InnerSea Technology, Inc has released MyoMyte™, a neuromuscular biofeedback monitoring system that provides the most intense muscle focusing attraction of any available device.  During recovery it is very difficult to sense when an effort to activate that muscle is successful as it may be too weak to move.  This new system provides a rich sensation when it has been successfully activated by the electrical signals from the body even with no movement, thus encouraging repeating of the same effort, which further builds the link!

 
When muscles are active (contracting, doing work), they generate electrical potentials (electromyograms or emgs) that can be sensed on the overlying skin.  A muscle that is very weak or essentially paralyzed can generate weak electrical signals even though movement may not be noticeable. MyoMyte™ detects these weak signals and generates a rich sensory display directly from the location of the target. 
 
 MyoMyte™ uses light color, light position, sound, vibration, and pulsing rate (rhythm) to form the rich sensory signal directly from the location of the target.  These sensations which come directly from the target location constitute the most effective form of biofeedback available.  This multi-modal sensory experience (light, sound, vibration, position, and rhythm) aggressively focuses mental attention on the specific target of interest which can speed and facilitate developoment of improved control and strength.
 
MyoMyte™ is useful for many applications, but in particular it is useful in recovering use, building strength, and developing coordination during athletic training, pre-training or re-training, physical therapy and rehabilitation of spinal cord injury, stroke, and peripheral nerve injury, post-surgical recovery from knee surgeries, and stress therapy.
 
Biofeedback is a well known training technique of providing artificial sensation using vision, hearing, or touch to enhance the focus of mental attention on a goal which can be physical (muscle control), mental (relaxation), or physiological (heart rate).  {more information}