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.

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.

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.

Methods for treating fluid overload in a subject comprise shifting fluids directly and non-invasively from an interstitial compartment of the subject to skin of the subject through controlled local sweating. Methods of the invention allow for removal of excess fluid from the interstitial compartment of the subject and treat fluid overload in the subject. Sweat stimulation systems comprise a chamber and first and second relative humidity sensors. The chamber is sized to fit around a body part of a subject, comprises an inlet and an outlet, and is configured such that air flows through the chamber from the inlet to the outlet. The first relative humidity sensor is operably located inside the inlet, and the second relative humidity sensor is operably located proximate the outlet.

Methods for treating fluid overload in a subject comprise shifting fluids directly and non-invasively from an interstitial compartment of the subject to skin of the subject through controlled local sweating. Methods of the invention allow for removal of excess fluid from the interstitial compartment of the subject and treat fluid overload in the subject. Sweat stimulation systems comprise a chamber and first and second relative humidity sensors. The chamber is sized to fit around a body part of a subject, comprises an inlet and an outlet, and is configured such that air flows through the chamber from the inlet to the outlet. The first relative humidity sensor is operably located inside the inlet, and the second relative humidity sensor is operably located proximate the outlet.

A nitric oxide repletion system in accordance with an embodiment of the present technology may disperse therapeutic constituents into a reservoir holding a body of liquid. The nitric oxide repletion system may comprise a reservoir, and a liquid circulation system for generating a fluid flow comprising a pump, a main liquid conduit, a venturi injector, an ultrafine bubble (UFB) generator, a main return, a nitric oxide dispensing system and a mineral dispensing system. The nitric oxide repletion system may further comprise a control panel. In some embodiments, the nitric oxide repletion system may further comprise a gas supply and a gas injector system for supplying a desired gas to the venturi injector or the UFB generator.

A nitric oxide repletion system in accordance with an embodiment of the present technology may disperse therapeutic constituents into a reservoir holding a body of liquid. The nitric oxide repletion system may comprise a reservoir, and a liquid circulation system for generating a fluid flow comprising a pump, a main liquid conduit, a venturi injector, an ultrafine bubble (UFB) generator, a main return, a nitric oxide dispensing system and a mineral dispensing system. The nitric oxide repletion system may further comprise a control panel. In some embodiments, the nitric oxide repletion system may further comprise a gas supply and a gas injector system for supplying a desired gas to the venturi injector or the UFB generator.

An oxygen distributor (1) positionable, in use, in a wound for supplying oxygen to the wound has an oxygen delivery area (17) for, in use, receiving a supply of oxygen. At least one tube (19A) extends from the oxygen delivery area, having a tube wall with an oxygen-permeable, liquid-impermeable section. Oxygen delivered to the oxygen delivery area can flow away from the oxygen delivery area along the, or each, tube.

An eye mask-type hydrogen supply device that is freely portable when carried by a user and with which it is possible to supply hydrogen to the areas around both eyes and the eyeballs while warming the eyelids, wherein the eye mask-type hydrogen supply device can be used continuously by replacing a hydrogen gas supply pack.

An eye mask-type hydrogen supply device that is freely portable when carried by a user and with which it is possible to supply hydrogen to the areas around both eyes and the eyeballs while warming the eyelids, wherein the eye mask-type hydrogen supply device can be used continuously by replacing a hydrogen gas supply pack.