Medicine delivery interface for delivery of therapeutic aerosols or gases, including at least one hollow body having at least one nasal aperture defined therein at least one nasal insert tube associated with each nasal aperture of the hollow body is capable of being inserted into a nostril. The inte
Medicine delivery interface for delivery of therapeutic aerosols or gases, including at least one hollow body having at least one nasal aperture defined therein at least one nasal insert tube associated with each nasal aperture of the hollow body is capable of being inserted into a nostril. The interface also may include at least one exhaust aperture having at least one exhaust valve configured to exhaust exhaled gases and configured to block inflow of air through the exhaust aperture and at least one intake aperture.
대표청구항▼
What is claimed is: 1. An interface for delivery of therapeutic aerosols or gases, comprising: a plurality of hollow bodies having at least one nasal aperture defined therein and an exhaust flange extending away from each hollow body; at least one nasal insert tube associated with the at least one
What is claimed is: 1. An interface for delivery of therapeutic aerosols or gases, comprising: a plurality of hollow bodies having at least one nasal aperture defined therein and an exhaust flange extending away from each hollow body; at least one nasal insert tube associated with the at least one nasal aperture of each hollow body is capable of being inserted into a nostril; at least one exhaust aperture defined on each hollow body and in flow communication with the exhaust flange, the at least one exhaust aperture is configured to exhaust exhaled gases through the exhaust flange; at least one exhaust valve coupled to the exhaust flange; at least one flow restrictor coupled to the exhaust flange; and at least one intake aperture. 2. The interface in claim 1, wherein the at least one exhaust aperture has at least one exhaust valve configured to exhaust exhaled gases and configured to block inflow of air through the exhaust aperture. 3. The interface of claim 2 further comprising a flange on the nasal insert tube configured to form a seal. 4. The interface of claim 2 further comprising a skirt on the nasal insert tube configured to form a seal. 5. The interface in claim 1, wherein each nasal insert tube is configured to form a seal with the nostril. 6. The interface in claim 1, wherein the at least one exhaust valve is a one-way valve. 7. The interface of claim 1, wherein the at least one intake aperture includes a one-way valve, wherein the one-way valve is capable of preventing air from passing through said intake aperture upon exhalation and wherein the one-way valve is capable of allowing air, therapeutic mists, vapors, aerosols or gases to pass through said intake aperture. 8. The interface of claim 1, further comprising two hollow bodies each having one nasal aperture, wherein the two hollow bodies are connected to one another but do not communicate with each other. 9. The interface of claim 1, further comprising two hollow bodies each with one nasal aperture, wherein the two hollow bodies are connected to one another and communicate with each other by way of a hollow tube body. 10. The interface of claim 1, wherein the at least one intake aperture is coupled to a reservoir configured to dispense therapeutic mists, vapors, aerosols or gases. 11. The interface of claim 1, wherein at least one of a nebulizer, vapor generator and inhaled therapeutic substance delivery device is disposed in close proximity to the intake aperture. 12. The interface of claim 1, further comprising: a filter proximate to the intake aperture. 13. The interface of claim 1, further comprising: a port configured to allow at least one of therapeutic mists, vapors, aerosols and gases to be delivered to the nasal interface. 14. The interface of claim 1, wherein the least one intake aperture is coupled by tubing to a nebulizer. 15. The interface of claim 1, wherein the at least one flow restrictor is adjustable. 16. A method for delivery of therapeutic aerosols or gases, comprising: providing a plurality of hollow bodies having at least one nasal aperture defined therein, at least one exhaust flange extending away from each hollow body and at least one exhaust aperture defined on each hollow body and in flow communication with the at least one exhaust flange, wherein the at least one flange includes at least one exhaust valve and at least one flow restrictor coupled thereto; inserting at least one nasal insert tube associated with each nasal aperture of each hollow body into a nostril; delivering at least one of therapeutic mists, vapors, aerosols and gases to a nasal interface; and expelling exhaled air through at least one of the exhaust valve and flow restrictor of each exhaust aperture. 