Masks, Mask Systems, and Methods for Inhibiting Transmission of Droplets and Aerosols During a Medical Procedure

Organization Name

Entellus Medical, Inc.

Inventor(s)

Paul Lesch of Lino Lakes MN (US)

Aaron Pidde of Bloomington MN (US)

John Drontle of Buffalo MN (US)

Masks, Mask Systems, and Methods for Inhibiting Transmission of Droplets and Aerosols During a Medical Procedure - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240023648 titled 'Masks, Mask Systems, and Methods for Inhibiting Transmission of Droplets and Aerosols During a Medical Procedure

Simplified Explanation

The abstract describes a patent application for a mask that includes a containment wall, a gasket, a nasal access, an inlet, and an outlet. The containment wall has an inner surface, an outer surface, and a peripheral edge. The gasket is located at the peripheral edge and can conform to the wearer's face. The containment wall and gasket create a chamber between the inner surface and the wearer's face. The nasal access is aligned with the wearer's nose, and the inlet allows gas to enter the chamber while the outlet exhausts gas and aerosols exhaled by the wearer.

• The mask includes a containment wall, gasket, nasal access, inlet, and outlet.
• The containment wall has an inner surface, outer surface, and peripheral edge.
• The gasket is located at the peripheral edge and can conform to the wearer's face.
• The containment wall and gasket create a chamber between the inner surface and the wearer's face.
• The nasal access is aligned with the wearer's nose.
• The inlet allows gas to enter the chamber.
• The outlet exhausts gas and aerosols exhaled by the wearer.

Potential Applications:

• Medical settings, such as hospitals and clinics, to protect healthcare workers and patients from airborne contaminants.
• Industrial environments, where workers are exposed to hazardous gases or particles.
• Public transportation, to reduce the spread of respiratory diseases among passengers.
• Construction sites, to protect workers from dust and other airborne pollutants.

Problems Solved:

• Provides a secure and comfortable fit on the wearer's face, minimizing the risk of leakage.
• Allows for easy breathing while filtering out harmful particles and gases.
• Reduces the transmission of respiratory diseases by containing exhaled aerosols.
• Provides a reliable barrier against airborne contaminants.

Benefits:

• Improved protection for wearers against airborne contaminants.
• Enhanced comfort and fit, reducing the need for frequent adjustments.
• Efficient filtration of particles and gases.
• Minimized risk of transmission of respiratory diseases.
• Versatile design suitable for various applications and environments.

Original Abstract Submitted

in an example, a mask includes a containment wall, a gasket, a nasal access in the containment wall, an inlet, and an outlet. the containment wall includes an inner surface, an outer surface opposite the inner surface, and a peripheral edge at an interface between the inner surface and the outer surface. the gasket is at the peripheral edge of the containment wall. the gasket can conform to the face of a wearer. the containment wall and the gasket define a chamber between the inner surface of the containment wall and the face of the wearer when the mask is worn by the wearer. the nasal access opening is aligned with a nose of the wearer when the mask is worn by the wearer. the inlet can receive a gas into the chamber. the outlet can exhaust out of the chamber the gas and aerosols exhaled by the wearer.