A massage unit includes a treatment member; an arm that supports the treatment member; a drive shaft that supports the arm and causes the treatment member to approach and be separated with respect to a treatment target site; a movable portion that causes the treatment member to be operable in a direction of being separated from the treatment target site when the treatment member comes into contact with the treatment target site by a force equal to or greater than predetermined strength; and biasing means for biasing the treatment member in an approaching direction.

A reduced pressure treatment system is provided that includes a canister that is fluidly connected to a tissue site and is configured to receive fluid drawn from the tissue site under the influence of a reduced pressure. A reduced pressure source provides the reduced pressure and is fluidly connected to the tissue site by a fluid communication path, which may include a source conduit, the canister, and a target conduit. A sensing device communicates with the source conduit and is configured to sense a pressure in the source conduit. A valve communicates with the source conduit and is configured to vent the reduced pressure. A processing unit communicates with the sensing device and the valve and is configured to open the valve for a selected amount of time, determine a decay of reduced pressure, and determine a fill status of the canister based on the decay of reduced pressure.

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.

The invention relates to a system for adjusting pressure locally acting on the skin. Said system includes a set of adjacent modules distributed so as to form a layer. Each module includes a cushion capable of changing shape and comprising a cavity, a valve, a tank, and a pressure sensor, wherein the cavity and the tank are in communication with each other by means of the valve, and the sensor is placed so as to sense pressure directly or indirectly acting on the cushion. The system also includes a feedback loop arranged such as to increase or decrease the change in the shape of the cushion on the basis of the pressure detected by the sensor. The system according to the invention can be built into a shoe so as to re-establish normal plantar pressure under the entire sole of the foot, which is particularly desirable for athletes or for patients suffering from diabetes mellitus or leprosy. It is also possible to incorporate the system according to the invention into a (bed or wheelchair) mattress so as to prevent decubitus ulcers in patients with neurological diseases (hemiplegia, paraplegia, tetraplegia, multiple sclerosis, amyotrophic lateral sclerosis) and any other sensory and/or motor deficit diseases.

A stretching machine includes a table having a surface for supporting a patient and a first leg rest for supporting and moving a first leg of the patient. The first leg rest has a first vertical frame operable to rotate around a first horizontal pivot point at an end of the table and a first horizontal frame operable to rotate around a first vertical pivot point on the first vertical frame. A first vertical actuator is for rotating the first vertical frame around the first horizontal pivot point to move the first leg rest in a vertical direction relative to the surface of the table, and a first horizontal actuator is for rotating the first horizontal frame around the first vertical pivot point to move the first leg rest in a horizontal direction relative to the first vertical frame.

A stimulation device is described having a pressure field generating device which has a cavity and a medium influencing arrangement. The stimulation device uses a first check valve arrangement, arranged inside the cavity between the application opening and the medium-influencing arrangement, and is movable at least in sections in the direction of the application opening and away from it and has a first check valve which is designed to close in the direction of the application opening and to open in the direction of the medium influencing arrangement, wherein the cavity has a first section and a second section, and a second check valve arrangement, which connects the first section of the cavity to an outside of the stimulation device and has a second check valve.

A foot wrap (10) has a generally non-stretchable, flexible binding (11), a generally stretchable panel (12) coupled to the binding, an expandable, rotatable bladder (14), and a support pad (16) coupled to the binding opposite the bladder (14). The binding has a central portion (19) straddled by a first wing (21), a second wing (22), and an elastic heel band (23). The bladder measures approximately 3 inches by 3 inches and is designed to increase in height approximately 1½ to 1¾ inches with its inflation.

A soft-inflatable exosuit for knee rehabilitation is fabricated in two different beam-like structures (I and O cross-section actuators) and mechanically characterized for their torque performance in knee-extension assistance. The fabrication procedure of both types of actuators is presented as well as their integration into a light-weight, low-cost and body-conforming interface. To detect the activation duration of the device during the gait cycle, a soft-silicone insole with embedded force-sensitive resistors (FSRs) is used. In evaluation studies, the soft inflatable exosuit device is tested for its ability to reduce muscle activity during the swing phase of the knee. Using sEMG (surface electromyography) sensors, the rectus femoris muscle group of a healthy individual is recorded while walking on a treadmill at a constant speed, with and without the soft device.

A machine that combines three sections bound to each other by the corresponding dynamic swivels that are driven from a remote control of adjustment and command (R). The first section constitutes the main body (A) wherein a fixed frame whereby a sliding carriage (D) is defined, which is arranged associated with a first motor reducer (M1) which drives its rectilinear movement, in the horizontal plane and in both senses; said sliding carriage (D), by one end, is bound to an intermediate arm (B), which makes up the second section of the machine, being arranged over a pivoting transverse axis that is into a first dynamic swivel, which is arranged associated to a second driving motor reducer (M2) so that said intermediate arm (B) may make a pivoting movement in the vertical plane, with circular direction in both senses; said intermediate arm (B), by its other end, is bound to a head of the massage actuator (C), that makes up the third section of the machine, being arranged over a transverse axis that forms a second dynamic swivel, which is arranged associated to a third driving motor reducer (M3) so that said head of massage actuator may make a pivoting movement in the vertical plane, with circular direction in both senses; an actuator piston (P) is arranged into the head of the massage actuator (C) which transforms the rotating movement that transmits the output axis of a fourth motor reducer into an alternative linear movement that is transmitted to the piston for massage (23); constituting the four motor reducers an electronic driving installation by remote control, through which the positioning of each of the mobile parts duly bound to the rotating coders and end-of-travel positions is commanded. The electronic driving installation is comprised of the electronic controlling plate (E) installed in the main body (A) and includes a remote control processor (MP2) that receives the order, processes the information and sends it through the FR antenna (a4) of the remote control (R), to the FR antenna (a1) of the electronic system (E) installed into the machine, that communicates the information to its processor (MP1). The electronic installation of remote control includes the option of saving, through memories, the previous adjustment that the user establishes in each case.

A percussive pulsing therapy device configured for delivering pulsating or intermittent airflow to a patient device, such as a patient vest. The percussive pulsed air device may have an airflow generator for controlling amplitude of the percussive pulsed air and a pulse frequency control module for controlling frequency of the percussive pulsed air. In some embodiments, the pulse frequency control module may have a rotatable fan blade, such as a circular fan blade having one or more cutout portions. In some embodiments, the rotating fan blade may have one or more channels configured to redirect percussive pulsed air. Moreover, a percussive pulsed air device of the present disclosure may have a dampening element flowably coupled to an inlet of the pulse frequency control module. In some embodiments, at least one inlets of the pulse frequency control module may be arranged on a different airflow plane than one or more outlets.