Abstract: One aspect of this disclosure relates to an apparatus for providing a selective capacitance. An embodiment of the apparatus includes a first and second capacitor in a stack, and a switching circuit connected between the first and second capacitors. The switching circuit has at least two states, and is adapted to provide a first defibrillation capacitance in a first state and a second defibrillation capacitance in a second state. A switching circuit embodiment includes a field effect transistor (FET) adapted to have a source connected to the first capacitor and a drain connected to the second capacitor, a bipolar junction transistor (BJT) adapted to have an emitter connected to the source of the FET and a collector connected to a gate of the FET, a first current source connected to the collector of the BJT, and a second current source connected to a base of the BJT.

Abstract: Systems and methods for detecting and/or treating nervous system disorders, such as seizures. Certain embodiments of the invention relate generally to implantable medical devices (IMDs) adapted to detect and treat nervous system disorders in patients with an IMD. Certain embodiments of the invention include detection of seizures based upon comparisons of long-term and short-term representations of physiological signals. Other embodiments include prediction of seizure activity based upon analysis of physiological signal levels. An embodiment of the invention monitors the quality of physiological signals, and may be able to compensate for signals of low signal quality. A further embodiment of the invention includes detection of seizure activity following the delivery of therapy.

Abstract: An inspiratory muscle stimulation system uses an implantable medical device to deliver stimulation to control diaphragmatic contractions for slower and deeper breathing, thereby conditioning and strengthening inspiratory muscles. In various embodiments, respiratory and/or cardiac performance are monitored for controlling parameters of the stimulation.

Abstract: An electrode array which is able to be inserted to a desired depth within the cochlea to provide useful percepts for the recipient which will also preferably not cause damage to the sensitive structures of the cochlea. The electrode array is insertable through an opening in the cochlea and into at least the basal region of the cochlea and comprises an elongate carrier having a proximal end, a distal end, and a plurality of electrodes supported by the carrier at respective spaced locations thereon in a region between the proximal end and the distal end. A stabilising collar extends outwardly from the elongate carrier at or adjacent a proximal end thereof and has an abutment surface adapted to abut a portion of the cochlea surface around the cochleostomy and at least substantially prevent movement of the carrier following completion of insertion of the array into the cochlea.

Abstract: The present invention is an electrode with one or more conductive surfaces and one or more access windows allowing needles, lancets and other similar objects to pass through or near the electrode and into the underlying skin layer. The electrode adheres to skin and surrounding mild electrical and vibration stimulation acts to mask the pain signals caused when sharp objects penetrate the skin. The stimulation is delivered by an attachable electrical unit designed to generate both the TENS and vibration stimuli while connected to the electrode. In addition, a flap which is attached to the electrode may serve as a bandage type dressing by flipping down over the access window(s) once the procedure is done. The present invention is an electrode with one or more electrically isolated conductive surfaces coupled to a TENS and vibration generating unit. It is designed to allow access to underlying skin and is meant to be easily produced, with the electrode being disposable after each patient use.

Abstract: An external device includes a communication circuit, a programming interface including a display, and a processor. The processor includes a parameter analyzer to apply a rule to a combination of operating parameter values of the IMD to determine operating parameter interaction. The display includes a first warning that is displayed when the parameter analyzer determines that a combination of operating parameter values entered via the programming interface is not allowed, and a second warning that is displayed when the parameter analyzer determines that a combination of operating parameters values entered via the programming interface is allowable but not recommended. The processor is configured to program the operating parameter values associated with the second warning into the IMD only after a user acknowledgement of the second warning is received from a user via the programming interface.

Abstract: A device including at least one electrode and/or at least one chip configured to stimulate cerebral neurons that have a pathological oscillatory activity with a period duration T, n contact points that are distributed over at least one electrode and/or over at least one chip and are configured to output electrical stimulus signals to the brain, and a controller configured to drive the contact points so that the contact points output a low-frequency succession of sequences of high-frequency pulse trains to the brain, wherein, for each sequence, m contact points of the n contact points are selected, with m?2 and m<n, and high-frequency pulse trains are applied only via the selected m points, and the temporal shift between two successive high-frequency pulse trains that are applied by different contact points is T/m.

Abstract: Some embodiments of the present invention provide stimulation systems and components for selective stimulation and/or neuromodulation of one or more dorsal root ganglia through implantation of an electrode on, in or around a dorsal root ganglia. Some other embodiments of the present invention provide methods for selective neurostimulation of one or more dorsal root ganglia as well as techniques for applying neurostimulation to the spinal cord. Still other embodiments of the present invention provide stimulation systems and components for selective stimulation and/or neuromodulation of one or more dorsal root ganglia through implantation of an electrode on, in or around a dorsal root ganglia in combination with a pharmacological agent.

Abstract: Present invention is a method of improving circadian rhythms in blind people by stimulation the visual neural system. Ideally a retinal prosthesis of the type used to restore vision can be used to restore normal circadian rhythms. Additionally, brightness on the prosthesis can be increased in the morning and decreased in the evening to stimulate normal Circadian rhythms. Alternatively, if a retinal prosthesis is not preferable, the retina can be stimulated externally, during the day and not at night. While such eternal stimulation can not produced artificial vision, it can stimulate normal circadian rhythms.

Abstract: Exemplary external medical devices are configurable to communicate with an implantable medical device (IMD). One medical device includes multiple IMD telemetry ports operable to connect IMD telemetry mechanisms to the medical device. The medical device also includes a control unit configured to control the IMD telemetry mechanisms.

