An air filtration system which pulls air into and through the air filtration system filter where the air is exposed to a UV lamp that provides UV light, the UV lamp surrounded by an internally polished aluminum shield or other device made of a material that reflects or enhances kill ability of micro-organisms when exposed to UV light.

A decontamination system for a lumen device is depicted. The decontamination system, in some embodiments, includes a lumen device container, a pump, and a sealed container with decontamination fluid. The lumen device container defines a lumen device receiving area. The pump is configured to reduce pressure within the lumen device receiving area. The sealed container is configured to release the decontamination fluid into the lumen device receiving area responsive to a pressure drop applied to the sealed container.

A method for preparing a bactericidal film on fiber cloth, comprising cleansing a reel of fiber cloth; placing the reel of fiber cloth into a vacuum chamber; supplying a DC power and a mid-frequency power; introducing argon gas to increase the chamber pressure to 0.3 Pa; position sputtering targets in the following order: silicon target, silicon carbide target, silver target, silicon carbide target, silver target, silicon carbide target and silver target, and then sputtering the targets simultaneously; wherein the silicon targets act as a bonding layer between the bactericidal film and the substrate; stopping the silicon targets, the silicon carbide targets and the silver targets first, and then turning off the argon gas; injecting air into the chamber until the pressure in the chamber and the atmospheric pressure are balanced.

A metabolic analyte sensor includes a substrate having an electrically conductive surface, an interference layer on the conductive surface, an enzyme layer on the interference layer, and a glucose limiting layer on the enzyme layer. The interference layer or the enzyme layer is configured such that the metabolic analyte sensor has an improved performance characteristic after sterilization compared to before sterilization. A packaged continuous metabolic monitor includes a sealed container; a metabolic sensor in the sealed container for insertion into a patient after the metabolic sensor is removed from the sealed container, the metabolic sensor comprising a conductive surface and an enzyme layer; electronic operating circuitry in the sealed container and coupled to the metabolic sensor; and a residue of a sterilizing gas in the metabolic sensor. The sealed container, the metabolic sensor and the electronic operating circuitry are sterilized together in the sealed container using the sterilizing gas.

The present invention involves methods and apparatus for destroying or inactivating pathogens in body cavities or on body surfaces using ultraviolet (UV) light of various wavelengths. More particularly, the invention comprises a portable apparatus containing an energy source, UV light emitter, insertion portion and controller. The energy source may be a battery and some embodiments may include a power converter. The UV emitter may be an LED, excimer lamp, laser, laser diode, fluorescent lamp, xenon flash lamp, arc lamp or gas discharge lamp. The insertion portion may be configured to enter certain body cavities and to transmit the UV light to target areas on body surfaces or within body cavities. The device may also incorporate light filters to block unwanted wavelengths. Some embodiments include a light sensor to detect visible and UV light and may measure the intensity and spectral characteristics of the UV emitter. In some embodiments, the invention includes a cap that covers the light guide, and optionally includes means for self-disinfecting the light guide and cap. In other embodiments, the invention includes a barrier element to prevent UV light from escaping from the body cavities. In some embodiments, the invention includes a securement mechanism to hold the insertion portion of the device within the body cavities. Specific applications include disinfection of all body cavities including nasal and oral cavities and auditory canals, as well as skin infections, lacerations, ulcers, lesions, surgical wounds, nails and tooth pockets. Certain embodiments disclose methods for inactivating certain pathogens in body cavities without destroying the normal microbiome of such cavities.

Disclosed is a system for mixing gases and liquids that includes a reactor vessel and an injection assembly. The reactor vessel including a liquid inlet which receives a predetermined amount of liquid and at least one gas inlet which receives a precise amount of a gas. The reactor vessel also includes means for creating cavitation or turbulence for mixing the gas and liquid to a desired gas concentration.

An apparatus for generating a powerful oxidative hydrogen peroxide foam and chemically stable application process comprises separate supply lines for respectively conveying liquid hydrogen peroxide and liquid foaming agent from separate storage receptacles, a mixer for mixing the liquid hydrogen peroxide and foaming agent once combined together, an air supply line for aerating the foamable liquid hydrogen peroxide mixture, and a foam generating device for mechanically agitating the aerated foamable liquid hydrogen peroxide mixture to form the hydrogen peroxide foam for subsequent discharge to a substrate. There is also disclosed a related method for generating the hydrogen peroxide foam.

A method reduces microbiological contamination in a closed chamber (6), formed by at least two interconnected components (1, 4), by introducing a germicidal medium in liquid form into the chamber (6). The chamber (6) is formed by and between a cap (4) and a head (2) of a filled container.

An ozone injector device comprising a housing having a water passageway through the housing, a corona tube disposed within the housing and configured to generate ozone, an ozone inlet fitting removably coupled to the water passageway, the ozone inlet being in fluid communication with the corona tube via a corona discharge tube, and a spring-loaded clearing piston positioned to move into and out of the water passageway directly opposite the ozone inlet. The clearing piston is biased upwards, towards to the ozone inlet, and configured to prevent flow of ozone into the water passageway.

An artificial propagation method of Sinocyclocheilus rhinocerous, comprising placing female and male parent fish in a sterilized culture container in which a black cave simulant is placed in advance, strictly controlling the environmental parameters of the parent fish culture. The method realizes natural spawning and sperm production of S. rhinocerous under artificial conditions without using oxytocin. There is no oxytocin used in the artificial propagation, thus not only obtaining a higher fertilization rate and incubating rate, but also reducing the aquaculture cost. The operation is simpler and faster. At the same time, different feeds are fed in different growth stages according to the different growth characteristics of each stage of S. rhinocerous fry, thereby increasing the survival rate and reducing the deformity rate of fries. Therefore, the method provided by the present disclosure realizes efficient artificial propagation method of S. rhinocerous.