A hand-held centripetal exercise devices are shown and disclosed. In one embodiment, the device includes an outer shell having a smooth outer surface. The outer shell defines an internal volume. The device additionally includes a single ball sized to be contained within the internal volume. The single ball having a predetermined mass.

A hand-held centripetal exercise devices are shown and disclosed. In one embodiment, the device includes an outer shell having a smooth outer surface. The outer shell defines an internal volume. The device additionally includes a single ball sized to be contained within the internal volume. The single ball having a predetermined mass.

A method and apparatus for rehabilitation and training of an injured limb by using the corresponding functional healthy limb to control the motion of the injured limb are presented. A sensor system on the healthy and active limb, a processing unit, and a power supply are provided in the apparatus to provide signals that activate a powered mechanism configured for moving individual bones on the injured passive limb.

A method and apparatus for rehabilitation and training of an injured limb by using the corresponding functional healthy limb to control the motion of the injured limb are presented. A sensor system on the healthy and active limb, a processing unit, and a power supply are provided in the apparatus to provide signals that activate a powered mechanism configured for moving individual bones on the injured passive limb.

A grip element having an elongate grip body with a first end region and a second end region. The grip body has a first surface near the second end region, with a curved subregion for supporting a subregion of the ball of the human hand, and an outwardly curved second surface supporting a subregion of the palm, and an inwardly curved third surface adjacent to the first surface and supporting the extended thumb, and an outwardly curved fourth surface lying substantially opposite the third surface and supporting the middle finger, adjacent to which fourth surface an outwardly curved fifth surface is provided for supporting the ring finger. The grip body has a sixth surface to support the index finger. The sixth surface, starting from a subregion of the second surface spaced apart from the second end region of the grip body, extends in the direction to the first end region and runs longitudinally along the grip body.

A scientifically controlled exercise based on a measurement of maximum voluntary contraction (MVC). A mechanical apparatus includes a sensor, an actuator, and a processor. The apparatus receives a mechanical exertion from a user while the processor receives signals from the sensor and sends signals to the actuator to control the mechanical apparatus. The processor measures a MVC exerted by a user and determines a protocol for the exercise based on the measured MVC. The protocol includes a specified exertion to be performed by a user, the specified force and velocity profile governing the exertion, and a specified sequence of repetitions of the exertion, spaced by rest periods. The protocol includes real-time feedback to the user related to compliance with the protocol. The methodology and equipment described herein provides users a safe and effective means of improving muscular strength or endurance and ameliorating various neurological or physiological conditions.

A scientifically controlled exercise based on a measurement of maximum voluntary contraction (MVC). A mechanical apparatus includes a sensor, an actuator, and a processor. The apparatus receives a mechanical exertion from a user while the processor receives signals from the sensor and sends signals to the actuator to control the mechanical apparatus. The processor measures a MVC exerted by a user and determines a protocol for the exercise based on the measured MVC. The protocol includes a specified exertion to be performed by a user, the specified force and velocity profile governing the exertion, and a specified sequence of repetitions of the exertion, spaced by rest periods. The protocol includes real-time feedback to the user related to compliance with the protocol. The methodology and equipment described herein provides users a safe and effective means of improving muscular strength or endurance and ameliorating various neurological or physiological conditions.

A therapeutic or exercise putty includes a boronated silicone elastomer serving as the base ingredient and copper sulfate, zinc sulfate, copper oxide, zinc oxide or zinc pyrithione as a secondary ingredient mixed with the base putty or in combination with an antistatic ingredient. The inclusion of any one of the aforementioned secondary ingredients or the antistatic ingredient will reduce the risk of transmission of or infection from viruses, bacteria and microbial pathogens in or on the surface of the putty when the putty is used for hand rehabilitation or exercise by patients.

A therapeutic or exercise putty includes a boronated silicone elastomer serving as the base ingredient and copper sulfate, zinc sulfate, copper oxide, zinc oxide or zinc pyrithione as a secondary ingredient mixed with the base putty or in combination with an antistatic ingredient. The inclusion of any one of the aforementioned secondary ingredients or the antistatic ingredient will reduce the risk of transmission of or infection from viruses, bacteria and microbial pathogens in or on the surface of the putty when the putty is used for hand rehabilitation or exercise by patients.

The present invention relates to wobbly balls and exercise coil springs. A wobbly ball may include a non-spherical rigid, hollow ball body formed of two halves, each half comprising an upper ladle or a lower ladle which are welded together along a central seam therebetween, and defining a hollow cavity therein. A spherical inner ball is captured within the hollow cavity of the hollow ball body of the wobbly ball, so that upon movement of the wobbly ball, the inner ball rolls within the cavity, producing a wobbly, eccentric motion. The exercise coil spring may be formed of a single coiled wire, the coiled spring including a central portion where the coiled wire is coiled to a first diameter that is constant. Opposed flared ends are provided ends of the central portion where the coiled wire is progressively coiled from the first diameter to a second diameter, which is greater.