Abstract: A system comprises a device that includes a signal generator and at least one processor configured to monitor a value of a medical parameter of the patient that is associated with type 2 diabetes, a condition of metabolic syndrome, pancreatis, or any combination thereof. The at least one processor is configured to determine one or more stimulation parameters for stimulating at least one spinal nerve of the patient with an electrical signal, and control the signal generator to generate the electrical signal based on the one or more stimulation parameters. The electrical signal is introduced to the at least one spinal nerve by one or more electrodes, which causes a response by at least one anatomical element of the patient that changes the value of the medical parameter for the patient.

Abstract: A system is provided herein for stimulating an anatomical element of a patient. For example, a device may be configured to generate a current, and an electrode device coupled to the device may be configured to apply the current to the anatomical element. Additionally, the system may include a user interface in communication with the implantable pulse generator, the electrode device, or both. In some examples, the user interface may include a first element that is configured to display information associated with the patient. Additionally, the user interface may include a second element that is configured to receive inputs for programming parameters of the current. The user interface may also include a third element that is configured to display diagnostic information associated with applying the current to the anatomical element.

Abstract: Systems and methods for wirelessly providing therapy to one or more anatomical elements may comprise a first capsule and a second capsule. The first capsule may be configured to wirelessly transmit instructions to a second capsule and the second capsule may be configured to receive the wirelessly transmitted instructions. The first capsule may receive an activation signal and apply a first current to a first anatomical element. The first capsule may also wirelessly transmit a first set of instructions to the second capsule to cause the second capsule to apply a second current to a second anatomical element.

Abstract: A system is described that includes: a first sensor that measures a glycemic level of a patient; a second sensor that measures at least one of a protein level of the patient, a hormone level of the patient, and an activity level of the patient; a processor that receives inputs from the first sensor and inputs from the second sensor; and memory including data that, when executed by the processor, enables the processor to perform one or more functions. An example of such function(s) include: analyzing the inputs received from the first sensor and the second sensor; determining, based on the analysis, that an electrical treatment is to be applied to the patient, where the electrical treatment includes application of at least one electrical signal to a nervous system of the patient; and causing the electrical treatment to be applied to the nervous system of the patient.

Abstract: A system is provided herein for stimulating an anatomical element of a patient. For example, the system may include a device configured to generate a current (e.g., implantable pulse generator), a first electrode device configured to apply the current to the anatomical element, and a second electrode device configured to record one or more response measurements associated with applying the current to the anatomical element. In some examples, the one or more response measurements may be used to generate growth curves associated with applying the current to the anatomical element, where the growth curves can be used to adjust one or more parameters of the current. Additionally, the one or more response measurements may include an evoked compound action potential (eCAP) measurement, an electromyography (EMG) measurement, a glucose level measurement, or a combination thereof.

Abstract: A system is provided herein for stimulating an anatomical element of a patient. For example, the system may include a device (e.g., an implantable pulse generator) and an electrode device electrically coupled to the device. In some examples, the device may be configured to generate a current that is to be applied to the anatomical element via the electrode device to stimulate the anatomical element as part of a therapy aimed at achieving or supporting glycemic control in the patient. Additionally, the current may be applied to the anatomical element based on a machine learning algorithm that uses inputs gathered for determining one or more characteristics for the current. Accordingly, the machine learning algorithm may be configured to determine the one or more characteristics for the current specific to the patient (e.g., to provide personalized therapy settings for the patient).

Abstract: Systems and methods for stimulating an anatomical element are provided. The system may comprise an implantable pulse generator configured to generate a current and an electrode device comprising a plurality of electrodes configured to apply the current to the anatomical element. Each of the plurality of electrodes may comprise at least one of an anode or a cathode. The electrode device may be customized by assigning each of the plurality of electrodes as at least one of an anode or a cathode and at least one of active or inactive. The current may be applied to the anatomical element in a predetermined pattern using the plurality of electrodes.

Abstract: Systems and methods for mechanically blocking a nerve are provided. The system may comprise a blocking device configured to selectively compress the nerve. The system may also comprise a feedback mechanism configured to measure a response correlating to whether the nerve is blocked. When the blocking device compresses the nerve, a response from the feedback mechanism is received that correlates to the nerve being blocked or unblocked after a period of time.

Abstract: System and methods for stimulating or blocking a nerve are provided. The system may include an implantable pulse generator configured to generate a current and an electrode device in communication with the implantable pulse generator and configured to surround the nerve. The electrode device may include a housing comprising an inner surface, a first edge, and a second edge opposite the first edge; at least one electrode disposed on the inner surface and configured to apply the current to the nerve; and at least one closure configured to couple the first edge to the second edge to form a seal.

Abstract: A system is provided herein for stimulating an anatomical element of a patient to regulate insulin production of the patient. In some examples, the system may include a device configured to generate a current and an electrode device electrically coupled to the device. Subsequently, the device may receive instructions to apply the current to the anatomical element via a plurality of electrodes of the electrode device, where the current is configured to regulate insulin production of the patient. For example, a first electrode may be configured for placement on or around a celiac vagal trunk, where the current downregulates neural activity of the celiac vagal trunk, and a second electrode may be configured for placement on or around a hepatic vagal trunk, where the current upregulates neural activity of the hepatic vagal trunk.

Abstract: A system is provided herein for stimulating an anatomical element of a patient to achieve glycemic control for the patient. In some examples, the system may include a device configured to generate a current and an electrode device electrically coupled to the device that includes a plurality of electrodes configured for placement on or around the anatomical element. The device may receive instructions to apply the current to the anatomical element via the plurality of electrodes of the electrode device. Additionally, the current may be applied using a first waveform of a plurality of waveforms that the device is capable of generating, where each of the plurality of waveforms comprise a substantially similar charge density. Additionally or alternatively, a system is provided that provides a pharmacological blockade at the anatomical element using a micropump that is configured to deliver a pharmacological agent to the anatomical element to achieve glycemic control.

Abstract: A system is provided herein for stimulating an anatomical element of a patient. For example, a device may be configured to generate a current, and an electrode device coupled to the device may be configured to apply the current to the anatomical element. In some examples, the current may be configured to prevent hypoglycemic episodes from occurring in the patient when applied to the anatomical element. For example, the current may be configured to downregulate neural activity of a celiac vagal trunk and to upregulate neural activity of a hepatic vagal trunk. Accordingly, the current being applied to anatomical element of the patient may result in a decrease in insulin production of the patient, an increase in glucose production of the patient, an increase in blood sugar levels of the patient, or a combination thereof. Additionally, applying the current may prevent nocturnal hypoglycemic episodes from occurring.