The present invention provides an apparatus for producing medical foam for wound care or hair stimulation. The apparatus includes a foam generation unit having a fluid reservoir, a fluid delivery line and a foam generation tip. The apparatus also includes a compressed gas unit having at least one container of compressed gas, a source of electric power, and a gas regulator valve. A supply of wound care or hair stimulating solution is communicably connected to the foam generation tip such that when the apparatus is operated medical foam is produced by the foam generator tip.

Embodiments of the present disclosure provide systems and devices for delivering gaseous Nitrous Oxide (gNO) under therapeutic parameters to reduce infection in a subject. Certain embodiments include devices and systems for delivering pressurized gNO to reduce bioburden and promote healing in the wounds of subjects having various disease conditions, including skin and soft tissue infections (SSTIs) and osteomyelitis. In some embodiments, the present disclosure provides portable wound healing devices for delivering pressurized gNO to the site of a wound to treat various disease conditions in a subject.

A wound-care system includes a first pump fluidly coupled to an oxygen source. An oxygen concentrator is fluidly coupled to the first pump. A humidification system is fluidly coupled to the oxygen concentrator. A wound dressing is fluidly coupled to the humidification system and to an exudate chamber. A negative-pressure tube fluidly is coupled to the exudate chamber. A first valve is disposed between the first pump and the oxygen concentrator. A second valve is disposed between the oxygen concentrator and the wound dressing. A third valve is disposed in the negative-pressure tube. Selective activation of the first pump, the first valve, the second valve, and the third valve facilitates delivery of at least one of individual, sequential, or simultaneous negative-pressure treatment and oxygen-rich fluid treatment to the wound via the wound dressing.

The present invention provides an apparatus for producing medical foam for wound care or hair stimulation. The apparatus includes a foam generation unit having a fluid reservoir, a fluid delivery line and a foam generation tip. The apparatus also includes a compressed gas unit having at least one container of compressed gas, a source of electric power, and a gas regulator valve. A supply of wound care or hair stimulating solution is communicably connected to the foam generation tip such that when the apparatus is operated medical foam is produced by the foam generator tip.

An apparatus for cleansing wounds with means for stressing the wound bed and optionally tissue surrounding the wound, in which irrigant fluid from a reservoir connected to a conformable wound dressing and wound exudate from the dressing are recirculated by a devise for moving fluid through a flow path which passes through the dressing and a means for fluid cleansing and back to the dressing. The cleansing means (which may be a single-phase, e.g. micro-filtration, system or a two-phase, e.g. dialytic system) removes materials deleterious to wound healing, and the cleansed fluid, still containing materials that are beneficial in promoting wound healing, is returned to the wound bed. The means for stressing the wound bed and optionally tissue surrounding the wound promotes wound healing. The dressing and a method of treatment using the apparatus.

A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.

The current invention discloses a wound treatment device having a wound covering member, an applicator unit, and two lumens. The wound covering member may cover a wound. Sealing mechanism of the wound covering member may be used to form a sealed wound enclosure over and around the wound. The two lumens, including a negative pressure lumen and an oxygen lumen, connect the wound enclosure to the applicator unit. The applicator may be used to apply alternating and cycling negative pressure and oxygen to the wound enclosure, facilitating the wound healing process. The levels and durations of negative pressure, as well as the purity, amount, and durations of oxygen, may be adjusted by the applicator unit.

An ozone therapeutic treatment apparatus utilizes magnetism to move the ozone to or across a treatment condition. The treatment condition may be an internal treatment condition and the ozone is implanted into the body by injection or by absorption through the skin. Ozone is diamagnetic, because all of its electrons are paired. The ozone implanted in the body is drawn through the body, across a treatment condition, toward a magnet. The magnet may be a permanent magnet that is placed on or near the skin or may be an electromagnet, wherein the magnetic field is varied as a function of time. The ozone therapeutic treatment apparatus may be used to treat a wide range of conditions including scar tissue in joints, tumors and herpes.

The invention provides an apparatus for the generation and administration of a micro-nanobubble solution to a tissue, a method for the treatment of a tissue with a solution of micro-nanobubbles, and a kit for the treatment of tissue with micro-nanobubbles.

Devices and method for warm gas therapy is provided. Device comprises a gas warmer assembly to warm a first gas to a temperature in a first temperature range to obtain warm first gas. The device comprises a first delivery unit that can deliver the warm first gas to a main treatment chamber which encloses a sub-treatment chamber to retain heat therein. A second delivery unit can receive a therapeutic gas from a gas supply. The second delivery unit comprises a first portion and a second portion. The first portion substantially passes through the first delivery unit and therapeutic gas in the first portion is warmed by the warm first gas. The second portion delivers the warm therapeutic gas to a sub-treatment chamber. The sub-treatment chamber encloses a body part of a patient.