A therapeutic apparel article is configured with a supple wearable fabric article that can be configured over limb or nub of an amputated limb. The therapeutic apparel article is configured with a plurality of nodes for detachably attaching vibrating devices thereto. In addition, a control unit having a power source may be detachably attached to the wearable fabric article. A conductive network may extend from the control unit and/or the power source to provide electrical power to the nodes and the vibrating devices attached. A user may attach vibrating devices to various nodes of the wearable fabric article as desired. In addition, the vibrating devices and the control unit can be detached from the wearable fabric article to enable the wearable fabric article to be washed.

An improved self-massage apparatus may feature a main mounting bar serving as a body and one or two coaxial and slidable tubes to provide mounting tension. An outer surface may present a rotatable massage head. The two ends of the apparatus may have brackets or other interfaces to secure the apparatus between two parallel surfaces. Clamps, ratchets, and other tension devices may be used to hold the main components in fixed relation to each other and the massage head may rotate a full 360 on at least two planes for a customizable and extremely versatile massage experience.

A steam therapy equipment including a vessel for heating a mixture of water and organic materials, a compressor to inject pressurized air into the vessel producing pressurized steam. The pressurized steam is conducted into the equipment via one or more valves. The therapy equipment is formed from at least one panel and may include a supporting frame. The therapy equipment includes a temperature sensor to measure the temperature inside the therapy equipment when pressurized steam is admitted via the valves. A patient enters the equipment and is exposed to the pressurized steam, causing dilation of the skin pores of the patient, whereby toxins are removed from the patient. One or more applicators may conduct pressurized steam to specific portions of the body of the patient. The patient may be provided with a portion of the mixture to consume as part of the steam therapy treatment.

A wearable device for generating extracorporeal shock waves in a thoracic region of a user includes a shock wave transducer unit to generate extracorporeal shock waves and configured to be placed on the skin of the user to apply shock wave therap. At least one proximity sensor measures the proximity of the shock wave transducer unit relative to the user's skin. A positioning mechanism is configured to controllably position the shock wave transducer unit. A processor is configured to transmit information to the shock wave transducer unit for generating extracorporeal shock waves.

A therapy system is operable to deliver at least one respiratory therapy to a patient. For example, therapy system may be operable to deliver any one or more of the following therapies: a high frequency chest wall oscillation (HFCWO) therapy, a positive expiratory pressure (PEP) therapy, a nebulizer therapy, an intermittent positive pressure breathing (IPPB) therapy, a cough assist therapy, a suction therapy, a bronchial dilator therapy, and the like. The therapy system is contained in a housing supported by a mobile stand.

An integrated sensory system includes a therapeutic compression vest. The vest has a first layer, a second layer and a third layer. The first layer is a loop material, said second layer is a closed cell material or polyurethane and the third layer is a soft material. The first layer is coextensive with the second layer. The vest serves as a basis for the integrated sensory system which is designed to meet a broad-range of multi-dimensional therapeutic. The integrated sensory system includes accessories such as a cape, balls, fidgets, etc. all having hook material to enable selective attachment and release of said accessories from the outer loop layer.

Compression garments may include mitts and tightening apparatus to don, or put on, such compression garments. The mitts may be configured to receive a user's hand such that the user can move one or more portions of the garments using the mitts. The tightening apparatus may allow a user to selectively tighten or loosen the garments about the user's body portions. Once donned, the compression garments may apply pressure to one or more regions of the user's body such as, e.g., arm regions, shoulder regions, torso regions, and neck regions.

A piece of fitness equipment, which is suitable for fitting to a body part of a person comprising a pressure chamber to which a fluid can be applied and a pump that is connected with the pressure chamber and is suitable for applying the fluid to the pressure chamber. Furthermore, the device comprises a controller for controlling the pump and a wearable holder that is detachably connectable with the pressure chamber and serves for holding the pressure chamber to the body part. The pressure chamber is formed in the shape of a hose.

A therapy system is operable to deliver at least one respiratory therapy to a patient. For example, therapy system may be operable to deliver any one or more of the following therapies: a high frequency chest wall oscillation (HFCWO) therapy, a positive expiratory pressure (PEP) therapy, a nebulizer therapy, an intermittent positive pressure breathing (IPPB) therapy, a cough assist therapy, a suction therapy, a bronchial dilator therapy, and the like. The therapy system is contained in a housing supported by a mobile stand.

In some embodiments, a method may include clearing a biological airway. The method may include positioning an inner wearable harness on a torso of a subject. The method may include selectively positioning at least some of a plurality of engines on and/or adjacent at least one treatment area. At least one of the plurality of engines may be releasably couplable to the inner wearable harness. The method may include positioning an outer wearable harness on a torso of a subject. The method may include applying an oscillation force to at least one of the treatment areas using at least some of the plurality of engines. The method may include adjusting the applied oscillation force to the treatment area by activating the outer wearable harness. The method may include mobilizing at least some secretions in an airway within the subject substantially adjacent the at least one treatment area.