17. The method of claim 16 wherein the inserting step the at least one nasal tube further comprises: sealing each nasal insert tube configured to form a seal with the nostril. 18. The method of claim 16, further comprising: expiring air through at least one exhaust valve which is a one-way valve. 19. The method of claim 16, wherein delivering at least one of therapeutic mists, vapors, aerosols and gases to the nasal interface further comprises: preventing air from passing through said intake aperture upon said expelling of exhaled air and wherein a one-way valve is capable of allowing air, therapeutic mists, vapors, aerosols or gases to pass through said intake aperture. 20. The method of claim 16, wherein providing the plurality of hollow bodies further comprises: providing two interfaces each having one nasal aperture, wherein the two interfaces are connected to one another but do not communicate airflow with each other. 21. The method of claim 16, wherein providing the plurality of hollow bodies further comprises: providing two interfaces each with one nasal aperture, wherein the two interfaces connect to one another and communicate with each other by way of a hollow body. 22. The method of claim 16, further comprising: connecting the at least one intake aperture to a reservoir configured to dispense at least one of therapeutic mists, vapors, aerosols or gases. 23. The method of claim 16, further comprising: providing at least one of a nebulizer, vapor generator and inhaled therapeutic substance delivery device which is disposed in close proximity to the intake aperture and operably coupled to provide therapeutic delivery. 24. The method of claim 16, further comprising: filtering the therapeutic air prior to delivery to the intake aperture. 25. The method of claim 16, wherein the expelled air is at least one of therapeutic mists, vapors, aerosols and gases. 26. An interface for delivery of therapeutic aerosols or gases, comprising: means for delivery of aerosols through at least one hollow body having at least one nasal aperture defined therein; means for sealing at least one nasal insert tube configured to form a seal with a nostril, wherein the at least one nasal insert tube is associated with each nasal aperture of said hollow body; means for exhausting exhaled gas; means for blocking inflow of air through the means for exhausting exhaled gas; means for restricting flow of exhaled gas through the means for exhausting exhaled gas: and means for intake of at least one of therapeutic aerosol or gases; at least one exhaust aperture defined on each hollow body and in flow communication with an exhaust flange, the at least one exhaust aperture is configured to exhaust exhaled gases through the exhaust flange; at least one exhaust valve coupled to the exhaust flange; at least one flow restrictor coupled to the exhaust flange; and at least one intake aperture. 27. An interface for delivery of therapeutic aerosols or gases, comprising: at least one hollow body having at least one nasal aperture defined therein; at least one nasal insert tube associated with the at least one nasal aperture of said hollow body is capable of being inserted into a nostril; at least one integrated adjustable exhaust aperture defined on each hollow body and in flow communication with an exhaust flange, the at least one exhaust aperture is configured to exhaust exhaled gases through the exhaust flange; at least one adjustable exhaust valve comprising flexible membranes configured to exhaust exhaled gases and configured to prevent inhalation of air through the /exhaust aperture coupled to the exhaust flange; at least one flow restrictor coupled to the exhaust flange; and at least one intake aperture. 28. An adjustable flow restrictor for delivery of therapeutic aerosols or gases comprising: a cylindrical body, at least one connection flange on the cylindrical body, and at least one vent, wherein the flow restrictor is coupled to an interface comprising: at least one hollow body having at least one nasal aperture defined therein; at least one nasal insert tube associated with the at least one nasal aperture of the hollow body is capable of being inserted into a nostril; at least one exhaust aperture defined on each hollow body and in flow communication with an exhaust flange, the at least one exhaust aperture is configured to exhaust exhaled gases through the exhaust flange; at least one exhaust valve coupled to the exhaust flange; at least one flow restrictor coupled to the exhaust flange; and at least one intake aperture. 29. The interface in claim 28, further comprising: a flow adjustment flange connected to the cylindrical body. 30. The interface in claim 28, wherein the at least one vent is substantially rectangular. 31. The interface in claim 28, wherein the at least one vent is substantially circular.
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