Abstract: An air treatment system includes a lower cowling configured to be suspended from a ceiling, the lower cowling defining an interior lower cowling surface and configured to be disposable radially outward from and around a fan configured to induce airflow. Further, the air treatment system includes an upper cowling configured to be disposed vertically above the lower cowling and define an interior upper cowling surface. A gap between the interior upper cowling surface and the interior lower cowling surface forms a fluid passageway comprising an intake opening, an exhaust opening, and a chamber. The fluid passageway is contoured to receive airflow from the fan via the intake opening and direct the airflow through the chamber to exit the exhaust opening. Moreover, the air treatment system includes at least one air treatment device secured within the chamber, the air treatment device configured to treat air passing through the chamber.

Abstract: A pathogen disinfection apparatus includes an ultraviolet (UV) light source configured to emit UV light toward a target location to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light and a surface of the target location. The UV light has a mean peak wavelength between 200-280 nanometers. Further, the pathogen disinfection apparatus includes a distance sensor configured to determine a distance between the UV light source and the target location. Moreover, the pathogen disinfection apparatus includes dosimetry circuitry configured to monitor a dose of the UV light at the target location in real-time based at least in part on an intensity of the UV light and the distance between the UV light source and the target location.

Abstract: An air treatment system includes a lower cowling configured to be suspended from a ceiling, the lower cowling defining an interior lower cowling surface and configured to be disposable radially outward from and around a fan configured to induce airflow. Further, the air treatment system includes an upper cowling configured to be disposed vertically above the lower cowling and define an interior upper cowling surface. A gap between the interior upper cowling surface and the interior lower cowling surface forms a fluid passageway comprising an intake opening, an exhaust opening, and a chamber. The fluid passageway is contoured to receive airflow from the fan via the intake opening and direct the airflow through the chamber to exit the exhaust opening. Moreover, the air treatment system includes at least one air treatment device secured within the chamber, the air treatment device configured to treat air passing through the chamber.

Abstract: A pathogen disinfection apparatus includes an ultraviolet (UV) light source configured to emit UV light toward a target location to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light and a surface of the target location. The UV light has a mean peak wavelength between 200-280 nanometers. Further, the pathogen disinfection apparatus includes a distance sensor configured to determine a distance between the UV light source and the target location. Moreover, the pathogen disinfection apparatus includes dosimetry circuitry configured to monitor a dose of the UV light at the target location in real-time based at least in part on an intensity of the UV light and the distance between the UV light source and the target location.

Abstract: A pathogen disinfection system includes a light array, a proximity sensor, and a controller configured to send and receive signals to the light array and proximity sensor. The light array comprises a plurality of ultraviolet (UV) light emitters and a plurality of visible light emitters. Each of the UV and visible light emitter is configured to produce an individual light beam having an individual volume between the emitter and an individual target surface area located at a given distance away from the emitter. Further, each UV light emitter is configured to emit ultraviolet light having a mean peak wavelength between 200-280 nanometer to at least partially inactivate pathogens exposed to the emitted UV light. Moreover, the controller is configured to send a first signal to the array to activate the array and a second signal to the array to deactivate the array.

Abstract: A pathogen disinfection system for an indoor space includes a plurality of modular units, each modular unit having a frame and a plurality of panels. A fan module includes a fan configured to induce airflow from an indoor space into the fan module and direct the airflow toward at least one fan module air outlet. An ultraviolet (UV) disinfection module includes at least one UV light source configured to emit UV light to at least partially inactivate pathogens in the airflow. Additionally, the UV disinfection module is configured to receive the airflow at a UV disinfection module air inlet and direct the airflow toward a UV disinfection module air outlet. Moreover, the return module is configured to receive the airflow at a return module air inlet and direct the airflow toward a return module air outlet and into another portion of the indoor space.

