Improved assemblies, systems, and methods provide safeguarding against tissue injury during surgical procedures and/or identify nerve damage occurring prior to surgery and/or verify range of motion or attributes of muscle contraction during reconstructive surgery. A stimulation control device may incorporate a range of low and high intensity stimulation to provide a stimulation and evaluation of both nerves and muscles. A stimulation control device is removably coupled to a surgical device or is imbedded within the medical device to provide a stimulation and treatment medical device. A disposable hand held stimulation system includes an operative element extending from the housing, the housing includes a visual indication to provide feedback or status to the user.

An evaluation device includes: an image-data acquiring unit to acquire image data of an eyeball of a subject; a gaze-point detecting unit to detect position data of a gaze point of the subject based on the image data; a display control unit to perform a display operation to display objects on a display screen, and a non-display operation to hide the objects in predetermined timing; a region setting unit to set corresponding regions respectively corresponding to the objects on the display screen; a determining unit to determine, based on the position data, whether the gaze point is present in the corresponding region in a non-display period; an arithmetic unit to calculate, based on determination data, region data indicating the corresponding region in which the gaze point is detected in the non-display period; and an evaluating unit to calculate evaluation data of the subject based on the region data.

The invention provides a variety of novel devices, systems, and methods of utilizing mixed-ionic-electronic conductor (MIEC) materials adapted to function with an applied current or potential. The materials, as part of a circuit, are placed in contact with a part of a human or nonhuman animal body. A sodium selective membrane system utilizing the MIEC is also described.

The present disclosure relates to a device and method for detection and compensation for an oblique ear-probe insertion in especially hearing testing diagnostic setups. More particularly the disclosure relates to detecting an oblique probe insertion from an ear-probe measurement and estimated characteristic impedances and compensate for its effect on the ear-canal reflectance.

A method of neurohydrodissection for treating a headache in a patient is disclosed. The method comprises the step of physically inspecting a patient and locating a first compression site of a nerve of the patient where the nerve passes through a tissue and is inflamed. The method comprises the step of ultrasound imaging the patient at the first compression site. The method comprises the step of inserting a syringe at the first compression site, wherein while the first compression site is being imaged, guiding the syringe to an intersection between the nerve and the tissue, injecting a solution with the syringe at the intersection and dissecting the nerve from the tissue. The method comprises the step of confirming with the patient whether a headache symptom has changed.

A wireless biological signal communication terminal is provided with: a sensor unit which detects a biological signal; an A/D converting unit which performs A/D conversion of the biological signal in accordance with a set sampling frequency to obtain biological signal data; a recording unit which records a plurality of items of A/D converted biological signal data; a control unit which processes the plurality of items of biological signal data recorded by the recording unit in a prescribed period of time; a wireless module unit and an antenna which wirelessly transmit the result of the processing performed by the control unit to an external device; and a power supply unit which supplies power to drive the devices.

A method is provided for detecting neural interference between a bone anchor and a neural element during or subsequent to the application of force on the bone anchor to adjust the orientation of one or more vertebral bodies relative to the spinal column. The method includes engaging at least one bone anchor to the vertebral body and applying force to the bone anchor to adjust the positioning or orientation of the vertebral body. A nerve monitoring system provides an electrical signal and is operable to detect a neural element and its proximity to the bone anchor as a function of a characteristic of the electrical signal.

Systems and methods for analyzing sublingual microcirculation perfusion and identifying particular nerve tracts. In exemplary embodiments, a digital micro-mirror device is configured to direct a reflected light to a subject area and a controller is configured to alter a parameter of the reflected light.

An automated EP analysis apparatus for monitoring, detecting and identifying changes (adverse or recovering) to a physiological system generating the analyzed EPs, wherein the apparatus is adapted to characterize and classify EPs and create alerts of changes (adverse or recovering) to the physiological systems generating the EPs if the acquired EP waveforms change significantly in latency, amplitude or morphology.

Disclosed is a method for execution by an SSEP (Somatosensory Evoked Potentials) system. The method involves acquiring at least one SSEP recording from a subject, and determining if the baseline potential is monitorable based on the at least one SSEP recording. The method also involves acquiring ongoing SSEP recordings from the subject, comparing the ongoing SSEP potentials to the monitorable baseline potential, and upon the ongoing SSEP potentials deviating from the monitorable baseline potential according to a defined criteria, executing an alert. This can allow a medical worker to decide whether to take any corrective action, such as repositioning the subject, with a goal of preventing or mitigating iatrogenic injury to a nervous system of the subject. The SSEP system can be substantially automated, such that there is little reliance on discretion by the medical worker. Also disclosed is a SSEP system configured to implement the method summarised above.