The present invention relates to a an electrode assembly for nerve stimulation, in particular for the transcutaneous vagus nerve stimulation, comprising at least one electrode and a bow-shaped holding portion which is designed to hold the electrode assembly at the ear of a patient.

A beauty instrument with mask includes a flexible mask and a controller. The flexible mask includes a first flexible layer, a second flexible layer, a plurality of functional layers located between the first flexible layer and the second flexible layer, and a plurality of electrodes electrically connected with the plurality of functional layers. The functional layer includes a carbon nanotube layer including a plurality of carbon nanotubes uniformly distributed. The flexible mask is electrically coupled with the controller via the plurality of electrodes.

A method for using beauty instrument with mask is provided. The method comprises providing a beauty instrument with mask comprising a flexible mask and a controller, applying the flexible mask of on a user's face, and turning on the controller and selecting a function button on the controller, inputting a current to a plurality of functional layers in the flexible mask, and stimulating face skin with the current.

A non-invasive diagnostic assembly that includes an interface configured for connection to a diagnostic monitoring device; a plurality of electrodes configured for adhesion to a patient's skin at respective locations and electrically connected to the interface; and at least one adjustable connection segment having a concertina/accordion/ripple-shaped configuration connecting at least two electrodes of the plurality of electrodes.

Disclosed are wearable devices, such as rings and bracelets, for monitoring and diagnosing cardiovascular conditions of a wearer, along with related systems, algorithms and methods. The disclosed wearable devices can continuously monitor the wearer's cardiovascular status by measuring heart rate, motion, blood oxygenation, and/or other properties of the wearer. Disclosed wearable devices can further comprise three EKG electrodes, including a first electrode on the inner surface adapted to detect a signal from the finger/wrist, a second electrode on the outer surface adapted to detect a cardiovascular signal from a finger of the opposing hand, and a third electrode on the outer surface of the frame adapted to detect a cardiovascular signal from a EKG lead location on the wearer's chest or leg. The wearable devices can be linked wirelessly to a mobile device that the person can interact with, and can further be linked to other distributed system components and healthcare providers.

The present disclose relates to slurry electrodes that can deliver direct current (DC) nerve conduction block to neural tissue. Such slurry electrodes can include an ionically conductive membrane having a first side and a second side. Slurry electrodes can also include a mechanism that is configured to encapsulate a slurry against the first side of the ionically conductive membrane. The slurry can include an ionically conductive material and a plurality of electrically conducting high surface area particles. The mechanism and the first side of the ionically conductive membrane make up a housing for the slurry. Slurry electrodes can also include a connector configured to establish an electrical connection between the slurry and the DC generator.

Wearable devices are provided herein including wearable defibrillators, wearable devices for diagnosing symptoms associated with sleep apnea, and wearable devices for diagnosing symptoms associated with heart failure. The wearable external defibrillators can include a plurality of ECG sensing electrodes and a first defibrillator electrode pad and a second defibrillator electrode pad. The ECG sensing electrodes and the defibrillator electrode pads are configured for long term wear. Methods are also provided for using the wearable external defibrillators to analyze cardiac signals of the wearer and to provide an electrical shock if a treatable arrhythmia is detected. Methods are also disclosed for refurbishing wearable defibrillators. Methods of using wearable devices for diagnosing symptoms associated with sleep apnea and for diagnosing symptoms associated with heart failure are also provided.

One aspect relates to a method for the electrical connection of an electrode to a conductor to form an electrode-conductor composite, including (i) bringing an electrode and/or a conductor into contact with a metalliferous layer that includes a metal powder or a metalliferous suspension, or consists thereof, (ii) irradiating the metalliferous layer with a laser, and (iii) thus forming a coherent, electroconductive metal layer.

The present invention provides various embodiments of neuromodulation systems, and improvements thereof, capable of being implanted at a spinal treatment site and capable of being implanted at the same time and/or in combination with a spinal procedure being performed at the spinal treatment site. The present invention further includes improvements in the number and types of neuromodulation therapies that can be implanted at the spinal treatment site and improvements to the neuromodulation systems used for delivering such neuromodulation therapies.

The present invention provides various embodiments of neuromodulation systems, and improvements thereof, capable of being implanted at a spinal treatment site and capable of being implanted at the same time and/or in combination with a spinal procedure being performed at the spinal treatment site. The present invention further includes improvements in the number and types of neuromodulation therapies that can be implanted at the spinal treatment site and improvements to the neuromodulation systems used for delivering such neuromodulation therapies.