The present disclosure relates to systems, methods and devices to monitor, diagnose and/or treat diseases or disorders comprising a calibration phase and a real-time diagnostic, treatment or monitoring phase, the calibration phase correlating a plurality of nerve activity measurements from a chronically implanted electrode in a subject with a plurality of concurrent measurements of levels of cytokines and/or glucose in the blood to obtain a functional relationship between blood cytokine and/or glucose levels and vagus nerve activity, and the diagnostic, treatment or monitoring phase analyzing the subject's real-time vagus nerve activity in accordance with the previously obtained functional relationship to initiate a treatment method.

New lead designs particularly useful in a Spinal Cord Stimulation (SCS) system are disclosed which are useful to sensing neural responses such as Evoked Compound Action Potentials (ECAPs). One or more sensing electrodes on the lead are spaced at significantly larger distances away from the stimulating electrodes, such as at distances in a range of 20 mm to less than 30 mm. Positioning the sensing electrodes at such distances allows for sensing of ECAPs at a sufficient distance away from the stimulating electrodes that ECAP measurements at the sensing electrodes will be less affected by stimulation artifacts that accompany the stimulation. The sensing electrodes may be dedicated to sensing, or may also have the ability to function as stimulating electrodes.

A method of surgically positioning an electrode array at a desired implantation location relative to a nerve. A temporary probe electrode is temporarily positioned adjacent to the nerve and at a location which is caudorostrally separate to the desired implantation location of the electrode array. The implanted position of the probe electrode is temporarily fixed relative to the nerve. During implantation of the electrode array, electrical stimuli are applied from one of the temporarily fixed probe electrode and the electrode array, to evoke compound action potentials on the nerve. Compound action potentials evoked by the stimuli are sensed from at least one electrode of the other of the temporarily fixed probe electrode and the electrode array. From the sensed compound action potentials a position of the electrode array relative to the nerve is determined.

The present disclosure relates to systems, methods and devices to monitor, diagnose and/or treat diseases or disorders comprising a calibration phase and a real-time diagnostic, treatment or monitoring phase, the calibration phase correlating a plurality of nerve activity measurements from a chronically implanted electrode in a subject with a plurality of concurrent measurements of levels of cytokines and/or glucose in the blood to obtain a functional relationship between blood cytokine and/or glucose levels and vagus nerve activity, and the diagnostic, treatment or monitoring phase analyzing the subject's real-time vagus nerve activity in accordance with the previously obtained functional relationship to initiate a treatment method.

The present disclosure relates to systems, methods and devices to monitor, diagnose and/or treat diseases or disorders comprising a calibration phase and a real-time diagnostic, treatment or monitoring phase, the calibration phase correlating a plurality of nerve activity measurements from a chronically implanted electrode in a subject with a plurality of concurrent measurements of levels of cytokines and/or glucose in the blood to obtain a functional relationship between blood cytokine and/or glucose levels and vagus nerve activity, and the diagnostic, treatment or monitoring phase analyzing the subject's real-time vagus nerve activity in accordance with the previously obtained functional relationship to initiate a treatment method.

Systems and methods are disclosed for conducting spinal cord stimulation or other neurostimulation and sensing evoked compound action potential (ECAP) signals. The sensed signals may be processed to isolate ECAP features from noise and/or interfering signals. The isolated ECAP features may be used to control neurostimulation therapy for the patient, such as to quantify or measure lead migration and adjust a neurostimulation therapy for the patient to account for an impact of any detected lead migration, or other purposes (e.g., to guide an implant procedure).

Systems and methods are disclosed for conducting spinal cord stimulation or other neurostimulation and sensing evoked compound action potential (ECAP) signals. The sensed signals may be processed to isolate ECAP features from noise and/or interfering signals. The isolated ECAP features may be used to control neurostimulation therapy for the patient, such as to quantify or measure lead migration and adjust a neurostimulation therapy for the patient to account for an impact of any detected lead migration, or other purposes (e.g., to guide an implant procedure).

In some examples, electrical stimulation is delivered to a patient such that selective termination of the stimulation causes a therapeutic effect in the patient after termination of the electrical stimulation to the patient. The electrical stimulation may be insufficient to produce a desired therapeutic effect in the patient during stimulation, but sufficient to induce a post-stimulation desired therapeutic effect following termination of the stimulation. In some examples, the electrical stimulation may be sub-threshold electrical stimulation. In some examples, the desired therapeutic effect may alleviate bladder dysfunction, bowel dysfunction, or other disorders. The stimulation may be selectively terminated in response to one or more therapy trigger events to induce the post-stimulation therapeutic effect.

The disclosure describes devices and methods for providing transdermal electrical stimulation therapy to a subject including positioning a stimulator electrode over a glabrous skin surface overlying a palm of the subject and delivering electrical stimulation via a pulse generator transdermally through the glabrous skin surface and to a target nerve or tissue within the hand to stimulate the target nerve or tissue within the hand so that pain felt by the subject is mitigated. The pulses generated during the electrical stimulation therapy may include pulses of two different magnitudes.

A device that suppresses a pathological synchronous and oscillatory neuron activity, and includes a non-invasive stimulation unit implantable in a patient, for stimulation, using electrical and/or optical stimuli, of neurons in the patient's brain and/or spinal cord, where those neurons are showing pathologically synchronous and oscillatory neuron activity, and the stimuli are deigned to suppress are this activity when administered to the patient. Moreover, a measuring unit records measurement signals reflecting the neuron activity of the stimulated neurons and a control and analysis unit controls the stimulation unit to administer stimuli, check the success of stimulation based on the measurement, and, if the stimulation success is not sufficient, insert one or more stimulation breaks in the application of the stimuli or extend one or more stimulation breaks, where no stimuli that could suppress the pathological synchronous and oscillatory neuron activity are applied during the stimulation breaks.