Abstract: A wound treatment system including a treatment chamber, a source of an aqueous antibiotic, a source of an oxygen-enriched gas, and a control system adapted to alternately surround a human limb with antibiotic mist and the oxygen enriched gas, which can be used to heal lesions such as foot ulcers. A method of treating lesions such as foot ulcers is also disclosed, that includes bathing the lesion in antibiotic mist and contacting it with oxygen gas.

Abstract: A wound treatment system including a treatment chamber, a source of an aqueous antibiotic, a source of an oxygen-enriched gas, and a control system adapted to alternately surround a human limb with antibiotic mist and the oxygen enriched gas, which can be used to heal lesions such as foot ulcers. A method of treating lesions such as foot ulcers is also disclosed, that includes bathing the lesion in antibiotic mist and contacting it with oxygen gas.

Abstract: A wound treatment system includes a vessel that is sized to receive a human limb. The vessel includes a chamber with an opening leading into the chamber. A removable liner lines the chamber of the vessel and forms a treatment zone. A humidifier in fluid communication with the treatment zone humidifies a solution of water and antibacterial agent. An oxygen source is in fluid communication with the treatment zone. A speaker is coupled to the vessel and emits low frequency sound waves to the chamber. A first array of light emitting diodes that emits ultraviolet light is coupled to the vessel near the opening of the treatment chamber. A second array of light emitting diodes that emits pulsed light into the chamber is coupled to the chamber. The system also includes a control panel.