Abstract: An improved forward-masking method of recording and processing neural responses (“NR”) is provided, wherein the method does not assume a linear system response and does not assume a linear response at the interface between electrodes and tissue. The method of the present invention cancels out non-linearities and/or system hysteresis. Other artifacts such as system cross-talk between stimulation and recording circuits are also canceled out.

Abstract: A method of using a small implantable stimulator(s) with at least two electrodes small enough to have the electrodes located adjacent to the vagus nerve. The small stimulator provides a means of stimulating the vagus nerve when desired, and may be implanted via a minimal surgical procedure.

Abstract: An alterphasic inverting stimulation strategy for use with a multichannel cochlear implant system consumes less power than similar strategies, yet provides better sound quality. The alterphasic inverting strategy is a strategy wherein stimulation pulses are strictly sequential, and wherein the timing and polarity of the channels is chosen such that positive and negative pulses are alternating in time in accordance with a defined pattern that staggers application of the pulses spatially across all the channels and inverts the polarity of pulses that are near each other either spatially or in time.

Abstract: An In The Ear (ITE) microphone improves the acoustic response of a Behind The Ear (BTE) Implantable Cochlear Stimulation (ICS) system during telephone use. An acoustic seal provided by holding a telephone earpiece against the ear provides improved coupling of low frequency (up to about 1 KHz) sound waves, sufficient to overcome losses due to the near field acoustic characteristics common to telephones. In a preferred embodiment, the ITE microphone is connected to a removable ear hook of the BTE ICS system by a short bendable stalk.

Abstract: A neuro-stimulation system and method are provided which can monitor EKG signals and provide electrical stimulation. The system comprises a stimulation lead having at least one stimulating electrode on the lead and an IPG having a case and connectors. The connectors can mechanically and electrical connect to the lead and to the at least one stimulating electrode and an EKG electrode can be placed on the stimulating lead. The IPG case may be used variously as an EKG electrode, as well as an indifferent electrode. Alternatively or additionally, a separate, second lead having a second EKG electrode may be connected to the IPG. This second EKG electrode may also double in function as a stimulation electrode.

Abstract: An In The Ear (ITE) microphone improves the acoustic response of a Behind The Ear (BTE) Implantable Cochlear Stimulation (ICS) system during telephone use. The microphone includes means for adjusting the position of the microphone to receive sound waves through a port. An acoustic seal provided by holding a telephone earpiece against the ear provides improved coupling of low frequency (up to about 1 KHz) sound waves, sufficient to overcome losses due to the near field acoustic characteristics common to telephones. In an exemplary embodiment, the ITE microphone is connected to a removable ear hook of the BTE ICS system by a short bendable stalk.

Abstract: An In The Ear (ITE) microphone which converts audio sounds into electrical signals which are then processed by a speech processor to generate electrical pulses to stimulate nerves in the cochlea, improves the acoustic response of a Behind The Ear (BTE) Implantable Cochlear Stimulation (ICS) system during telephone use. An acoustic seal provided by holding a telephone earpiece against the ear provides improved coupling of low frequency (up to about 1 KHz) sound waves, sufficient to overcome losses due to the near field acoustic characteristics common to telephones. In an exemplary embodiment, the ITE microphone is connected to a removable ear hook of the BTE ICS system by a short bendable stalk.

Abstract: Introducing one or more stimulating drugs to the vagus nerve and/or one or more branches of the vagus nerve to treat movement disorders uses at least one implantable system control unit (SCU) with an implantable pump with at least one infusion outlet. Optional electrical stimulation may additionally be supplied by an implantable signal/pulse generator (IPG) with one or more electrodes. In certain embodiments, a single SCU provides one or more stimulating drugs and the optional electrical stimulation. In some embodiments, one or more sensed conditions are used to adjust stimulation parameters.

Abstract: Treatment of hypertension includes implantation of the discharge portion(s) of a catheter and/or electrical stimulation electrode(s) adjacent the tissue(s) to be stimulated. Stimulation pulses, i.e., drug infusion pulses and/or electrical pulses, are supplied by one or more implanted stimulators, through the catheter and possibly also a lead, tunneled subcutaneously between the stimulator and stimulation site. A microstimulator(s) may also/instead deliver electrical stimulation pulses. Stimulation sites include the carotid sinus and carotid body, among other locations. Treatments include drugs used for acute and/or chronic treatment of hypertension. In a number of embodiments, a need for or response to treatment is sensed, and the electrical and/or infusion pulses adjusted accordingly.

Abstract: Audio streaming is made available throughout the signal processing path of the speech processor of a cochlear implant or other audio signal processor. Audio streaming comprises the digitally phase locked playback of a real time n-bit digital audio stream, where n may be a large number, e.g., 8, 12, 16, 24 or 32, that emanates (unsolicited) from an operating speech processor. A number of sample points are made available long the processing chain of a digital signal processor (DSP) used within the speech processor of the cochlear implant. Audio streaming may occur at any sample point. The signal at a selected sample point may be selectively monitored in order to allow appropriate diagnostics to be performed. Audio streaming utilizes an auto-referencing mixed-mode phase locked loop. Such phase locked loop processes an asynchronous stream of digital audio samples that arrive at a designated location, e.g., a selected sample point, at a consistent, but unknown, average rate.

