Abstract: Aspects of the invention relate to intracranial electrodes and methods for implanting and using intracranial electrodes. In one particular example, an intracranial electrode includes a shaft having a distal contact surface adapted to electrically contact a surface of a patient's brain, a head associated with the shaft, and threads adapted to fix the electrode with respect to the patient's skull. This electrode may have an adjustable length adapted to change a contact force of the distal contact surface against the surface of the brain by adjusting the length of the electrode.

Abstract: Chest compressions are measured and prompted to facilitate the effective administration of CPR. A displacement detector determines a displacement indicative signal indicative of the displacement of the CPR recipient's chest toward the recipient's spine. A signaling mechanism provides chest compression indication signals directing a chest compression force being applied to the chest and a frequency of such compressions. An automated controller and an automated constricting device may be provided for applying CPR to the recipient in an automated fashion. The automated controller receives the chest compression indication signals from the signaling mechanism, and, in accordance with the chest compression indication signals, controls the force and frequency of constrictions.

Abstract: A conductor assembly and methods for mechanically and electrically coupling a small diameter conductor to a lead component having a relatively larger sized conductor bore is provided. The assembly includes a sizing member sized to fit securely around a relatively small diameter conductor and to further fit within a conductor bore so that temporary compression (e.g., crimping, crushing, or staking) of a discrete portion of the conductor bore mechanically couples, and establishes electrical communication between, the conductor and the lead component. Alternately, a conductive sleeve member having a relatively large diameter conductor bore is adapted to receive a sizing unit to downsize one side of the sleeve member in a manner similar to the foregoing. In this case, a relatively smaller diameter one of a pair of different diameter elongated conductors is firmly mechanically coupled and in electrical communication with a relatively larger diameter conductor.

Abstract: An implantable electrical connector system, which may be used as part of an electrical lead, a connector block on an implantable pulse generator, or the connector of a lead extension. The distal most electrical contact on the proximal end of the lead (or lead extension) is adapted to provide registration or alignment of all of the electrical contacts of the proximal end of the lead (or lead extension) with electrical contacts of the distal connector of a lead extension or the electrical contacts of a connector block of an implantable pulse generator (IPG). In an exemplary embodiment, the distal most electrical contact on the proximal end portion of the lead may have a flange or shoulder that is adapted to engage the distal electrical contact of the female connection section of a lead extension or connector block. Most preferably, in this exemplary embodiment, the flange or shoulder is an integral part of the distal most electrical contact.

Abstract: A method and apparatus for automatically identifying various types of cardiac and non-cardiac oversensing is provided. EGM data, including time intervals between sensed and paced events and signal morphologies, are analyzed for patterns indicative of various types of oversensing, including oversensing of far-field R-waves, R-waves, T-waves, or noise associated with electromagnetic interference, non-cardiac myopotentials, a lead fracture, or a poor lead connection. Identification of oversensing and its suspected cause are reported so that corrective action may be taken.

Abstract: Many individuals generate excessively loud snoring during their sleep, often to the point where others cannot tolerate sleeping in the same room with them. Most cases of snoring are caused by excessive bulk and flaccidity of soft tissues of the palate and uvula that vibrate as air flows past them. These palate and uvula contain muscles whose contractions can stiffen and displace the soft tissues so that they do not vibrate. The invention provides electrical stimulation that causes the oropharyngeal muscles to contract during sleep using one or more microstimulators injected into or near these muscles or the nerves which innervate them. The invention also provides methods of determining the anatomical structures implicated in snoring and testing such locations for effective placement and stimulation of muscle contraction to decrease the frequency or magnitude of snoring.

Abstract: An aneurysmal sac arterial wall electrostimulation system (11) comprises an array of electrical leads (4 and 5) placeable in contact with a portion of the arterial wall (12) to be electrostimulated and a source (3) of electrostimulation attached to the array of electrical leads. The source provides periodic electrostimulus to at least one of the array of leads in accordance with a treatment program and at least one of the array of leads senses the contraction condition of the aneurysmal sac arterial wall (10) which is provided as a feedback loop input signal to the treatment program. Repeated electrostimulation of a vascular passage using the system (11) provides increased muscle tone or pseudo permanent contraction of such vascular passage.

Abstract: A medical fluid delivery system includes an implantable medical lead including a fixation element adapted to secure the lead to a tissue site and a fluid delivery device including a tissue piercing distal tip; the device is adapted to pass through a proximal port, a lumen and a distal port of the lead. The system further includes means for adjusting a position of the device distal tip with respect to the lead distal port.

Abstract: A system and a computed implemented methodology is disclosed for processing electrical signals recorded from the heart and, more particularly, for objectively deriving sub-components and comparing signals and their sub-components.

Abstract: A cardiac sensor system includes implanted cardiac sensor assemblies and an external controller which receives information from the implanted sensors. The sensors permit direct measurement of a number of physiologic parameters. The external controller permits calculation of a variety of performance values based on the measured physiological parameters. Optionally, patient oxygen consumption can be measured externally and combined with the internally measured physiologic parameters in order to calculate a variety of unique performance values.

