Instrumented orthoses with more sophisticated structures provide for coordinated support and rehabilitation of complex joints and multiple injured joints. Improved instrumented orthoses can include hinges that can rotate in multiple different planes. Particularly preferred embodiments include a shoulder brace with a hand hold and a lower extremities brace. Preferably, a control unit monitors the output of transducers used to instrument the brace. A patient can be prompted by the control unit for the performance of a variety of different monitored exercises.
Orthoses with microprocessor control placed around the joint of a patient are used to perform and to monitor isometric, range-of-motion, proprioception and isotonic exercises of the joint. A variety of improved hardware elements result in an orthosis that is easier to use and interacts more efficiently with the controller to allow the monitoring of a greater range of motions while holding down cost and provide suitable accurate evaluation of the exercises. Efficient ways of programming the exercises, monitoring the exercises and evaluating the exercise provide a comprehensive program for the rehabilitation of an injured or weakened joint.
A system for treating orthopedic injuries by presenting a set of treatment protocols; approving a treatment protocol from among the presented set of treatment protocols; capturing information identifying the approved treatment protocol from among the set of presented protocols; and generating information from the captured information into a form compatible with a handheld computer adapted for connection to an orthopedic sensor system. The generated information includes parameters of the identified approved treatment protocol. The process may also include the steps of basing the presented set of treatment protocols upon a database of historic patients, orthopedic injuries, treatment protocols and outcomes, and retaining information about the current patient, the patient's injury, treatment protocol and outcome.
A system and method for communicating an orthopedic parameters signal between a remote communication unit and a central site monitoring station is provided. The orthopedic signal includes a value representative of a total torque output by an individual over a period of time as measured by a personal orthopedic restraining device. The restraining device is restrains movement of a first flexibly connected body portion relative to a second body portion. Communication is accomplished by receiving the orthopedic parameters signal at the remote unit from the orthopedic device. Subsequently, the received signal is protected from potential transmission errors through encoding. The encoded signal is prepared for transmission through modulation. Finally, the modulated signal is transmitted over a communication channel from the remote unit to the central station such that movement of flexibly connected body portions can be monitored. In addition, the operations of the central site monitoring station are described.