Embodiments of the present disclosure an adult toy is disclosed. The adult toy includes a substantially hollow cylindrical body and a vagina-shaped element arranged inside the substantially hollow cylindrical body. The vagina-shaped element includes an opening at a first end of the substantially hollow cylindrical body to receive a male genital organ thereof. Further, the adult toy includes a chamber arranged between the substantially hollow cylindrical body and the vagina-shaped element, surrounding the vagina-shaped element. The adult toy includes an air pump arranged towards a second end of the substantially hollow cylindrical body. The air pump is disposed in fluid communication with an ambient atmosphere and the chamber and configured to provide an air pressure inside the chamber. The chamber is adapted to inflate and deflate based on the air pressure thereof to cause the vagina-shaped element to compress and decompress to stimulate the male genital organ received inside thereof.

A device (900) includes a leg engaging section (101) and a foot engaging section (102 intersecting at a heel receiver (103). The leg engaging section and the foot engaging section defining a leg insertion aperture (104). A first compression wrap member (301) and a second compression wrap member (302) extend from the leg engaging section. An inflatable bladder (501) can be disposed along the leg engaging section between the leg insertion aperture and a compressible cushion layer (902). The inflatable bladder can be selectively inflatable through a connection tube (502) exiting the inflatable bladder at a non-orthogonal angle (504) relative to an edge (507) of the inflatable bladder. The leg engaging section can define at least one channel (1002) to permit the connection tube to exit the device.

Tissue compression devices having a tension limiting strap retainer and methods of using the same. The tissue compression devices described herein may include a strap retainer that is attached to a base by an elastic member that is configured to draw the strap retainer towards the base. The tissue compression devices described herein may also include a tension indicator that extends between the base of the tissue compression device and strap retainer. The tension indicator may be configured to limit the travel distance of the strap retainer away from the base in response to forces acting on the strap retainer. The tension indicator may also provide visual feedback to a user of the tension force in a strap to attach the tissue compression device to a patient.

A shorts-type pneumatic massage apparatus includes a shorts-pressurizing portion including a left shorts portion, which includes a plurality of air chambers extending in a longitudinal direction of the wearer's legs and which has a right side open from a top of a crotch, and a right shorts portion, which includes a plurality of longitudinal air chambers extending in the longitudinal direction of the wearer's legs and has a left side open from the top of the crotch, wherein the open right side of the left shorts portion and the open left side of the right shorts portion are coupled along an end; and an air injection adjustment portion configured to inject air to or discharge air from each of the longitudinal air chambers to allow the longitudinal air chambers to expand or contract.

The Conformal Vest Ventilator (CVV) is a vest-like mechanism to cause or aid breathing in humans The Conformal Vest Ventilator consists of a series of expanding and contracting tubes that fit around the torso, similar to clothing, and which change shape in a manner that expands the thoracic cavity to create negative pressure ventilation in the lungs, similar to the natural ventilation created by the diaphragm muscle and the expanding rib cage. The CVV creates a breathing support system that is less intrusive than existing methods, and can improve the lives of people with COPD or paralyzed diaphragm muscles and is useful in other medical conditions, including sleep apnea, critical care, spinal cord injuries, and athletic training or physical therapy when the primary goal is to increase lung capacity.

Apparatus and associated methods relate to a wearable compression therapy system for ambulatory therapy, the system including a wearable garment having one or more inflatable chambers, and a pneumatic engine locally coupled to the garment to provide control and inflation of the one or more inflatable chambers. In an illustrative embodiment, the pneumatic engine may control a pump and one or more valves to inflate the inflatable chambers. The valves and pump may be coordinated according to a pre-programmed profile. In some embodiments, the pneumatic engine may have a wireless interface configured to receive control signals from a remote mobile device untethered from the garment. The pneumatic engine may send to the remote mobile device signals indicative of sensed conditions of the compression therapy system. In some embodiments, the pneumatic engine may include a power source that advantageously permits the user to be untethered from a source of power.

A pressure application relating to a garment that includes at least one active part for applying pressure to at least one body part of a subject and the active part includes at least one bladder fillable with a fluid so as to obtain a homogeneous positive pressure applied to the whole of the corresponding at least one body part of the subject, the pressure application garment also including for the or each active part, at least one interface pressure sensor, a control unit, and a driving module wherein the pressure application garment further includes at least one sheet of a fabric made of at least three superimposed layers.

Portable oscillating compression systems including a compressor for compressing air; an accumulator tank for receiving and storing the compressed air from the air compressor; an air pressure adjustment module for modulating pressure of the compressed air when the compressed air exits the accumulator tank; a valve body assembly attached to the accumulator tank, a plurality of inflatable cuffs connected to the valve body assemble for receiving the compressed air from the valve body assembly; a controller for controlling the valve body assembly; a power supply; and a housing for containing said system.

Systems and methods described herein include a pressure delivery component that has a pressure applicator configured to selectively apply therapeutic pressure to a treatment portion of a user body, and also includes a thermal delivery component that has a thermal applicator that is a configured to apply thermal treatment to the treatment portion. The thermal applicator may be removably disposable in operative relationship with the pressure delivery component in a use configuration of the treatment delivery component such that the thermal applicator is disposable between the treatment portion and the pressure applicator when the treatment delivery component is disposed on the treatment portion in the use configuration. Moreover, the pressure applicator is operable to apply pressure to the thermal applicator to enhance apposition of the thermal applicator to the treatment portion.

Systems, and methods relate to a medical device receiving a treatment parameter operating point within a first operating region defined by a first set of operating points for which automatic incremental adjustment of a parameter in the current operation is permitted. In an illustrative example, incremental adjustment may use artificial intelligence based on patient feedback and sensor measurement of outcomes. Some exemplary devices may receive a request to alter the current treatment parameter operating point to a second treatment parameter operating point outside the first operating region and in a second operating region in a known safe operation zone, bounded by a known unsafe zone unavailable to the user. In the second operating region, some examples may restrict the step size of incremental adjustments requested by the user. Data may be collected for cloud-based analysis, for example, to facilitate discovery of more effective treatment protocols.