Systems and methods for controlling brain activity are provided. In some aspects, a method for controlling a synchrony in brain activity of a subject is provided. The method includes positioning stimulators to stimulate a first region and a second region of a subject's brain, and selecting a pulsed stimulation sequence comprising a first stimulation to the first region and a second stimulation to the second region, wherein the stimulations are timed to be substantially concurrent and separated by a phase lag. The method also includes delivering the pulsed stimulation sequence, using the stimulators, to control a synchrony between the first region and the second region at a predetermined frequency.

Provided herein is a method of blocking a nerve or neuron by applying an electrical stimulation to the nerve or neuron, wherein the electrical stimulation is of an intensity below the excitation threshold of the nerve or neuron for a length of time sufficient to produce a block of nerve conduction or neuron excitation.

The techniques of the disclosure describe example medical devices, systems, and methods for delivering electrical stimulation therapy to a patient. In one example, a medical device selects subsets of a plurality of therapy parameter sets that define electrical stimulation therapy, each subset including at least one therapy parameter set and less than all of the therapy parameter sets. Further, the medical device delivers, via a plurality of electrodes, electrical stimulation therapy according to each subset via a respective set of electrodes different from sets of electrodes of each other subset of the therapy parameter sets. The medical device iteratively delivers the electrical stimulation therapy according to the subsets of the therapy parameter sets via the respective sets of electrodes. Further, the medical device selects at least one subset of the therapy parameter sets that treat a condition of the patient for defining subsequent delivery of electrical stimulation to the patient.

Systems, devices, and techniques are described for determining stimulation parameters based on one or more stimulation thresholds (e.g., a perception threshold or a detection threshold). In one example, a medical device includes sensing circuitry configured to sense one or more ECAP signals, wherein the sensing circuitry is configured to sense each ECAP signal of the one or more ECAPs elicited by a respective control pulse of a plurality of control pulses, and the medical device includes processing circuitry configured to determine, based on the one or more ECAP signals, a stimulation level for the plurality of control pulses that achieves a stimulation threshold, determine, based on the stimulation level, a value of a stimulation parameter that at least partially defines a plurality of therapy pulses of electrical stimulation therapy, and control stimulation generation circuitry to deliver the electrical stimulation therapy according to the value of the stimulation parameter.

A system may be used with a first neuromodulator of a first neuromodulator type and a second neuromodulator of a second neuromodulator type where the first neuromodulator is programmed with a first set of modulation parameter settings. The system may comprise an input configured for receiving the first set of modulation parameter settings for the first neuromodulator type, a processor configured to execute a programmed set of instructions to determine a second set of modulation parameter settings for the second neuromodulator type based on the first set of modulation parameter settings for the first neuromodulator type, and an output configured present the second set of modulation parameter settings for entering into a neuromodulator programmer. The neuromodulator programmer may be configured to program the second neuromodulator with the second set of modulation parameters.

An exemplary method treating an erectile dysfunction condition in a patient includes 1) generating, by an electroacupuncture device implanted beneath a skin surface of the patient, stimulation sessions at a duty cycle that is less than 0.05, and 2) applying, by the electroacupuncture device in accordance with the duty cycle, the stimulation sessions to a target tissue location within the patient by way of an electrode array located within the patient at an acupoint corresponding to the target tissue location.

A therapeutic neuromodulation system configured for providing therapy to a patient. The therapeutic neuromodulation system comprises a plurality of electrical terminals configured for being respectively coupled to a plurality of electrodes implanted within tissue, analog output circuitry configured for delivering therapeutic electrical energy between the plurality of electrical terminals in accordance with a set of modulation parameters that includes a defined current value, a voltage regulator configured for supplying an adjustable compliance voltage to the analog output circuitry, and control/processing circuitry configured for automatically performing a compliance voltage calibration process at a compliance voltage adjustment interval by periodically computing an adjusted compliance voltage value as a function of a compliance voltage margin. The control/processing circuitry may also be configured for automatically adjusting at least one of the compliance voltage adjustment interval and the compliance voltage margin during the compliance voltage calibration process.

This specification describes systems, methods, devices, and other techniques for activating muscle groups in a mammal using an implantable epidural electrical stimulation (EES) system, and for using spinal landmarks to determine implant locations for an EES probe. In some aspects, a first set of electrodes of an EES system is provided at a first set of locations on the dura mater of a spine of a mammal, the first set of locations on the dura mater corresponding to a first muscle group of the mammal, a second set of electrodes is provided at a second set of locations on the dura mater of the spine of the mammal, the second set of locations on the dura mater corresponding to a second muscle group of the mammal, and the first and second sets of locations on the dura mater are stimulated by electrically energizing the first and second sets of electrodes.

The present disclosure is directed to a system and method for selectively and reversibly modulating targeted neural and non-neural tissue of a nervous system for the treatment of pain. An electrical stimulation is delivered to the treatment site that selectively and reversibly modulates the targeted neural- and non-neural tissue of the nervous structure, inhibiting pain while preserving other sensory and motor function, and proprioception.

A method including transcutaneously measuring motility patterns, in the colon of a recipient of an implantable neuromodulator, responsive to an electrical stimulus delivered by the implantable neuromodulator, and programming the implantable neuromodulator responsive to the measured motility patterns, wherein the method comprises adjusting at least one parameter of the implantable neuromodulator that defines the electrical stimulus that the implantable neuromodulator is configured to deliver to the recipient.