| Patent application number | Description | Published |
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| 20090024186 | SYSTEMS AND METHODS FOR PROVIDING NEURAL STIMULATION TRANSITIONS - A method embodiment comprises generating a neural stimulation signal for a neural stimulation therapy. The signal is generated during a duty cycle of a stimulation period to provide the neural stimulation therapy with an intensity at a therapy level for a portion of the duty cycle. In various embodiments, a ramp up protocol is implemented to begin the duty cycle, a ramp down protocol is implemented to end the duty cycle, or both the ramp up protocol and the ramp down protocol are implemented. The ramp up protocol includes ramping up the intensity from a non-zero first subthreshold level for the neural stimulation therapy at the beginning of the duty cycle to the therapy level. The ramp down protocol includes ramping down the intensity from the therapy intensity level to a non-zero second subthreshold level for the neural stimulation therapy at the end of the duty cycle. | 01-22-2009 |
| 20090088813 | Cardiac Rhythm Management Device - A medical device for implantation on an epicardial surface of the heart. The device has a transmural member providing optimal electrode locations for various therapies. The hemodynamically optimal therapy is guided by sensed left ventricular pressure and electrical activity. The device may be used alone or with a companion implanted cardiac rhythm management device. | 04-02-2009 |
| 20090118597 | Neural Signal Processing - A method of monitoring neural signal activity with an implantable monitoring device implanted in a living subject includes amplifying a neural signal having a signal bandwidth of at least 1000 Hz. The method also includes processing the amplified neural signal to produce a reduced-bandwidth derivative neural signal representative of gross activity of the neural signal, and wirelessly transmitting the derivative neural signal from the implantable monitoring device for receipt by a receiver external of the living subject. | 05-07-2009 |
| 20090143692 | Physiologic Signal Processing To Determine A Cardiac Condition - In a method for determining a cardiac condition, a sensed physiologic signal for a period of time including multiple cardiac cycles is received. Using the received physiologic data, a heart beat frequency to be used as a reference frequency is determined. A plurality of harmonics of the received physiologic signal is extracted based on the reference frequency, wherein the harmonics correspond to a plurality of alternans frequencies. Amplitudes of at least some of the extracted harmonics are determined, and are used to determine an alternans indicator value. | 06-04-2009 |
| 20090275848 | Cardiac Risk Assessment - In a system for assessing cardiac risk of a patient, a measuring component measures a cardiac signal comprised of multiple cardiac cycles at multiple periods in time. A processing component calculates sensitivity of cardiac function to sympathetic drive at each of the periods in time from the measured cardiac signal. A risk identification component evaluates a trend of the sensitivity over time as an indicator of a degree of cardiac risk. | 11-05-2009 |
| 20090326595 | Prediction and Prevention of Cardiovascular Insult - In a method of providing therapy to a patient to prevent an occurrence of a dangerous cardiac event, a cardiac signal sensed over multiple cardiac cycles is received. A risk of impending cardiovascular insult is determined, using the received cardiac signal, by assessing an indicator of proarrhythmogenic substrate and a change in sympathovagal balance. A therapy comprising acupuncture to modulate sympathovagal balance is administered based on the determined risk. | 12-31-2009 |
| 20100280564 | MONITORING OF CHRONOBIOLOGICAL RHYTHMS FOR DISEASE AND DRUG MANAGEMENT USING ONE OR MORE IMPLANTABLE DEVICE - The health state of a subject is automatically evaluated or predicted using at least one implantable device. In varying examples, the health state is determined by sensing or receiving information about at least one physiological process having a circadian rhythm whose presence, absence, or baseline change is associated with impending disease, and comparing such rhythm to baseline circadian rhythm prediction criteria. Other chronobiological rhythms beside circadian may also be used. The baseline prediction criteria may be derived using one or more past physiological process observation of the subject or population of subjects in a non-disease health state. The prediction processing may be performed by the at least one implantable device or by an external device in communication with the implantable device. Systems and methods for invoking a therapy in response to the health state, such as to prevent or minimize the consequences of predicted impending heart failure, are also discussed. | 11-04-2010 |
| 20110009914 | CONTROLLED TITRATION OF NEUROSTIMULATION THERAPY - Described herein are methods and devices that utilize electrical neural stimulation to treat heart failure by modulating a patient's autonomic balance in a manner that inhibits sympathetic activity and/or augments parasympathetic activity. Because other therapies for treating heart failure may also affect a patient's autonomic balance, a device for delivering neural stimulation is configured to appropriately titrate such therapy in either an open-loop or closed-loop fashion. | 01-13-2011 |
