The pneumatic therapy apparatus and method with overlapped compression include a wrap and a controller. The wrap includes an outer wrap and an inner air bladder set; the controller can be fixedly connected to, detachably connected to, or separately connected to the outer wrap; the inner air bladder set includes one or more than one set of a first air bladder and a second air bladder that are overlapped; the controller contains an inflating motor and an integrated control board that are electrically connected. The inflating motor that is controlled by the integrated control board inflates the second air bladder first and then the first air bladder to achieve the overlapped compression between the second air bladder and the first air bladder. Therefore, the user can use the pneumatic therapy apparatus and method with overlapped compression to promote blood flow, treat lymphedema, prevent deep vein thrombosis and other diseases, and improve user experience in the treatment areas.

Medical pressure therapy can be used on a patient having undergone treatment to reopen an arterial obstruction, such as a stenosis or occlusion. The medical pressure therapy can establish and maintain persistently good distal runoff. The can help ensure the patency of the region having undergone the treatment procedure. In some examples, the technique involves enclosing at least a portion of a limb of a patient on which an obstruction treatment procedure has been performed in an enclosure such that the portion of the limb is sealed from external conditions. The technique further involves alternately applying a negative pressure within the enclosure and releasing the negative pressure from within the enclosure, thereby increasing a volume and velocity of blood flowing past a region of the blood vessel previously-obstructed and thereby increasing distal runoff.

The present disclosure relates to the field of exercising equipment. A device (100, 200, 300, 400, 500, 600) disclosed in the present disclosure increases the reverse blood flow rate, i.e., flow rate of blood from legs towards heart. The device (100, 200 300, 400, 500, 600) includes a pedal (125, 220, 330, 420, 520, 630) configured to support a foot of a leg thereon. The device (100, 200, 300, 400, 500, 600) includes a drive mechanism (140, 250, 350, 530) to oscillate the pedal (125, 220, 330, 420, 520), thereby rocking the foot about the axis of the ankle joint to cause natural movement of the foot as during walking.

A composition, method and related systems for treating and/or preventing spasticity in a patient using negative pressure therapy. The negative pressure therapy may include intermittent application of negative pressure to a limb or portion of a body, such as alternating between periods of negative pressure and ambient pressure. The negative pressure therapy may be applied on a regular basis for a predetermined period, such that an effective amount of negative pressure for treating spasticity and other symptoms of neurogenerative diseases is administered. The negative pressure therapy may be applied to cause intermittent activation of the venous arterial reflex in the body for a sustained period, such that symptoms of neurogenerative diseases are alleviated or prevented.

An air pump system includes a pump, a main valve device, and a distribution valve device connected between the pump and the main valve device, that includes a first portion forming a first chamber and a second portion forming a second chamber. The first portion includes a first free port to fluidly couple the first chamber with the pump, a first connection port to fluidly couple the first chamber with the main valve device, a second connection port to fluidly couple the first chamber with an outside of the distribution valve device, and a first valve switch. The second portion includes a second free port to fluidly couple the second chamber with the pump, a third connection port to fluidly couple the second chamber with the main valve device, a fourth connection port to fluidly couple the second chamber with the outside, and a second valve switch.

A compact mini air pump includes a rectangular, box-shaped body having a standard AC power cord extending from it, two air supply output ports, and a control and information panel with user-operated buttons and status lights located on its front side. Within the hollow interior of the body is an air compressor, a dual-output electromechanical valve having to two air output tubes, an air pressure sensor, a DC battery power supply, an AC power connection, and an electronic circuit board controlling the mini air pump's function. The air supply output ports, an extension of the air tubes within the body, supply air to Intermittent Pneumatic Compression (“IPC”) Therapy device garments through flexible air supply tubes. The mini air pump device is sized to be held by one hand for portability.

A treatment system includes a massage machine and a measurement portion. The measurement portion obtains body information data of a subject to be treated and outputs and transfers the body information data to the massage machine. The massage machine includes a treatment portion that treats the subject, a control unit that controls the treatment portion, a storage portion that stores data of treatment courses and a treatment course notification portion that displays one of the treatment courses. The measurement portion and the control unit are connected. The control unit is configured to receive the body information data from the measurement portion, and selects a suitable treatment course from the treatment courses based on the body information data. The treatment course notification portion notifies of the suitable treatment course.

A therapeutic support device includes a bladder having one or more independently inflatable compartments, each including a plurality of inflatable cells. When inflated, each inflatable cell forms a contact node that may support a user or another object disposed thereon. The inflatable compartments can be alternately inflated and deflated such that contact pressure can be applied to and relieved from corresponding portions of the user's body in an alternating manner.

A system and apparatus for promoting perfusion at a tissue site containing a sprain by applying a vacuum to intact skin extending over or surrounding the tissue site. The system and apparatus comprise a manifold formed from a porous material and configured to be disposed proximate the intact skin for distributing vacuum to the intact skin, and a sleeve adapted to cover the manifold and form a chamber containing the manifold to seal the manifold within the chamber between the sleeve and the intact skin. The system and apparatus further comprise a fluid coupling member adapted to deliver vacuum to the manifold for distribution to the intact skin. A method for applying vacuum to the intact skin of a tissue site is also disclosed and described herein.

Systems and methods for exerting forces on a body, including a support structure defining a space and a plurality of surface contacting units that are configured to exert force upon the body, such that the weight is distributed away from the primary weight bearing regions to non-weight bearing regions of the body, or vice versa, without exerting significant shear or frictional forces on surfaces of the body. The systems and methods may be used to exert forces to cause fluid shift in different compartments of the body. Applications include treatment of various disease conditions including pressure ulcers, heart failure, high blood pressure, preeclampsia, osteoporosis, injuries of spine and to slow microgravity-induced bone and muscle loss. The systems and methods may be used to simulate gravity, weightlessness or buoyancy, in rehabilitation medicine. The system may include a chair, bed, a wearable suit or an exoskeleton.