A patient support for supporting a patient includes an inflatable mattress defining a support surface and a pneumatic system for inflating the inflatable mattress. The pneumatic system includes a pressurized reservoir for holding pressurized air and selectively releases pressurized air from the reservoir to the mattress.

Disclosed is a sequential compression massage device using a stacked member which repeatedly applies compression force to a human body (10). The message includes: a driving unit for rotatably supporting a shake rod on an upper plate and a lower plate connected to each other through a guide rod; a pressing unit for maintaining a plurality of pressing plates in a stacked state on the driving unit by positioning the guide rod and the shake rod (34) in the pressing plates; and a control unit for sequentially shaking the pressing plates. Thus, the reliability and durability are improved in such a manner that the plurality of stacked pressing plates cause shake movement without causing a user inconvenience, thereby enhancing the effectiveness of the prevention and alleviation of venous circulation disorder.

A device (100) for the treatment of depression, anxiety and pain, the device comprising: a plurality of adjacent dots (11) or other shapes, each comprising means for providing a signal being sensible by a touch sense, the signal comprising mechanical signal and/or electrical signal and/or temperature signal and/or magnetic signal; and a controller (32) for executing each of the means independently, for providing pre-programmed shapes (30, 40, 40A, 40B, 42, 46, 48, 50, 52, 54) being sensible by the touch sense, thereby allowing treating the depression, anxiety and pain by generating to the brain, signals resembling the pre-programmed shapes (30, 40, 40A, 40B, 42, 46, 48, 50, 52, 54) through the signals being sensible by the touch sense.

A method and apparatus that affect vacuum to massage a volume of the skin and one or more types of skin treatment energies coupled to the massaged volume to treat the skin and subcutaneous adipose tissue and produce a desired treatment effect. The method and apparatus are based on coupling an array or a number of arrays being an assembly of skin treatment units with each skin treatment unit including a hollow cavity and a number of different energy to skin applying elements operative to receive skin treatment energy from a source of such energy and couple or apply the received energy to a treated segment of skin.

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.

A boot assembly and method that simulates, in a static equine animal (stalled or hauled), the natural mechanical action of walking or other gaited exercise. The assembly has a boot, containing a shock absorbing pad that is fitted with one or more pulsing bladders disposed under or inside the shock absorbing pad. Pressuring and relaxing the pulsing bladder in the bottom of the boot rhythmically pushes against the sole and frog and against the toe of the equine hoof in much the same way that the hoof is exercised when the animal is moving. The pulsing action helps stimulate blood flow through the hoof and is beneficial to shod, injured, and transported horses. The assembly may be fitted on one or more hooves, and may be automated to provide timing and sequencing to simulate different gaits of the animal. In some aspects, the assembly is disposed in an ice boot or ice spa boot to also provide cryotherapy as well as simulated exercise.

A primary object of the present invention is to provide a control method for a massage machine and a massage element of a massage machine which can provide pressing and rubbing kneading to a person to be treated.

A control method for a massage machine contains a controlling process for individually controlling operations of a kneading motor 331 for operating a pair of massage elements 321, 322, width adjustment motors 341, 342 for adjusting a width between the pair of massage elements 321, 322, a strength-and-weakness motor 351 for adjusting strength of the pair of massage elements 321, 322 and an up-and-down motor 361 for adjusting movement of the pair of massage elements 321, 322 in an up-and-down direction.

The proposed method is intended for rhythmic stimulation of neurotrophic reflexes to simultaneous stretching of muscles in various sections of spine, joints of limbs and in the main muscles of a human body. The aforesaid method can be implemented by employing an exercise machine that provides for mechanical anti-phase oscillations of lodgments affecting various sections of the body and limbs without considerable movements of the neck-and-head lodgment in the vertical direction. The upper body and the lower limbs make in-phase reciprocal movements, while the pelvic area makes movements anti-phase relative thereto. A support for the neck-and-head part is installed to allow supporting natural movements of the head in the course of the aforesaid movements of the upper body. The design of the exercise machine is described in detail herein.

Provided are a method for strengthening blood vessels with extreme ease and a compression and decompression control system used for performing the method. A compression and decompression control system 1 includes a band adapted to be placed around a particular part of a limb of a user and to apply a compression force to the particular part and a controller for controlling the compression force applied to the particular part with the band. The controller controls the compression force applied with the band in a manner that a compression operation applying a predetermined compression force to the particular part and a decompression operation completely removing the compression force applied to the particular part by the compression operation are alternately repeated. Repetition of the compression operation and the decompression operation allows the vascular endothelial cells of blood vessels of the user to generate a larger amount of nitric oxide, thereby strengthening the blood vessels.

Exoskeleton technology is described herein. Such technology includes but is not limited to exoskeletons, exoskeleton controllers, methods for controlling an exoskeleton, and combinations thereof. The exoskeleton technology may facilitate, enhance, and/or supplant the natural mobility of a user via a combination of sensor elements, processing/control elements, and actuating elements. User movement may be elicited by electrical stimulation of the user's muscles, actuation of one or more mechanical components, or a combination thereof. In some embodiments, the exoskeleton technology may adjust in response to measured inputs, such as motions or electrical signals produced by a user. In this way, the exoskeleton technology may interpret known inputs and learn new inputs, which may lead to a more seamless user experience.