Abstract: A method and apparatus for improving visual acuity when providing a visual image from a “high” resolution input device to a “low” resolution output device. The described invention is of particular use when the output device is an array of electrodes as part of a retinal prosthesis used to restore vision to a visually-impaired patient. In that various limitations may, within the foreseeable future, limit the density of such an electrode array (and thus the resolution of the output image), the present invention teaches techniques to assign processed pixel subsets of a higher resolution image to a single electrode. By varying the pixel subsets, e.g., by jittering, and/or altering the processing criteria, the perceived visual acuity may be further improved. Alternatively and additionally, such processing may be further extended to drive neighboring electrodes in combination to thus stimulate virtual electrode sites and thus further enhance visual acuity.

Abstract: The invention is a retinal prosthesis with an improved configuration mounting necessary components within and surrounding the eye. The present invention better allows for the implantation of electronics within the delicate eye structure. The invention further limits the necessary width of a thin film conductor passing through the sclera by use of a multiplexer external to the sclera and a demultiplexer internal to the sclera.

Abstract: Apparatus and methods for analyzing implantable medical device (IMD) data and to distinguish specific morphologies for review. EGM waveforms of a cardiac cycle can be grouped according to waveform shape similarities, preferably accomplished using clustering algorithms. The EGM waveform can be divided into segments represented by a one dimensional vector for each segment, and nearest neighbor vector clustering used to group the waveforms according to morphological similarity. The waveforms can be further grouped at a second level into chronologically contiguous similar EGM waveforms. Interval data for a cardiac cycle may also be grouped according to interval similarity and chronology. The chronologically contiguous waveform and interval groupings may be further grouped. Large quantities of EGM data are automatically analyzed and annotated to focus the attention of a cardiologist on likely areas of concern, reducing the need to visually inspect endless streams of EGM waveforms.

Abstract: The invention provides a tuned transmitter coil for transcutaneous transmission of power and information from an external component of an auditory prosthesis to an implanted receiver. A shield is provided in order to reduce a skin-to-coil capacitance, thereby improving tuning stability of the coil from one user to the next. A shield may also be provided in order to reduce electromagnetic interference.

Abstract: A non-invasive ocular therapy for vision disorders is provided. First and second electrodes of a direct current source are electrically contacted so as to deliver current to and/or about an area proximal one or more eyes of a subject. A direct electrical current of between about 1-800 microamps, at a resistance assumption of about 500 ohms, is generated between the electrodes for a preselected duration. Preferably, the direct electrical current is generated at a select frequency profile as a function of time, and with a carrier signal of about 10,000-12,000 hertz. Advantageously, the subject therapy is augmented via application of light energy to the eye(s), as well as by the application of infrasonic sound waves directly into eyes.

Abstract: A method and system for identifying and localizing a reentrant circuit isthmus in a heart of a subject during sinus rhythm is provided. The method may include (a) receiving electrogram signals from the heart during sinus rhythm via electrodes, (b) creating a map based on the electrogram signals, (c) determining, based on the map, a location of the reentrant circuit isthmus in the heart, and (d) displaying the location of the reentrant circuit isthmus.

Abstract: A system and method for automatically selecting among a plurality of pacing modes based upon capture detection. Patients suffering from heart failure may be optimally treated with different resynchronization pacing modes or configurations. By detecting whether capture is being achieved by a particular configuration or mode, a device is able to automatically switch to one that is both optimal in treating the patient and is successful in capturing the heart with pacing pulses.

Abstract: A heart assist system includes an axial-flow blood pump capable of being implanted in the descending thoracic aorta; a pressure-feedback controller connected to the pump, for controlling the pump, the controller capable of being implanted in the body; and a rechargeable battery pack connected to the pump and to the controller, for providing power to the pump, the battery pack capable of being implanted in the body. A method for assisting a failing heart comprises the steps of a) in response to when a measured dP/dT signal increases during systole, signaling an implanted aortic blood pump to go into a systolic mode and pump blood at a first flow rate; and b) in response to when the dP/dT signal peaks in the negative region, signaling the pump to go into a diastolic mode and pump blood at a second flow rate.

Abstract: In general, the invention is directed to a technique for selection of parameter configurations for a neurostimulator using genetic algorithms. The technique may be employed by a programming device to allow a clinician to select parameter configurations, and then program an implantable neurostimulator to deliver therapy using the selected parameter configurations. In operation, the programming device executes an electrode configuration search algorithm to guide the clinician in the selection of electrode configurations. The search algorithm relies on a genetic algorithms to identify potential optimum electrode configurations within an electrode set. The genetic algorithms provide guidance in the electrode configuration selections process, interactively guiding the clinician by suggesting the configurations that are most likely to be efficacious given the results of tests already performed during an evaluation session.

Abstract: Integrity of a wirelessly telemetered message communicated between an implantable medical device and an external programmer is authenticated by encoding the message. The message is encrypted based on a random number or time stamp and a secret key. The message is authenticated by encryption and decryption or by executing a hash function.