System and methods for providing a patient with arrhythmia treatment are described. For example, a system includes an arrhythmia monitoring and treatment assembly configured to be worn on the torso of the patient. The assembly has a housing discreetly extending from a skin surface of the patient. The assembly is configured to provide therapy on detecting one or more arrhythmia conditions of the patient. A first at least one user response button is disposed on the assembly at a first location on the torso concealed under clothing, and a second at least one user response button is configured to be worn on a second location of the patient's body, a location other than the torso that is accessible to the patient. The system suspends an impending therapy upon receiving a user input from either one of the first or second at least one user response buttons.

A mobile pain management device for managing pain of a patient, the device includes a nerve block engageable with a first nerve of the patient and an electrical stimulation device engageable with a second nerve of the patient. The device includes an analgesic dispensing system having analgesic solution stored therein, the analgesic dispensing system connected to the nerve block such that when the nerve block is activated, the dispensing system provides at least a portion of the analgesic solution to the nerve block. The device includes a control module, in response to executable instructions, providing pain relieve the patient through engagement of the nerve block and the electrical stimulation. And the device includes a sensor detecting feedback from the patient such that the control module modifies the providing of pain relief to the patient based on the feedback.

An ambulatory medical device configured to analyze heart rates in different operating modes includes a plurality of ECG sensing electrodes, a plurality of therapy electrodes and at least one processor configured to in a default operating mode, perform a default heart rate calculation for determining a heart rate of the patient for use in detecting a cardiac arrhythmia condition of the patient. The at least one processor is configured to change a device operating mode from a default mode based on detecting patient activity to an activity operating mode, and in the activity operating mode, perform a different heart rate calculation from the default heart rate calculation for determining the heart rate for use in detecting the cardiac arrhythmia condition of the patient during the activity operating mode. The at least one processor is configured to deliver the treatment in response to detecting the cardiac arrhythmia condition.

An external wearable medical device includes an electrode to detect patient cardiac activity; a therapy electrode to provide a therapy in response to detecting an arrhythmia event; a GUI display comprising a caregiver interface and a patient interface; and a processor configured to provide, to the caregiver interface, a first set of information that includes information for operating the device in conjunction with the patient and an alert history of the device including an indication of one or more detected arrhythmia events, provide, to the patient interface, a second set of information that includes information for allowing the patient to cause the device to suspend providing the therapy and a direction to the patient to contact a caregiver responsive to detecting an event affecting at least one of the device and the patient, and responsive to detecting the event, automatically transmitting a notification of the event to an external entity.

A therapy electrode apparatus for dispensing conductive gel to skin of a patient wearing a wearable defibrillator includes a therapy electrode, at least one reservoir comprising the conductive gel, and a gel deployment device comprising at least two reactive chemicals. The at least one reservoir is configured to release the conductive gel between the therapy electrode and a patient's skin prior to a delivery of one or more therapeutic shocks. The gel deployment device configured to, on receiving a treatment signal from a controller of the wearable defibrillator operably connected to the gel deployment device, cause the at least two reactive chemicals to come into contact to produce a pressurized fluid to release the conductive gel from the at least one reservoir between the therapy electrode and the patient's skin.

An ambulatory medical device is provided. The ambulatory medical device includes at least one sensor configured to acquire physiological data of a patient, at least one network interface and at least one processor coupled to the at least one sensor and the at least one network interface. The at least one processor is configured to detect, via the at least one network interface, a medical device, to establish a secure communication session with the medical device via the at least one network interface, to detect a data capacity of the secure communication session, to identify a category of patient data associated with the data capacity, and to transmit patient data of the category to the medical device via the secure communication session.

The system of the preferred embodiments is a young child monitoring device including: at least one microphone designed to be temporarily attached in contact with at least one of the skin and the clothing of a user; a radio transmission circuit wired in electrical communication with the microphone and adapted to transmit a signal from the microphone via radio waves; an electromagnetic induction circuit designed to generate power by induction from radio waves; a temporary attachment including at least one of A) an adhesive patch, B) a clip, C) adhesive tape, D) a patch comprising at least the hooks of a hook and loop fastener and designed to attach at least the microphone to the user; a base station including a radio receiver adapted to receive a signal generated by the radio transmission circuit, wherein the base station is designed to at least one of I) notify a caregiver, II) generate an audio alert, III) generate a visual alert, IV) send an alert to a mobile electronic device associated with a caregiver, V) send an alert to a headset worn by a caregiver and adapted to play audio for the caregiver.

A wearable medical device includes an electrode assembly having a plurality of ECG sensing electrodes configured to monitor a cardiac condition of a patient using the device, a call button to initiate a call with a remote location and a transceiver configured to communicate information to and from the wearable medical device. The device includes a memory and a controller having at least one processor configured to execute instructions stored in the memory. The instructions include receiving, via actuation of the call button, a request to initiate a communication link with the remote location, providing, via a user interface, a confirmatory prompt that the patient indicate confirmation to proceed with the request to initiate the communication link with the remote location, and initiating, via the transceiver, the communication link to the remote location responsive to the indication of the confirmation to proceed with the request to initiate the communication link.

An ablation generator may include an input port for receiving a monitoring signal respective of tissue of the patient and an output port for providing the monitoring signal another device. A filtering circuit may be disposed between the input port and the output port, the filtering circuit configured to present a high impedance at one or more frequencies at or near which a mapping and navigation system associated with the ablation generator transmits a signal. The filtering circuit may additionally or alternatively be provided in a monitoring system or another component in an electrophysiology system.

Disclosed herein are portable and integrated modules and devices for non-intrusive neuromodulation and monitoring of heart function, and methods of operation thereof. The modules and devices include a monitoring unit, an electrical stimulation inducing unit, and three electrodes, such that one of the electrodes is dual-function, being controllably utilized for neuromodulation or for monitoring of heart function.