The present invention relates to a device for applying energy to a human body. The device comprises a contact surface which defines an application region in which a human body can be placed in the effective range of the energy. The device further comprises at least one means for outputting the energy directed substantially onto the application region, and at least one means for generating a vapour mixture comprising at least one cannabinoid. The device according to the invention also comprises at least one means for guiding the vapour mixture, which has an effective dose of at least one cannabinoid, into the surroundings of the breathing orifices of a human body. The present invention further relates to a method for operating such a device, and to the use of vapour mixtures comprising at least one cannabinoid in designated devices.

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.

The present disclosure is applicable to the technical field of massage apparatuses, and provides a massage waist pillow. The waist pillow main body includes a sponge waist pillow main body, a massage unit and an air bag; a groove is reserved in an area of the sponge waist pillow main body close to the back of the waist of a user; a support plate is arranged in the groove; the air bag is arranged at a bottom of the groove and is mounted on the support plate; the massage unit is arranged in the groove and above the air bag; and the air bag is located in an interlayer between the massage unit and the support plate.

A gastrointestinal treatment system including a gastrointestinal capsule adapted to treat a subject following ingestion of the gastrointestinal capsule. The gastrointestinal capsule includes: (a) a housing; (b) a vibrating agitator, powered by the battery, the vibrating agitator adapted such that, in a first vibrating mode of operation, the housing exerts vibrations on an environment surrounding the capsule; (c) a power supply disposed within the housing and adapted to power the vibrating agitator; and (d) a controller adapted, in response to receipt of an activation input, to activate the vibrating agitator to operate in the first vibrating mode of operation at at least one predetermined time of day. The system and method may be used to treat an ailment of the gastrointestinal tract and/or to mitigate at least one symptom of jetlag in a subject travelling from an origin location to a destination location.

A massage system for a seat having a seat surface. At least one plane is defined for the seat, which plane is spanned by a longitudinal axis and a vertical axis of the seat. The at least one plane separates a first side and a second side of the seat from one another and intersects the seat. At least one massage element is arranged in at least one component of the seat. The at least one massage element has at least one active surface which is arranged on at least one of the two sides of the seat. The at least one active surface of the at least one massage element executes at least one stroke movement which is oriented parallel, downwards, and/or upwards at least partially in the direction of the at least one plane, relative to the seat surface

Methods are disclosed for measuring the size of body parts treated by a compression therapy device. Either the volume or circumference of the body part may be measure. The methods my include evacuating an inflatable compression sleeve to a known pressure, inserting the body part into the compression sleeve, inflating the sleeve to a pre-set condition, and then measuring one or more inflation related parameters. The pre-set conditions may include a predetermined pressure, volume, or size of the inflatable cells comprising the sleeve. The inflation related parameters may include the time to fill the cell to a pre-set pressure, the pressure attained after a pre-set time of inflation, or the measure volume of a cell after a pre-set amount of air is introduced into it. The methods may also include deflating the cells from the known inflation state to a second inflation state and measuring similar parameters.

Disclosed is a massage device according to one embodiment of the present disclosure. The massage device comprises: a body structure for forming an area to accommodate at least one portion of the body of a user and defining the outer shape of the massage device; a massage module for supplying a massage function to the at least one portion of the body of the user accommodated in the area in the body structure; an input unit for receiving an input of an arbitrary form from the user of the massage device; a display for displaying massage mode screen information which can be selected by the user of the massage device; and a control unit for controlling one more operations of the massage device on the basis of at least a part of the input of an arbitrary form received by the input unit. The massage mode screen information may include: an automatic mode graphic object linked to a function of performing an automatic mode consisting of a predetermined massage pattern and massage time; a manual mode graphic object linked to a function of performing a manual mode to allow a user of the massage device to configure a massage pattern and massage time; and a massage option mode graphic object linked to a function enabling selection of a massage option mode consisting of an additional function that provides convenience to a user of the massage device in addition to a massage operation that applies pressure to at least a part of the body of the user of the massage device.

The claimed subject matter relates novel method and apparatus for dulling non -injury associated, exercise induced pain using a new vibrational device. Provided is a wearable garment for reduction of muscle pain during intense physical exercise, comprising a garment adapted to conform to a shape of a portion of a human body; a plurality of interconnected vibrators and incorporated into the garment at intervals throughout the garment; a power source coupled to the plurality of vibrators; an instruction execution system; logic, executed on the instruction execution system and stored on a non -transitory storage medium, the logic comprising instructions for controlling the plurality of vibrators to deliver vibrations to the portion of the human body during exercise.

A high frequency chest wall oscillation therapy system includes an air pulse generator. The air pulse generator includes control circuitry and a fluid chamber carrying a fluid. A motor is configured to generate compression and expansion of the fluid in the fluid chamber to generate pressurized fluid. A pressure sensor detects a pressure of the pressurized fluid in the fluid chamber. A garment includes at least one fluid bladder defining a pressurizable chamber adapted to receive the pressurized fluid from the fluid chamber to provide a force of high frequency pressure oscillation to a patient's chest wall.

The non-invasive pulsatile circulatory support device intended to promote circulation of a blood volume in at least a part (Z) of a subject's body, the device including a flexible structure, arranged so as to be applied on at least the part of the subject's body, including a series of paired adjacent pouches extending along one another; and means for generating a physiologically synchronised pulsation fluidically connected to the flexible structure in a leak-tight manner and arranged so as to create pulsation waves in the series of pouches between the inner and outer layers, one of the paired adjacent pouches at least partially covering the other of the paired adjacent pouches (scaled structure).