Abstract: The present invention provides an applicator for directing a flow of medically pure, therapeutic gas onto a selected portion of the body of a patient. The applicator receives the flow of medically pure, therapeutic gas, such as oxygen, from a source, via a conduit coupled to the source and to the applicator. The applicator can be an adhesive bandage having an inlet for receiving the flow of gas, and one or more outlets for directing the flow of gas. The applicator can also be a mask, patch or similar article configured to be applied to the skin of a patient and connected to a source of medically pure, therapeutic gas via a conduit. The applicator can also having other therapeutic materials impregnated therein. The applicator can also be configured to deliver other therapeutic substances introduced into the flow of gas.

Abstract: Disclosed are various aspects of an oxygen generator and a method of oxygen generation. In certain embodiments, the oxygen generator comprises a reaction chamber, a humidifier, and a cap assembly.

Abstract: Various disclosures of an oxygen generator apparatus and methods of using such are disclosed.

Abstract: The present invention provides an applicator for directing a flow of medically pure, therapeutic gas onto a selected portion of the body of a patient. The applicator receives the flow of medically pure, therapeutic gas, such as oxygen, from a source, via a conduit coupled to the source and to the applicator. The applicator can be an adhesive bandage having an inlet for receiving the flow of gas, and one or more outlets for directing the flow of gas. The applicator can also be a mask, patch or similar article configured to be applied to the skin of a patient and connected to a source of medically pure, therapeutic gas via a conduit. The applicator can also having other therapeutic materials impregnated therein. The applicator can also be configured to deliver other therapeutic substances introduced into the flow of gas.

Abstract: An apparatus is provided to generate a gas by mixing chemicals with water. Typically, the production of gas, particularly oxygen, by combining water with powders and other dry chemicals has not been widely employed. There have existed a number of preexisting barriers such as undesirable flow rates and yields. However, by utilizing multiple reaction chambers the flow rates and yields can be more precisely tailored for a variety of situations that may call for particular flow rates and yields. Additionally, the use of the dry chemicals would allow for a long self-life allowing the apparatus to be particularly useful in emergency situations.

Abstract: A lightweight, portable, reusable oxygen generator is provided. The oxygen generator comprises a reaction chamber, a humidifier, and a cap assembly. Once assembled, oxygen of medical purity can be generated in the reaction chamber via a chemical reaction. Then, the medically pure oxygen is separated from any of the aqueous reaction mixture and ported via a built-in humidifier to a CPR mask through a tube attached to the oxygen generator.

Abstract: An apparatus is provided to generate a gas by mixing chemicals with water. Typically, the production of gas, particularly oxygen, by combining water with powders and other dry chemicals has not been widely employed. There have existed a number of preexisting barriers such as undesirable flow rates and yields. However, by utilizing multiple reaction chambers the flow rates and yields can be more precisely tailored for a variety of situations that may call for particular flow rates and yields. Additionally, the use of the dry chemicals would allow for a long self-life allowing the apparatus to be particularly useful in emergency situations.