatically recalculating the one or several calibration parameters for a respective stimulation set in response to manipulation of one of the balancing GUI controls and storing the recalculated calibration parameters. | 05-23-2013 |
20130211477 | SYSTEM AND METHOD FOR DEFINING STIMULATION PROGRAMS INCLUDING BURST AND TONIC STIMULATION - In one embodiment, a method for defining a stimulation program for electrical stimulation of a patient, the method comprising: providing a single screen user interface that comprises a first plurality of controls and a second plurality of controls, the first plurality of controls allowing selection of multiple stimulation parameters for a plurality of stimulation sets, the second plurality of controls allowing selection of multiple stimulation parameters defining burst stimulation and tonic stimulation; receiving user input in one or more of the second plurality of controls; and automatically modifying parameters for one or more stimulation sets in response to receiving the user input in one or more of the second plurality of controls and modifying values displayed in one or more controls of the first plurality of controls according to the modified parameters, the modified parameters reflecting a stimulation program that includes an interleaved pattern of burst stimulation and tonic stimulation for delivery to the patient. | 08-15-2013 |
20140081351 | METHOD OF NEUROSTIMULATION OF DISTINCT NEURAL STRUCTURES USING SINGLE PADDLE LEAD TO TREAT MULTIPLE PAIN LOCATIONS AND MULTI-COLUMN, MULTI-ROW PADDLE LEAD FOR SUCH NEUROSTIMULATION - In some embodiments, a paddle lead is implanted within a patient such that the electrodes are positioned within the cervical or thoracic spinal levels. An electrode combination on a first row of electrodes can be determined that is effective for a first pain location with minimal effects on other regions of the body. The first pain location can be addressed by stimulating a first dorsal column fiber due to the relatively fine electrical field resolution achievable by the multiple columns. Then, another electrode combination on a second row of electrodes can be determined for a second pain location with minimal effects on other regions. The second pain location could be addressed by stimulating a second dorsal column fiber. After the determination of the appropriate electrodes for stimulation, the patient's IPG can be programmed to deliver pulses using the first and second rows according to the determined electrode combinations. | 03-20-2014 |