Examples of a motion system are disclosed. The motion system comprises a plurality of Stewart platform based actuators connected one to each another forming a desired modular configuration. Each of the plurality of actuators is controlled by a central controller that is configured to independently control the plurality actuators and adjust in real time their position, orientation and motion trajectory. The plurality of actuators are arranged in the desired configuration, shape and size to provide motion system that can mimic a natural motion/gait of human or animal body.

Provided according to embodiments of the invention are methods of improving the effectiveness of chest compressions as part of cardiopulmonary resuscitation (CPR). Such methods include monitoring PPG signals from a PPG sensor secured to a nose during at least one chest compression and increasing, decreasing or maintaining a at least one of the depth, duration and frequency of at least one subsequent chest compression based on a waveform parameter of the PPG signals. Related devices and systems are also provided.

The invention generally relates to devices that demonstrate the function of ophthalmic lenses that modify human color perception and to methods and devices that simulate color vision deficiency or color blindness.

A real time system for monitoring and optimizing patient adherence to digital therapy. The system can measure at least one of head stability, eye stability, gaze direction, head pose, facial expression, reading related eye movements, eye alignment stability, eye blink rate, attentive engagement, general engagement, emotional state, total eye stability, yawning and distance between the user and the camera. This information is provided as input to computer vision algorithms to generate a multi-dimensional representation of user attention and engagement. The system can alert the caregiver or health care professional if the patient disengages from the treatment and if the patient is sitting at the wrong distance from the treatment device. The system includes a camera, a processor, computer vision algorithms executed by the processor (a GPU processor), at least one digital display device, a loud speaker and an optional internet connection that can enable communication with other electronic devices.

Provided is a massage system for a massage facility in which a robot arm is provided and a massage is performed with respect to a user by the robot arm, the system including a control unit configured to cause the robot arm to perform a massage operation in response to a program, and a setting unit configured to receive a setting operation of a setting position used for the massage operation from an operator, in which the control unit is configured to cause the robot arm to perform the massage operation with respect to a treatment position based on the setting position.

A CPR system includes a retention structure to retain the patient's body, and a compression mechanism to perform CPR compressions to the patient's chest. The CPR system further includes a processor to control the compression mechanism, and thus the performance of the CPR compressions. In embodiments, the CPR system compresses at a rate or frequency that is purposely sub-optimal for circulation at least some of the time, and especially when it is detected that the patient has regained consciousness. An advantage can be that the patient may thus faint again, and therefore perceive less of the unpleasant experience of the mechanical chest compressions that the CPR system continues to perform on them as it preserves them alive.

A device for stimulating saliva production in a subject includes a source of vibratory motion and a saliva stimulation assembly configured to elicit a salivary response by delivery of a vibratory stimulus. The saliva stimulation assembly includes one or more contact points coupled to the source of vibratory motion and configured to be placed against one or more stimulation sites on one or more portions of skin of the subject. The source of vibratory motion is configured such that, when the source of vibratory motion is operating and the one or more contact points are placed against the stimulation site, the one or more contact points vibrate at a stimulation frequency that produces a stimulus transmitted via the at least one portion of skin to the one or more salivary glands to stimulate saliva production by the one or more salivary glands.

Electrophysiologic biomarkers for prognostication of neurological outcome are described herein. An inverse correlation was found between timing of a cortical spreading depolarization (SD) wave and neurological outcome as tested at 24 hours post-CPR. Additionally, a minor image of this SD was identified as a repolarization (RP) wave. Quantifying features of SD and RP during cardiac arrest and cardiopulmonary resuscitation (CPR) provide important metrics for diagnosis and prognosis of neurological injury from hypoxia-ischemia and can serve as an early prognostication tool for predicting outcome at subsequent days after successful CPR. This discovery may also allow for novel therapeutic interventions to improve neurological recovery after hypoxia-ischemia insults.

A three-dimensional (3D) digital image of an individual patient marked with target therapeutic locations on a skin surface of the patient is used for locating those treatment locations on a patient's skin for fascial manipulation and other treatments. The 3D image may be obtained by merging an unmarked 3D digital patient model image converted from a 2D optical image with a generic musculoskeletal digital model having optimized target therapeutic locations distributed over a skin surface thereof. The generic musculoskeletal digital model may be obtained from a library of such images.