A self-sterilizing, face mask, respirator, open or enclosed face shield employs germicidal, far UV-C light safe for direct human exposure, mitigating risk of acquisition or transmission of respiratory pathogens, such as COVID 19. Device attachments or special lenses direct far UV-C light into the respiratory chamber and/or reservoir areas of infection including nasal, oropharyngeal or ocular areas to reduce or eliminate pathogens, serving also as a treatment modality. In a preferred embodiment the face shield has a removable front section, which can be exchanged or replaced with sections that include various functional attributes while maintaining germicidal protections and avoiding need to remove PPE during these activities including consumption of liquids, oral medications or food, as well as providing antimicrobial absorbent sneeze or cough guard or rhinorrhea secretion absorption, or a communication device to address communication deficiencies caused by respiratory protection barriers.

A topical cleansing composition for stimulating the production of antimicrobial peptides on the skin is disclosed. The topical cleansing composition includes an active ingredient comprising one or more of a natural extract and a polypeptide; one or more surfactants; and water. The topical cleansing composition increases the concentration of antimicrobial peptides on skin, as compared to an otherwise identical topical composition without the active ingredient.

A cap sterilizer (50) includes an infeed chamber (52), a sterilant atomizing chamber (53), and an air rinse chamber (54). At least the infeed chamber (52) and the air rinse chamber (54) are exhausted. Both an exhaust pressure (E2) in the infeed chamber (52) and an exhaust pressure (E4) in the air rinse chamber are higher than an exhaust pressure (E3) in the sterilant atomizing chamber (53), or the sterilant atomizing chamber (53) is not exhausted.

The present invention is directed to a non-incinerating medical waste treatment device and methods of use. The device comprising two to four thermal chambers with total independent operation and controls. The desktop mountable device contains electronic, electromechanical, and made-up mechanical assemblies. The intended application of the device and method is for sterilizing medical waste such as bacterial and viral biological contaminated red bag and/or sharps in order to facilitate safe handling and disposal.

A self-sterilizing implement with a manual contact surface and an ultraviolet light source at opposite sides thereof. The implement may be constructed to facilitate any number of manually directed objectives, from opening a door, pushing a grocery cart, turning on a light switch, or operating a computer, for example. So long as the implement is prone to manipulation, particularly by multiple users, it may serve a self-sterilizing germicidal role in preventing the propagation of pathogens from one user to the next by way of the noted contact surface. Among other aspects, this is facilitated by the unique architecture of the implement and the relationship of the ultraviolet light source positioning relative the contact surface to be treated.

The present invention refers to an atmospheric pressure plasma jet device for disinfecting and coating a dental implant. The device comprises a gas supply and a nozzle for providing a gas to a tip of the nozzle wherein the nozzle is a single electrode nozzle having a first electrode. The device comprises further a precursor supply for providing a coating precursor to the nozzle, a second electrode and a connector for electronically connecting the second electrode with the dental implant. In another aspect the present invention refers to a system for disinfecting and coating.

A method for removing or preventing a microbial growth, biofilm, biomass and/or mineral deposit on a hard surface inside an SO.sub.2 scrubber is disclosed. In particular, biocide compositions may be dosed in pulse or continuously for the reduction and prevention of biofilms on the hard surfaces inside an SO.sub.2 scrubber. A biocide composition disclosed here uses one or more non-oxidizing biocides, especially a mixture of one or more quaternary ammonium compounds and one or more other biocides.

A cap sterilizer (50) includes an infeed chamber (52), a sterilant atomizing chamber (53), and an air rinse chamber (54). At least the infeed chamber (52) and the air rinse chamber (54) are exhausted. Both an exhaust pressure (E2) in the infeed chamber (52) and an exhaust pressure (E4) in the air rinse chamber are higher than an exhaust pressure (E3) in the sterilant atomizing chamber (53), or the sterilant atomizing chamber (53) is not exhausted.

A coated optical fiber coupled to a light source for inactivating pathogens on surfaces or in water. The coated optical fiber includes a substantially UV-transparent core, particles optically coupled to the core, and a substantially UV-transparent polymer coating in contact with the particles. Coating the optical fiber includes optically coupling particles to a surface of an optical fiber core to yield a functionalized core, coating the functionalized core with a polymerizable material, and polymerizing the polymerizerable material to yield a substantially UV-transparent polymer coating on the functionalized core.

An approach for the treatment of surfaces in public places with ultraviolet light is disclosed. In one embodiment, a disinfection illuminator having ultraviolet radiation sources can irradiate a number of contact surfaces. A control unit can control the ultraviolet irradiation of the contact surfaces. The disinfection illuminator is suitable for a wide variety of devices that are used by the general public. Gas station pumps, door knobs, key pads, and bathrooms are illustrative of examples of some devices and places having commonly-used surfaces that can be treated by the disinfection illuminator.