Abstract: The present disclosure provides neurostimulation systems and methods. A neurostimulation system includes at least one anode, at least one cathode, the at least one anode and the at least one cathode configured to apply electrical stimulation to a patient, and a controller electrically coupled to the at least one anode and the at least one cathode, the controller configured to determine when one of the at least one anode and the at least one cathode fails, measure, in response to the determination, a quantity indicative of a charge density of the applied electrical stimulation, compare the measured quantity to a predetermined limit, and perform at least one action when the measured quantity exceeds the predetermined limit.

Abstract: The present disclosure provides neurostimulation systems and methods. A neurostimulation system includes at least one anode, at least one cathode, the at least one anode and the at least one cathode configured to apply electrical stimulation to a patient, and a controller electrically coupled to the at least one anode and the at least one cathode, the controller configured to determine when one of the at least one anode and the at least one cathode fails, measure, in response to the determination, a quantity indicative of a charge density of the applied electrical stimulation, compare the measured quantity to a predetermined limit, and perform at least one action when the measured quantity exceeds the predetermined limit.

Abstract: Methods and systems are provided to control a configuration of a neural stimulation (NS) system having an NS device coupled to an NS lead. The methods and systems change between configurations of the NS system and collect cardiac signals from a patient that are representative of cardiac rhythms experienced by the patient over a period of time and in connection with multiple NS configurations. The methods and systems derive, from the cardiac signals, characteristic values for at least one physiologic characteristic indicative of at least one of normal and abnormal cardiac rhythms in connection with the multiple NS configurations; and select, from the multiple NS configurations, an NS operating configuration to be used by the NS system based on the characteristic values.

Abstract: A method and system for differential analysis of cardiac events are provided that include monitoring cardiac signals from a heart to detect deviations indicative of at least one of ischemia and myocardial infarction (MI). The method and system also monitor physiologic surrogate signals associated with pain to detect chest pain. Additionally, the method and system include characterizing a cardiac event exhibited by the heart based on whether the cardiac event occurs in a presence of at least one of the ischemia, IM, and chest pain.

Abstract: Stimulation of a patient's nervous system is controlled based on cardiovascular risk assessment performed by an implantable medical device. For example, an implantable medical device may monitor cardiac electrical activity to detect changes in the ST segment. Upon detection of a certain change in the ST segment, the implantable medical device controls the application of spinal cord stimulation and/or other neurostimulation to cardiac-related sections of the patient's nervous system. In some embodiments, the implantable medical device communicates with a separate neurostimulation device to control the neurostimulation. In some embodiments, the implantable medical device delivers the neurostimulation.

Abstract: Stimulation of a patient's nervous system is controlled based on cardiovascular risk assessment performed by an implantable medical device. For example, an implantable medical device may monitor cardiac electrical activity to detect changes in the ST segment. Upon detection of a certain change in the ST segment, the implantable medical device controls the application of spinal cord stimulation and/or other neurostimulation to cardiac-related sections of the patient's nervous system. In some embodiments, the implantable medical device communicates with a separate neurostimulation device to control the neurostimulation. In some embodiments, the implantable medical device delivers the neurostimulation.

Abstract: Methods and systems are provided to control a configuration of a neural stimulation (NS) system having an NS device coupled to an NS lead. The methods and systems change between configurations of the NS system and collect cardiac signals from a patient that are representative of cardiac rhythms experienced by the patient over a period of time and in connection with multiple NS configurations. The methods and systems derive, from the cardiac signals, characteristic values for at least one physiologic characteristic indicative of at least one of normal and abnormal cardiac rhythms in connection with the multiple NS configurations; and select, from the multiple NS configurations, an NS operating configuration to be used by the NS system based on the characteristic values.