Abstract: A device comprises a cardiac contraction sensing circuit, a timer circuit, an electrical stimulation circuit, and a controller. The timer circuit provides a time duration of an atrial-atrial interval between successive atrial contractions, a ventricular-ventricular interval between successive ventricular contractions, and an atrial-ventricular (A-V) interval between an atrial contraction and a same cardiac cycle ventricular contraction. The controller includes an event detection module and a pacing module. The event detection module is configured for determining whether A-V block events are sustained over multiple cardiac cycles. The pacing module is configured for providing pacing therapy according to a primary pacing mode that includes AAI(R) mode with independent VVI backup mode, and for switching the pacing therapy to a secondary pacing mode if A-V block events are sustained over multiple cardiac cycles. Other devices and methods are described.

Abstract: Methods, systems, and devices to reduce power demands substantially for current deep brain stimulation DBS using smart technology type applications. The invention uses miniaturized components that allow integration with the implanted probe(s) themselves, and includes a skull-sited housing having all the controls and battery power supply needed. This avoids implanting obtrusive card-deck size batteries in the chest area and the use of vulnerable wire leads under the skin from the chest area to connect with the implanted electrode(s) on the skull, improving comfort. The Generating of non-continuous pulses on demand of conditions such as the occurrence of a tremor occurs, without having to continuously run pulses at all times, substantially increasing life spans over current techniques. Shaped electrodes and their methods further reduce power demands and efficacy by directing electric fields to focus towards specific areas and regions of the brain rather than inefficient 360-degree emission.

Abstract: Methods, systems, and devices to reduce power demands substantially for current deep brain stimulation DBS using smart technology type applications. The invention uses miniaturized components that allow integration with the implanted probe(s) themselves, and includes a skull-sited housing having all the controls and battery power supply needed. This avoids implanting obtrusive card-deck size batteries in the chest area and the use of vulnerable wire leads under the skin from the chest area to connect with the implanted electrode(s) on the skull, improving comfort. The Generating of non-continuous pulses on demand of conditions such as the occurrence of a tremor occurs, without having to continuously run pulses at all times, substantially increasing life spans over current techniques. Shaped electrodes and their methods further reduce power demands and efficacy by directing electric fields to focus towards specific areas and regions of the brain rather than inefficient 360-degree emission.

Abstract: A method and apparatus for long-term assisting the left ventricle of a heart to pump blood is disclosed which includes at least one transluminally deliverable pump and a transluminally deliverable support structure which secures the at least one pump within the aorta for long-term use.

Abstract: Cardiac sensing and/or stimulation devices and methods that adapt to implant location and positioning, and may employ automated vector selection from multiple electrodes. Devices include a housing having a first face opposing a second face, and an edge extending around the perimeter. A pulse generator and controller are coupled to three or more electrodes. Electrode arrangement facilitates selection of the particular electrodes that sense cardiac activity irrespective of one or more of positioning of the device, rotation of the housing, and which of the first and second faces of the housing is orientated toward the patient's skin. A first vector may be selected that provides for sensing cardiac activity, and a second vector may sense skeletal muscle activity. The vectors may be selected based on amplitude or signal-to-noise ratio exceeding a predetermined threshold. Methods may involve delivering defibrillation or cardioversion energy and/or determining cardiac rhythm states using selected vectors.

Abstract: Implantable medical leads and methods of making. The method includes providing first and second tubes, and arranging a segment of the first tube side-by-side with a segment of the second tube along a region of interface. The tubes are forced to a non-linear shape along at least a portion of the region of interface. An adhesive is applied to the portion of the region of interface and cured. Upon curing, the adhesive bonds the tubes to one another and elastically maintains the non-linear shape in the absence of an external force. A conductive element is disposed within at least one of the tubes. In some embodiments, the non-linear shape is a sigmoid shape, and the method includes arranging the tube segments in a fixture having a structure defining the sigmoid shape.

Abstract: Electrodes for tissue stimulation and sensing can comprise a support with nanostructures disposed on the support. Pairs of the electrodes can be placed in close proximity to one another. When electrical energy is supplied to the electrodes, an electrical field (and possibly an electrical current) can be established between the nanostructures on the electrodes. The nanostructures may have cells disposed thereon, for example myocardial cells, myocardial progenitor cells, neural cells and/or stem cells. In addition, the electrodes can be arranged in arrays.

Abstract: Systems and methods for detecting and/or treating nervous system disorders, such as seizures. Certain embodiments of the invention relate generally to implantable medical devices (IMDs) adapted to detect and treat nervous system disorders in patients with an IMD. Certain embodiments of the invention include detection of seizures based upon comparisons of long-term and short-term representations of physiological signals. Further embodiments of the invention include preparing for the delivery of therapy by warming up therapy delivery components prior to the expected delivery of therapy.

Abstract: An external programming system and method for implantable medical devices (IMDs) is disclosed. The external programming system includes a communication circuit, a display device, an input device, and a processor. The communication circuit is configured to link to an IMD to transmit or monitor IMD timing parameter settings. The display device is configured to display a textual representation of an IMD timing parameter setting and a specified IMD timing parameter limit, a graphical slide control comprising a movable feature indicating the IMD timing parameter setting, a graphical slide-control limit corresponding to the specified IMD timing parameter limit, and a graphical representation of physiologic information including a portion of said graphical representation aligned with the slide control movable feature. The input device is configured to adjust the movable feature in response to user input. The processor is configured to monitor or store an IMD timing parameter setting.

Abstract: A method for programming a deep brain stimulator implanted in a target region of a brain of a living subject. In one embodiment, the method comprises the steps of creating an efficacy atlas; acquiring a position of each electrode contact of the at least one electrode; mapping the acquired position of each electrode contact of the at least one electrode onto a corresponding position in the efficacy atlas so as to determine the efficacy of stimulation at the acquired position; and selecting one or more electrode contacts having the highest efficacy for stimulation.