An at-home sterilization and data acquisition and deposition device including a housing having an opening or series of openings for receiving up to six medical devices, a sterilization chamber formed within the housing that is lined with sterilizing radiation reflecting material, and several sources of sterilizing radiation disposed within the sterilization chamber for sufficient emission of radiation to achieve a significant log reduction of any pathogens present on the medical devices, and an RFID scanner and sensor suite configured into the housing that prevents sterilization of non-system components, radiation emission into the environment, and that can pair with a user's mobile device. An individual catheterization system includes an at-home sterilization and data acquisition device, a software-enabled analysis of data acquired through the system, a set of accessories to enable proper lubrication, cleaning, and radiation-based sterilization of medical devices, and a set of RFID-enabled medical devices designed to facilitate sterile emptying of the bladder by providing a tactile interface that prevents direct contact between the individual and the parts of the medical devices that enter the individual's body.

An at-home sterilization and data acquisition and deposition device including a housing having an opening or series of openings for receiving up to six medical devices, a sterilization chamber formed within the housing that is lined with sterilizing radiation reflecting material, and several sources of sterilizing radiation disposed within the sterilization chamber for sufficient emission of radiation to achieve a significant log reduction of any pathogens present on the medical devices, and an RFID scanner and sensor suite configured into the housing that prevents sterilization of non-system components, radiation emission into the environment, and that can pair with a user's mobile device. An individual catheterization system includes an at-home sterilization and data acquisition device, a software-enabled analysis of data acquired through the system, a set of accessories to enable proper lubrication, cleaning, and radiation-based sterilization of medical devices, and a set of RFID-enabled medical devices designed to facilitate sterile emptying of the bladder by providing a tactile interface that prevents direct contact between the individual and the parts of the medical devices that enter the individual's body.

A sanitary safety mask assembly for inhibiting the airborne transmission of infectious disease includes a mask that is wearable over a user's face. The mask is comprised of a microbe blocking material to inhibit airborne transmission of infectious diseases. A pair of straps is each coupled to the mask and each of the straps forms a closed loop for positioning around a respective one of the user's ears. An air valve is integrated into the mask, and the air valve is actuatable into a closed condition or an open condition. A pad is provided that is infused with a chemical aroma such that the pad releases the chemical aroma as a vapor. The pad is insertable into the air valve to release the vapor of the chemical aroma into the air that is breathed by the user.

A cleaning-disinfecting system may be utilized for one or both of cleaning and/or disinfecting medical devices. The cleaning-disinfecting system may be a portable battery-powered medical device washer-disinfector. The systems, devices, or methods may be specifically designed for use at home or other contexts and can wash and disinfect single or multiple medical devices simultaneously. The cleaning-disinfecting system may automatically reprocess medical devices placed within the cleaning-disinfecting system. The cleaning-disinfecting system may store medical devices after reprocessing without exposing the medical devices to potential contamination from the environment.

A cleaning-disinfecting system may be utilized for one or both of cleaning and/or disinfecting medical devices. The cleaning-disinfecting system may be a portable battery-powered medical device washer-disinfector. The systems, devices, or methods may be specifically designed for use at home or other contexts and can wash and disinfect single or multiple medical devices simultaneously. The cleaning-disinfecting system may automatically reprocess medical devices placed within the cleaning-disinfecting system. The cleaning-disinfecting system may store medical devices after reprocessing without exposing the medical devices to potential contamination from the environment.

The present invention discloses devices and methods for sterilizing protective facial masks and medical garments using microwave energy. Devices include: a fabric sterilization unit for serving as a housing; a water basin disposed inside the sterilization unit, the water basin configured for generating steam in the water basin when exposed to the microwave energy; a nozzle array plate disposed inside the sterilization unit above the water basin, the nozzle array plate configured for increasing the steam pressure by restricting steam escape; an array of steam-jet nozzles with angled upper sections configured for directing a flow of high-pressure, high-temperature steam jets exiting from the nozzles toward at least one fabric material; and material holders for individually positioning and supporting the material such that the steam jets impinge on the material for: sterilizing the material from microbial transmission and/or reproduction; and enabling reusability of the material as suitable Personal Protective Equipment (PPE).

The present invention discloses devices and methods for sterilizing protective facial masks and medical garments using microwave energy. Devices include: a fabric sterilization unit for serving as a housing; a water basin disposed inside the sterilization unit, the water basin configured for generating steam in the water basin when exposed to the microwave energy; a nozzle array plate disposed inside the sterilization unit above the water basin, the nozzle array plate configured for increasing the steam pressure by restricting steam escape; an array of steam-jet nozzles with angled upper sections configured for directing a flow of high-pressure, high-temperature steam jets exiting from the nozzles toward at least one fabric material; and material holders for individually positioning and supporting the material such that the steam jets impinge on the material for: sterilizing the material from microbial transmission and/or reproduction; and enabling reusability of the material as suitable Personal Protective Equipment (PPE).

The present invention discloses devices and methods for sterilizing protective facial masks and medical garments using microwave energy. Devices include: a fabric sterilization unit for serving as a housing; a water basin disposed inside the sterilization unit, the water basin configured for generating steam in the water basin when exposed to the microwave energy; a nozzle array plate disposed inside the sterilization unit above the water basin, the nozzle array plate configured for increasing the steam pressure by restricting steam escape; an array of steam-jet nozzles with angled upper sections configured for directing a flow of high-pressure, high-temperature steam jets exiting from the nozzles toward at least one fabric material; and material holders for individually positioning and supporting the material such that the steam jets impinge on the material for: sterilizing the material from microbial transmission and/or reproduction; and enabling reusability of the material as suitable Personal Protective Equipment (PPE).

The present invention discloses devices and methods for sterilizing protective facial masks and medical garments using microwave energy. Devices include: a fabric sterilization unit for serving as a housing; a water basin disposed inside the sterilization unit, the water basin configured for generating steam in the water basin when exposed to the microwave energy; a nozzle array plate disposed inside the sterilization unit above the water basin, the nozzle array plate configured for increasing the steam pressure by restricting steam escape; an array of steam-jet nozzles with angled upper sections configured for directing a flow of high-pressure, high-temperature steam jets exiting from the nozzles toward at least one fabric material; and material holders for individually positioning and supporting the material such that the steam jets impinge on the material for: sterilizing the material from microbial transmission and/or reproduction; and enabling reusability of the material as suitable Personal Protective Equipment (PPE).

A method and apparatus for pasteurizing and drying cannabis plant materials using a microwave-vacuum chamber. The pasteurizing and drying are carried out with no use of ionizing radiation and with rapid drying. Pasteurization is done at a temperature and for a time period that are sufficient to reduce microorganisms to an acceptably low level, while not significantly reducing the psychoactive compounds in the material. In the process, the pressure inside a vacuum chamber is reduced to a first pressure less than atmospheric. The material is maintained in the vacuum chamber at the first pressure at a pasteurizing temperature while irradiating the material with microwave radiation. The pressure is then reduced to a second pressure lower than the first pressure and the material is maintained in the vacuum chamber at the second pressure for a time period at a dehydrating temperature lower than the pasteurizing temperature while irradiating the material with microwave radiation. The pasteurizing and dehydrating steps can be done in the reverse order.