Abstract: Introducing one or more stimulating drugs to the brain and/or applying electrical stimulation to the brain is used to treat movement disorders. At least one implantable system control unit (SCU) produces electrical pulses delivered via electrodes implanted in the brain and/or drug infusion pulses delivered via a catheter implanted in the brain. The stimulation is delivered to targeted brain structures to adjust the activity of those structures. In some embodiments, one or more sensed conditions are used to adjust stimulation parameters.

Abstract: The present invention provides a cochlear stimulation system and method for capturing and translating FTS in incoming sounds and delivering this information spatially to the cochlea. An embodiment of the system may comprise an FTS estimator/analyzer and a current navigator. An embodiment of the method of the invention can comprise: analyzing the incoming sounds within a time frequency band, extracting the slowly varying frequency components and estimating the FTS to obtain a more precise dominant FTS component within a frequency band. After adding the fine structure to the carrier to identify a precise dominant FTS component in each frequency band (or stimulation channel), a stimulation current is steered to the precise spatial location on the cochlea that corresponds to the dominant FTS component, the steering accomplished by delivering non-simultaneous stimuli through at least two electrodes.

Abstract: An implantable microstimulator includes a housing, an electronic subassembly, conductive vias, and an electrode arrangement. The housing defines an interior and an exterior with the electronic subassembly disposed in the interior of the housing. The conductive vias extend from the interior to the exterior of the housing. The electrode arrangement is disposed on the housing and includes a film substrate with electrodes disposed on the film substrate and coupled to the electronic subassembly through the plurality of vias.

Abstract: A method for selecting Spinal Cord Stimulation (SCS) stimulation parameter sets guides a clinician towards an effective set of stimulation parameters. The clinician first evaluates the effectiveness of a small number of trial stimulation parameter sets from a Measurement Table. Based on the patient's assessment, the trial stimulation sets are ranked. Then the clinician selects a starting or benchmark row in a Steering Table corresponding to the highest ranked trial stimulation parameter set. The clinician moves either up or down from the starting row, testing consecutive parameter sets. When a local optimum is found, the clinician returns to the benchmark row, and tests in the opposite direction for another local optimum. This process of searching for optimum parameter sets is repeated for a new starting row in the Steering Table that is selected based on the next ranked trial set from the Measurement Table.

Abstract: An implantable microstimulator can include a housing having a first end; an electronic subassembly disposed within the housing; a plurality of electrodes disposed on the housing and coupled to the electronic subassembly; and a dissecting tip disposed at the first end of the housing. Another implantable microstimulator includes a housing having a first end; an electronic subassembly disposed within the housing; a plurality of electrodes disposed on the housing and coupled to the electronic subassembly; and a extraction aid disposed at the first end of the housing and configured and arranged for attachment of an extraction line.

Abstract: A quick-connect system for mechanically and electrically connecting two components therebetween. In an exemplary embodiment, the mechanical quick-connect is comprised of: a receptacle in the first component; a barrel protruding from the second component; and a lock for locking the barrel inside the receptacle. Electrical connection, such as a coaxial connection, can also be obtained between the barrel and receptacle, while in the locked position by using a pin assembly axially located in the barrel. The lock may comprise a tooth and slot configuration, wherein the tooth is in compressive contact with a spring which compression continuously exerts force on the tooth and causes the end of the tooth to engage to the cam slot on the barrel, thereby locking the barrel inside the receptacle. The barrel may be disengaged with a turn that is less than 180 degrees.

Abstract: An implantable stimulator that includes a housing, a first plastic component, and a second plastic component, where the first and second plastic components form a polymer-polymer interface. A light absorbing metal layer is disposed over at least a portion of the interface and an electronic subassembly is disposed within the housing. The first and second plastic components can be welded together by irradiating the light absorbing metal layer which converts the light to heat.

Abstract: An implantable neural stimulation system, such as a cochlear implant system, utilizes a Distributed Compression Amplitude Mapping (DCAM) system to distribute signal compression between a pre-bandpass linear mapping function, and a post-bandpass compressive mapping function. The pre-bandpass linear mapping function is implemented, in one embodiment, as a traditional fast audio compressor to prevent distortion that might result from a non-linear mapping. The post-bandpass compressive mapping function is implemented, in one embodiment, as a logarithmic transform to reflect natural hearing. As a result of the DCAM processing, the differences in amplitudes of components of the acoustic spectrum are maintained. By maintaining these differences, spectral smearing between channels is reduced and speech clues are preserved.

Abstract: Braze and electrode wire assemblies, e.g., used with an implantable microstimulator, include a wire welded in the through-hole of an electrode, which electrode is brazed to a ceramic case that is brazed to a metal ring that is welded to a metal can. The braze joints are step or similar joints that self-center the case, provide lateral support during braze assembly, and provide increased surface area that prevents braze material from exuding from the joints. The end of the ceramic case that is brazed to the metal ring need not be specially machined. The shell has a reference electrode on one end and an active electrode on the other, and is externally coated on selected areas with conductive and non-conductive materials.

Abstract: A device for stimulating body tissue includes a lead body and at least one stimulating electrode disposed on the lead body. The lead body is configured and arranged to be substantially rigid outside the patient's body and during insertion into the patient's body and then becomes non-rigid upon exposure within the patient's body;.