A textile-based hydrogel electrode comprises a textile-based backing layer, a conductive structure coupled to the textile-based backing layer, and a hydrogel body in contact with at least a first portion of the conductive structure, wherein the first portion of the conductive structure and the hydrogel body form an ionic interface configured to generate an electrical signal through the conductive structure corresponding to a biopotential change proximate to the textile-based hydrogel electrode.

Aspects of the present disclosure provide an audio product for obtaining biologically-relevant information associated with a user comprising. The audio product includes at least two electrodes, a processor, and an electroacoustic transducer coupled to the processor. The processor is configured to receive at least one signal affected by an action of the user obtained via the first electrode or the second electrode and take one or more actions based on the at least one signal. The at least one action may control another device, in an effort to provide hands-free control of the other device.

In some implementations, the current subject matter relates a system including an in-ear housing configured to fit in an ear of a wearer; a flexible printed circuit mounted within the in-ear housing; and an analog to digital converter comprising a neural interface system-on-chip having dynamic incremental successive-approximation register acquisition to process signals detected by at least one electrode disposed on or near a surface of the in-ear housing. Related systems, methods, and articles of manufacture are also disclosed.

The present invention relates to a method, device, and system for improved mapping and/or ablation of a tissue. The device may generally include an elongate body and a distal assembly affixed to the elongate body that includes a treatment electrode having a conductive mapping region and a selectively conductive ablation region that is conductive of high-frequency current and substantially non-conductive of low-frequency current. Alternatively, the device may generally include a treatment electrode having a conductive mapping or ablation region and a region that is coated with an electrically insulated but thermally conductive layer.

The present invention relates to a method, device, and system for improved mapping and/or ablation of a tissue. The device may generally include an elongate body and a distal assembly affixed to the elongate body that includes a treatment electrode having a conductive mapping region and a selectively conductive ablation region that is conductive of high-frequency current and substantially non-conductive of low-frequency current. Alternatively, the device may generally include a treatment electrode having a conductive mapping or ablation region and a region that is coated with an electrically insulated but thermally conductive layer.

The present invention relates to a method, device, and system for improved mapping and/or ablation of a tissue. The device may generally include an elongate body and a distal assembly affixed to the elongate body that includes a treatment electrode having a conductive mapping region and a selectively conductive ablation region that is conductive of high-frequency current and substantially non-conductive of low-frequency current. Alternatively, the device may generally include a treatment electrode having a conductive mapping or ablation region and a region that is coated with an electrically insulated but thermally conductive layer.

Embodiments herein relate to hearing device systems that can utilize proxy devices to convey emergency communications. In an embodiment, the system operates in a first communication mode and a second communication mode. The first communication mode can include the hearing device being paired to a wireless communication enabled device for conveying data to a non-local network as initiated by the hearing device. The second communication mode can include the hearing device accessory being paired to the wireless communication enabled device for conveying data to the non-local network as initiated by the hearing device. The system can enter the second communication mode when the hearing device cannot communicate with the wireless communication enabled device. The hearing device accessory uses a hardware address of the hearing device to communicate with the wireless communication enabled device as if it was paired thereto. Other embodiments are also included herein.

The present invention relates to a method, device, and system for improved mapping and/or ablation of a tissue. The device may generally include an elongate body and a distal assembly affixed to the elongate body that includes a treatment electrode having a conductive mapping region and a selectively conductive ablation region that is conductive of high-frequency current and substantially non-conductive of low-frequency current. Alternatively, the device may generally include a treatment electrode having a conductive mapping or ablation region and a region that is coated with an electrically insulated but thermally conductive layer.

Apparatus for obtaining ophthalmic electrophysiological, pupillometry and psychophysical responses from a test subject, the apparatus comprising: a housing comprising a curved surface; a dichoptic stimulator mounted to the curved surface of the housing, the dichoptic stimulator comprising a left eye stimulator for delivering a visual stimulus to the left eye of the test subject and a right eye stimulator for delivering a visual stimulus to the right eye of the test subject, whereby to evoke an electrophysiological response in the test subject; a pair of cameras mounted to the curved surface of the housing, wherein the pair of cameras comprises a left eye camera for obtaining images of the left eye and a right eye camera for obtaining images of the right eye of the test subject; and an indicator box for recording a psychophysical response to at least one of the visual stimulus to the left eye and the visual stimulus to the right eye.

Apparatus for obtaining ophthalmic electrophysiological, pupillometry and psychophysical responses from a test subject, the apparatus comprising: a housing comprising a curved surface; a dichoptic stimulator mounted to the curved surface of the housing, the dichoptic stimulator comprising a left eye stimulator for delivering a visual stimulus to the left eye of the test subject and a right eye stimulator for delivering a visual stimulus to the right eye of the test subject, whereby to evoke an electrophysiological response in the test subject; a pair of cameras mounted to the curved surface of the housing, wherein the pair of cameras comprises a left eye camera for obtaining images of the left eye and a right eye camera for obtaining images of the right eye of the test subject; and an indicator box for recording a psychophysical response to at least one of the visual stimulus to the left eye and the visual stimulus to the right eye.