A spinal treatment system includes a traction device, an exercise device adapted for imparting curvature to the lumbar or sacral spine of a user and for manipulating the spine and intervertebral discs with decompression force, and a cushion coupled to the traction device and configured to bear against one or both of a head of the user and the thoracic spine of the user. The exercise device includes a frame for placement on the floor. A pad or inflatable bladder is carried by the top surface of the frame. A body strap attachment portion encompasses the thoracic-sacral spinal vertebrae region of the user and secures the frame to the user. The cushion includes one or more pad sections or inflatable bladder sections.

A cushion for decompressing the human spinal column comprises a body support surface, a first short flat bottom surface, a longer second flat bottom surface, wherein the first bottom surface and the second bottom surface intersect and are angled at a particular angle lying within the range of 120 degrees to 150 degrees, but preferably at 135 degrees. A cushion for decompressing the human spinal column comprise a body support surface, and a curved bottom surface wherein the curve of the bottom surface increases or decreases in radius from one end to the other. The curve of the bottom surface may have the shape of an incomplete portion of a two-dimensional spiral.

The present invention discloses an enhanced design of Occipital Release Tool with symmetrical estimations in stature and side width to provide enhanced stability. The assembly has occipital nodes, high intensity foam and two totally separate connectable levels which fit as blocks and enable the user to adjust each level as per individual requirements.

The present disclosure relates to a cervical spine traction device, equipment and method, wherein a built-in program code determines a cervical spine stretching force according to a sensed weight of a user. The cervical spine traction device has a main controller, a fixing unit, a movable unit and thermal massage units. By storing the program code in the main controller, the optimal traction data comprising a cervical spine stretching distance, the cervical spine stretching force and a cervical spine stretching time can be calculated according to the weight and height of the user lying down on the platform. Further, by sensing the temperature of the neck of the user and massaging the neck, the tension force of the neck muscle can be relaxed, the tightness of the user can be sufficiently eliminated, and the cervical spine of the user is corrected.

A neck therapy device supports the head of a patient in a supine, side-lying or prone position to eliminate the effects of gravity on the cervical vertebrae and associated musculature. A sliding platform supporting the head permits frictionless turning throughout full cervical motion and a cervical support can target a particular cervical vertebra to isolate motion to superior vertebrae. The cervical support is also used to apply traction and pressure to cervical muscles and vertebrae to effect soft-tissue mobilization and activate and strengthen cervical muscles.

A health-regain device, includes a driving portion, a health portion disposed on one side of the driving portion, and a control module communicably connected to the driving portion, wherein the control module controls the driving portion driving the health portion in rhythmic reciprocating motion.

A therapy device includes a frame, a motor, and a sling on which a neck of a supine user rests. The sling is movable by the motor relative to the frame to enable continuous passive motion rotation of a user's neck and cervical spine. Additionally, depending on where the user's head is placed relative to the sling, the user's spine can be placed in axial traction, and the user's neck can also be placed into extension. Movement of the sling may be achieved by an armature that is rotated by the motor. The armature may include a plurality of openings formed therein that are configured to receive a sling lead. Each of the openings results in a different amount of rotational movement of the user's head, such that a user can adjust to location of the sling pin to result in a desired amount of rotational movement.

A massage and stretch bench includes: a body with a top plate and a plurality of supports, the top plate including a first positioning hole opening in a vertical direction, and each of the supports being mounted on the bottom surface and provided with an opening; a baseplate inserted along the horizontal direction into the openings of the plurality of supports and having a second positioning hole which is aligned with the first positioning hole and opens in the vertical direction; an upright post inserted along the vertical direction into the first and second positioning holes; and a footrest including a first footrest piece, a second footrest piece and two connecting pieces connected between the first and second footrest pieces so as to define a baseplate-insertion slot which opens in the horizontal direction, and the baseplate is inserted in the baseplate-insertion slot.

A portable traction device can include a sling that is sized to cradle a user's head. The sling can be associated with an anchor that is positioned a height above the floor when the portable traction device is in use. A tensile force vector between the anchor and the sling allows for cervical traction. The portable traction device can additionally include one or more flexible straps between the anchor and the sling that can differentially regulate the amplitude of the tensile force vector by stretching.

An exercise and stretching device is shown and described. The exercise and stretching device includes a connection cable located through a rigid tube. The rigid tube has a curvature. There are connectors at each end of the connection cable. The connectors are connected to resistance bars. The resistance bars have an aperture located at each end of the bar, wherein an aperture of each bar accepts the connectors. A handle is connected to the aperture opposite the connector.