A combination therapy pad that includes a first layer and a second layer operatively coupled to the first layer. A fiber-optic array is disposed between the first layer and the second layer. A third layer is operatively coupled to the first layer. The third layer includes a vacuum tube in fluid communication with a vacuum source and a therapeutic fluid tube in fluid communication with a therapeutic fluid source. The third layer provides at least one of vacuum therapy and therapeutic fluid treatment to a wound area.

A drug delivery system for injecting a medicament includes a housing defining a cavity, a container received within the cavity and configured to receive a medicament, the container comprising a stopper configured to move within the container and a closure, a drive assembly received within the cavity and configured to drive the stopper within the container, a needle actuator assembly received within the cavity and comprising a needle configured to be placed in fluid communication with the container, the needle moveable from a first position and a second position spaced from the first position, and a sterilizer received within the cavity and configured to sterilize at least one of the container, the drive assembly, and the needle actuator assembly upon activation of the drug delivery system.

An irradiation device includes a processing container including a first chamber, a second chamber and at least one narrow passage in fluid communication at a first end with the first chamber and at a second end with the second chamber, and a rotatable table on which the processing container is mounted, the table having a first state wherein the first chamber is disposed at a higher elevation than the second chamber, and a second state wherein the second chamber is disposed at a higher elevation than the first chamber. The irradiation device also includes ultraviolet (UV) light source disposed proximate to the narrow passage and configured to irradiate fluid passing through the narrow passage.

A disinfection system is provided. The disinfection system may utilize ultraviolet light and/or ozone for disinfection of infected tissue. For example the system may involve an endoscopic ultraviolet light to disinfect lung tissue. In another aspect, the system may involve a ventilator which provides ozone in small doses to disinfect the tissue. Combinations and variations are further disclosed.

This disclosure relates to a system and method for disinfecting a conduit, such as a conduit for use in a continuous positive airway pressure (CPAP) system. An example system according to this disclosure includes a sheath a probe magnetically suspended within the sheath. The probe includes an ultraviolet light source configured to emit ultraviolet light. Further, the probe is spaced-apart from an inner dimension of the sheath to allow a conduit to pass between the probe and the sheath.

A patient airway dome including an adjustable frame having a hinge such that the hinge allows the frame to adjust between an erected position to create an airway dome and a collapsed position that allows the frame to lay flat, a dome covering located over the retractable frame, a plurality of ultraviolet lights operatively connected to the retractable frame, a plurality of superior glove access portals located on the dome covering, a plurality of inferior glove access portals located on the dome covering, an anesthesia circuit tube operatively connected to the dome covering, and an anesthesia machine connector operatively connected to the anesthesia circuit tube.

A method of and composition for treating a patient having Mycobacterium avium complex (MAC), and in one embodiment Mycobacterium avium subspecies paratuberculosis (MAP), causing one or more diseases, an embodiment of the method including administering to the patient an effective amount of one or more antibiotics and administering to the patient an effective amount of ultraviolet blood irradiation (UVBI) treatments, and an embodiment of the composition including an effective amount of one or more antibiotics and an effective amount of UVBI treated blood of the patient.

One aspect of the present disclosure is directed to a device for providing light to the surface of a subject, comprising an array of a plurality of light emitting modules, wherein the plurality comprises four light emitting modules, each module of the plurality is flexibly connected to another module of the plurality, and two of the modules of the plurality comprise a polygonal perimeter having 4, 5, or 6 major sides, a light source, and a longest apex-to-apex dimension for a module of 5-50 millimeters, and, optionally, a non-adherent member configured to be adjacent to the subject.

A device comprising a housing having a handle end and a treatment end. The treatment end is configured to provide an antimicrobial treatment and a heat treatment. The treatment end comprises an applicator having an applicator surface for providing at least the heat treatment. The device includes a heat generation unit configured to heat the applicator surface in use, a source of antimicrobial agent, and a control unit operatively connected to at least the heat generation unit for controlling the heat generation unit. The device can be a hand-held device and used to apply topical treatment to a treatment area of a subject.

A system for imploding leukemia cells of a patient includes (a) a first vessel for containing a volume of blood received from the patient, and (b) drive circuitry cooperatively coupled with at least one transducer to produce ultrasound energy that spatially decoheres and disperses throughout the volume, to implode the leukemia cells throughout the volume via absorption of the ultrasound energy by the leukemia cells. The transducer may be an immersible transducer configured to be immersed in the blood. The system may include a second vessel for containing a liquid, within which the ultrasound energy is decohered and dispersed and from which at least a portion of the ultrasound energy is transmitted to the first vessel to implode the leukemia cells.