A physical medicine table for treating a patient's spine that is capable of providing precise, repeatable, and effective traction force treatment to a patient in multiple dimensions to adjust an unhealthy spinal structure towards a normal, healthy structure. Generally, the spinal structure treatment can be applied to a patient using the described traction device to secure the patient to the adjustable support portions and selectively impart a combination of longitudinal Y-axis traction forces, lateral X-axis traction forces and/or sagittal Z-axis traction forces to the patient using a control system in accordance with a prescribed treatment regimen.

A traction tower assembly and traction tower scale. The traction tower assembly includes a tower assembly including a first tower having a first side surface and a second tower having a second side surface positioned adjacent to the first side surface, wherein the second tower is movable with respect to the first tower in a first direction and in a second direction; and an elongated arm assembly attached to and extending from the tower assembly.

A traction tower assembly and traction tower scale. The traction tower assembly includes a tower assembly including a first tower having a first side surface and a second tower having a second side surface positioned adjacent to the first side surface, wherein the second tower is movable with respect to the first tower in a first direction and in a second direction; and an elongated arm assembly attached to and extending from the tower assembly.

A training apparatus is disclosed, comprising: a top structure, a bottom structure, and a traction structure disposed between the top structure and the bottom structure, and wherein the traction structure is configured to be retractable along an axial direction of the top or bottom structure to achieve relative movement between the top structure and the bottom structure.

A traction apparatus develops a pull force through some or all the compressed joints of the ankles, the knees, the hips and the vertebrae of an individual, after the individual attaches to the ankles, or the waist, or the shoulders, a harness connected to suspended weights, and then positions self to rest supine over an inclinable, full length frictionless surface of full-width idler rollers, and inserts self's head's occipital portion into a crescent shaped hollow head restrainer which arrests the body's pull by the weights.

A traction apparatus develops a pull force through some or all the compressed joints of the ankles, the knees, the hips and the vertebrae of an individual, after the individual attaches to the ankles, or the waist, or the shoulders, a harness connected to suspended weights, and then positions self to rest supine over an inclinable, full length frictionless surface of full-width idler rollers, and inserts self's head's occipital portion into a crescent shaped hollow head restrainer which arrests the body's pull by the weights.

A brace including (i) two or more supports configured to contact body parts on opposite sides or ends of one or more joints when the brace is in use and (ii) one or more force application mechanisms that apply a controllable force to the supports in opposite directions to alleviate compression in the one or more joints is disclosed. Methods of manufacturing the brace and of alleviating compression in one or more joints using the brace are also disclosed.

A brace including (i) two or more supports configured to contact body parts on opposite sides or ends of one or more joints when the brace is in use and (ii) one or more force application mechanisms that apply a controllable force to the supports in opposite directions to alleviate compression in the one or more joints is disclosed. Methods of manufacturing the brace and of alleviating compression in one or more joints using the brace are also disclosed.

An orthopedic walking boot includes a housing configured to encompass at least a user's foot, a mechanically adjustable ramp insert including a ramp surface and disposed in the housing, and an adjusting mechanism configured to adjust an elevation angle of the ramp surface. The mechanically adjustable ramp insert includes a base, a threaded shaft secured to the adjusting mechanism at a first end and configured to rotate with the adjusting mechanism, a first slider nut including internal threads, a bracket in physical contact with the ramp surface, a first support coupled to the first slider nut at a first end and to the bracket at a second end, and a second support coupled to the base at a first end and to the bracket at a second end.

An orthopedic walking boot includes a housing configured to encompass at least a user's foot, a mechanically adjustable ramp insert including a ramp surface and disposed in the housing, and an adjusting mechanism configured to adjust an elevation angle of the ramp surface. The mechanically adjustable ramp insert includes a base, a threaded shaft secured to the adjusting mechanism at a first end and configured to rotate with the adjusting mechanism, a first slider nut including internal threads, a bracket in physical contact with the ramp surface, a first support coupled to the first slider nut at a first end and to the bracket at a second end, and a second support coupled to the base at a first end and to the bracket at a second end.