Abstract: An accessory for a mobile communication device, the mobile communication device having an exterior housing and a processor. The accessory includes a pathogen disinfection apparatus mountable to the exterior housing of the mobile communication device. The pathogen disinfection apparatus includes an ultraviolet (UV) light source configured to emit UV light having a mean peak wavelength between 200-280 nanometers toward a target location to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light and a surface of the target location. Further, the accessory includes an application for downloading to the mobile communication device. The application includes processor executable instructions configured to generate signals to control the pathogen disinfection apparatus, including to operate the UV light source.

Abstract: A pathogen disinfection apparatus includes an ultraviolet (UV) light source configured to emit UV light toward a target location to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light and a surface of the target location. The UV light has a mean peak wavelength between 200-280 nanometers. Further, the pathogen disinfection apparatus includes a distance sensor configured to determine a distance between the UV light source and the target location. Moreover, the pathogen disinfection apparatus includes dosimetry circuitry configured to monitor a dose of the UV light at the target location in real-time based at least in part on an intensity of the UV light and the distance between the UV light source and the target location.

Abstract: A mobile communication device includes a pathogen disinfection apparatus including an ultraviolet (UV) light source configured to emit UV light having a mean peak wavelength between 200-280 nanometers toward a target location to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light and a surface of the target location. Further, the mobile communication device includes an application including processor executable instructions configured to generate signals to control the pathogen disinfection apparatus, including to operate the UV light source.

Abstract: An air treatment system includes a lower cowling configured to be suspended from a ceiling, the lower cowling defining an interior lower cowling surface and configured to be disposable radially outward from and around a fan configured to induce airflow. Further, the air treatment system includes an upper cowling configured to be disposed vertically above the lower cowling and define an interior upper cowling surface. A gap between the interior upper cowling surface and the interior lower cowling surface forms a fluid passageway comprising an intake opening, an exhaust opening, and a chamber. The fluid passageway is contoured to receive airflow from the fan via the intake opening and direct the airflow through the chamber to exit the exhaust opening. Moreover, the air treatment system includes at least one air treatment device secured within the chamber, the air treatment device configured to treat air passing through the chamber.

Abstract: An air treatment system includes a lower cowling configured to be suspended from a ceiling, the lower cowling defining an interior lower cowling surface and configured to be disposable radially outward from and around a fan configured to induce airflow. Further, the air treatment system includes an upper cowling configured to be disposed vertically above the lower cowling and define an interior upper cowling surface. A gap between the interior upper cowling surface and the interior lower cowling surface forms a fluid passageway comprising an intake opening, an exhaust opening, and a chamber. The fluid passageway is contoured to receive airflow from the fan via the intake opening and direct the airflow through the chamber to exit the exhaust opening. Moreover, the air treatment system includes at least one air treatment device secured within the chamber, the air treatment device configured to treat air passing through the chamber.

Abstract: A pathogen disinfection fan system includes a fan having blades or other motive device to induce airflow in a particular direction and a motor coupled to the fan. The motor configured for rotating the fan blades or motive device to induce the airflow in the particular direction. The system further includes a ceiling mount and a connecting member connecting the ceiling mount to the fan and motor. Further, the system includes a pathogen disinfection apparatus mounted to the connecting member. The apparatus including at least one ultraviolet (UV) light source configured to emit UV light having a mean peak wavelength between 200-280 nanometer in a target volume, in a substantially horizontal path substantially normal to the direction of the induced airflow to at least partially inactivate pathogens exposed to the emitted UV light in the path of the emitted light in the target volume.

Abstract: A pathogen disinfection system includes a base and a pathogen disinfection apparatus having a UV light source disposed in the base and configured to emit UV light to at least partially inactivate pathogens exposed to the emitted UV light. Further, the system includes a beam shaping mechanism configured to shape a path of the emitted UV light so that the UV light is confined to a selected width, a first motion sensor configured to detect when an object or human being has moved into the UV light path and send a first signal in response to detecting such a movement, a proximity sensor configured to detect when a human being is present and send a second signal in response to detecting such a presence, and a controller to activate the UV light source after receiving the first signal and deactivating the UV light source after receiving the second signal.

Abstract: The present invention relates to a tablet dosage form comprising an immediate release component comprising cetirizine and an extended release component comprising pseudoephedrine.