The invention pertains to the field of wearable air purifiers; specifically, filtration focused on air breathed in via the nose. A nasal air filtration apparatus comprised layered compressible inner seal, filtration material, internal malleable skeleton to allow for custom shaping, optional outer gasket, and attachment device along midline. Apparatus is flat in profile with exception of attachment device until end user modification, and has one straight side with the other side being a long arch resulting in a roughly semicircular appearance. Apparatus attaches on midline of nose to a nasal dilation device, straight side oriented towards users' upper lip, arched side along edges of nostrils. Apparatus is then molded by user to form an airtight seal around users' nose, providing filtration of inspired air.

The invention pertains to the field of wearable air purifiers; specifically, filtration focused on air breathed in via the nose. A nasal air filtration apparatus comprised layered compressible inner seal, filtration material, internal malleable skeleton to allow for custom shaping, optional outer gasket, and attachment device along midline. Apparatus is flat in profile with exception of attachment device until end user modification, and has one straight side with the other side being a long arch resulting in a roughly semicircular appearance. Apparatus attaches on midline of nose to a nasal dilation device, straight side oriented towards users' upper lip, arched side along edges of nostrils. Apparatus is then molded by user to form an airtight seal around users' nose, providing filtration of inspired air.

Body-worn air-treatment devices comprise a body that is configured to be selectively coupled proximate to a respiratory tract inlet of a living individual, and a pathogen-deactivating mechanism that is supported by the body. Methods comprise deactivating pathogens proximate to a respiratory tract inlet of a living individual.

A personal protection device includes one or two elongate members for engaging into the nostrils of the nose of a user. The elongate members each includes gridded ports for allowing air to pass through the elongate member when breathing in and for allowing air to exit via the elongate member when breathing out. Sensors are placed in the air flow pathway to detect pathogen presence, and the primary air filter is positioned in the elongate member. In yet other embodiments, a disposable version is disclosed. The eyewear can also be used as part of an extended reality system, and when game playing, particularized scents can be rendered to the nose to enhance the gaming experience. In another aspect, systems and methods protect against pathogen by sampling an environment of a travel path with a plurality of pathogen detectors along the travel path to detect a presence of one or more pathogens, wherein at least one detector includes a nano-sensor with receptacles to bind to the pathogens and wherein the nano-sensor changes resistivity, inductance or capacitance upon pathogen binding; directing air towards said pathogen detectors; contact tracing a user mobile device having a mobile identification (ID) carried by each user, wherein the mobile device comprises a memory storing mobile IDs of all devices within a predetermined radius of the user mobile device; and performing deep learning with a neural network receiving data from the pathogen detectors and to the user mobile device to detect a presence of one or more pathogens.

A personal protection device includes one or two elongate members for engaging into the nostrils of the nose of a user. The elongate members each includes gridded ports for allowing air to pass through the elongate member when breathing in and for allowing air to exit via the elongate member when breathing out. Sensors are placed in the air flow pathway to detect pathogen presence, and the primary air filter is positioned in the elongate member. In yet other embodiments, a disposable version is disclosed. The eyewear can also be used as part of an extended reality system, and when game playing, particularized scents can be rendered to the nose to enhance the gaming experience. In another aspect, systems and methods protect against pathogen by sampling an environment of a travel path with a plurality of pathogen detectors along the travel path to detect a presence of one or more pathogens, wherein at least one detector includes a nano-sensor with receptacles to bind to the pathogens and wherein the nano-sensor changes resistivity, inductance or capacitance upon pathogen binding; directing air towards said pathogen detectors; contact tracing a user mobile device having a mobile identification (ID) carried by each user, wherein the mobile device comprises a memory storing mobile IDs of all devices within a predetermined radius of the user mobile device; and performing deep learning with a neural network receiving data from the pathogen detectors and to the user mobile device to detect a presence of one or more pathogens.

A personal protection device includes one or two elongate members for engaging into the nostrils of the nose of a user. The elongate members each includes gridded ports for allowing air to pass through the elongate member when breathing in and for allowing air to exit via the elongate member when breathing out. Sensors are placed in the air flow pathway to detect pathogen presence, and the primary air filter is positioned in the elongate member. In yet other embodiments, a disposable version is disclosed. The eyewear can also be used as part of an extended reality system, and when game playing, particularized scents can be rendered to the nose to enhance the gaming experience. In another aspect, systems and methods protect against pathogen by sampling an environment of a travel path with a plurality of pathogen detectors along the travel path to detect a presence of one or more pathogens, wherein at least one detector includes a nano-sensor with receptacles to bind to the pathogens and wherein the nano-sensor changes resistivity, inductance or capacitance upon pathogen binding; directing air towards said pathogen detectors; contact tracing a user mobile device having a mobile identification (ID) carried by each user, wherein the mobile device comprises a memory storing mobile IDs of all devices within a predetermined radius of the user mobile device; and performing deep learning with a neural network receiving data from the pathogen detectors and to the user mobile device to detect a presence of one or more pathogens.

The present invention relates to an individualized air filtration device comprising a generally inverted U-shaped nose ring and filter combination that fits partially within the nostrils of a user to prevent bacteria, microbes, particulate matter and viruses from entering the body through the user's nasal passages. The nose filtering device is preferably comprised of a nylon mesh material with an acetate fibrous material on at least the backside of the filter so that a hydrogen peroxide or other protective solution can be applied to the device before inserting the filter into the user's nostrils. The solution is preferably comprised of a hydrogen peroxide, but may also include a fragrance, medicine, therapeutic agent, camphor, eucalyptus oil, and a menthol.

The present invention relates to an individualized air filtration device comprising a generally inverted U-shaped nose ring and filter combination that fits partially within the nostrils of a user to prevent bacteria, microbes, particulate matter and viruses from entering the body through the user's nasal passages. The nose filtering device is preferably comprised of a nylon mesh material with an acetate fibrous material on at least the backside of the filter so that a hydrogen peroxide or other protective solution can be applied to the device before inserting the filter into the user's nostrils. The solution is preferably comprised of a hydrogen peroxide, but may also include a fragrance, medicine, therapeutic agent, camphor, eucalyptus oil, and a menthol.

A Personal Protective Equipment that fits in the Nose of living species, especially human beings, this nose mask is designed for ease of use, comfort to the user, and most of all to filter harmful viruses, bacteria, other filterable microbes, dust particles, and prevent them from entering into their nostrils, thereby protecting the user and preventing them from contracting diseases such as but not limited to COVID-19 (largely known as the novel corona virus during the years 2019 to 2021 pandemic time period), while they are at work, outside, and/or indoors, to ensure that they lead a healthy life. Additionally this Personal Protective Nose Mask can be used for betterment of health by patients, under a Physician's care/treatment who are prescribed inhalable medicines.

A Personal Protective Equipment that fits in the Nose of living species, especially human beings, this nose mask is designed for ease of use, comfort to the user, and most of all to filter harmful viruses, bacteria, other filterable microbes, dust particles, and prevent them from entering into their nostrils, thereby protecting the user and preventing them from contracting diseases such as but not limited to COVID-19 (largely known as the novel corona virus during the years 2019 to 2021 pandemic time period), while they are at work, outside, and/or indoors, to ensure that they lead a healthy life. Additionally this Personal Protective Nose Mask can be used for betterment of health by patients, under a Physician's care/treatment who are prescribed inhalable medicines.