IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0610594
(2003-07-02)
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발명자
/ 주소 |
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출원인 / 주소 |
- InnoMed Technologies, Inc.
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대리인 / 주소 |
Keady, Olds & Maier, PLLC
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인용정보 |
피인용 횟수 :
140 인용 특허 :
44 |
초록
▼
The ventilation interface for sleep apnea therapy interfaces a ventilation device to the patient's airways. The ventilation interface includes a pair of nasal inserts made from flexible, resilient silicone which are oval shaped in cross-section and slightly tapered from a base proximal the ventilati
The ventilation interface for sleep apnea therapy interfaces a ventilation device to the patient's airways. The ventilation interface includes a pair of nasal inserts made from flexible, resilient silicone which are oval shaped in cross-section and slightly tapered from a base proximal the ventilation supply to the distal tip end. A bead flange is disposed about the exterior of each insert at the distal end of the insert. A bleed port for release of exhaled air is defined through a conical vent projecting normally to the path of the incoming air flow, and continues through a nipple extending to the exterior of the air conduit. In one embodiment, a pair of nasal inserts are integral with a nasal cannula body, with bleed ports axially aligned with each insert. In another embodiment, each insert is independently connected to a separate, thin-walled, flexible supply line.
대표청구항
▼
1. A ventilation interface, comprising:(a) a nasal cannula, the cannula being a hollow, arcuate body and a semi-cylindrical bottom wall defining an air chamber, the body having cylindrical tubes at opposing ends of the body adapted for connection to ventilator supply tubes; and(b) a pair of hollow,
1. A ventilation interface, comprising:(a) a nasal cannula, the cannula being a hollow, arcuate body and a semi-cylindrical bottom wall defining an air chamber, the body having cylindrical tubes at opposing ends of the body adapted for connection to ventilator supply tubes; and(b) a pair of hollow, flexible, resilient nasal inserts, each nasal insert having a base end connected to a top wall of said nasal cannula and an open distal tip end, each nasal insert being oval in cross-section and defining a conduit forming an air passage in communication with said air chamber, each said nasal insert having a flange formed as a bead disposed about the distal tip end;(c) wherein each said nasal insert is capable of being compressed and inserted into a patient's naris to a patient's mucosal membrane and being retained therein solely said flange, by the resilience of said nasal insert, and by lateral pressure against the naris from ventilator air flow through each said nasal insert. 2. The ventilation interface according to claim 1, wherein said nasal cannula and each of said nasal inserts is made from silicone, said nasal inserts being formed integral with said nasal cannula. 3. The ventilation interface according to claim 1, wherein each said nasal insert has an internal diameter of 0.75 inches on a major axis and 0.5 inches on a minor axis. 4. The ventilation interface according to claim 1, wherein each said nasal insert has a wall thickness between about {fraction (1/32)} and {fraction (1/20)} inches. 5. The ventilation interface according to claim 1, wherein each said nasal insert has a softness measuring between about 15 and 40 on a type A Shore durometer. 6. The ventilation interface according to claim 1, further comprising:(a) a pair of barb connectors; and(b) a pair of supply tubes, said supply tubes being connected to the cylindrical tubes at opposite ends of said nasal cannula by said barb connectors. 7. The ventilation interface according to claim 6, further comprising a Y-connector having a first end adapted for connection to a ventilator supply hose, and a second end having a pair of ports connected to said supply tubes. 8. The ventilation interface according to claim 1, wherein the top wall of said nasal cannula has a notch defined therein parallel to and disposed between said nasal inserts for increasing flexibility of said nasal cannula in order to bend said nasal cannula to conform to a patient's nostril configuration. 9. The ventilation interface according to claim 1, further comprising a pair of bleeder ports defined through the bottom wall of said nasal cannula, each said bleeder port being axially aligned with a separate one of said nasal inserts and further including an upper nipple projecting into said air chamber and a lower nipple depending from the bottom wall of said nasal cannula, the bleeder 7 port being defined through said upper and lower nipples. 10. A ventilation interface, comprising:a nasal cannula, the cannula being a hollow, arcuate body and a semi-cylindrical bottom wall defining an air chamber, the body having cylindrical tubes at opposing ends of the body adapted for connection to ventilator supply tubes; anda pair of hollow, flexible, resilient nasal inserts, each nasal insert having a base end connected to a top wall of said nasal cannula and an open distal tip end, each nasal insert being oval in cross-section and defining a conduit forming an air passage in communication with said air chamber, each said nasal insert having a flange formed as a bead disposed about the distal tip end;wherein each said nasal insert can be adapted to be inserted into a nails and being retained therein by at least one of said flange, the resilience of said nasal insert, and by lateral pressure against the nails from ventilator air flow through each said nasal insert. 11. The ventilation interface according to claim 10, wherein said nasal cannula and each of said nasal inserts is made from silicone, said nasal ins erts being formed integral with said nasal cannula. 12. The ventilation interface according to claim 10, wherein each said nasal insert has an internal diameter of greater than 0.5 inches on a major axis and less than 0.5 inches on a minor axis. 13. The ventilation interface according to claim 10, wherein each said nasal insert has a wall thickness between about {fraction (1/32)} and {fraction (1/20)} inches. 14. The ventilation interface according to claim 10, wherein each said nasal insert has a softness measuring between about 15 and 40 on a type A Shore durometer. 15. The ventilation interface according to claim 10, further comprising:a pair of barb connectors; anda pair of supply tubes, said supply tubes being connected to the cylindrical tubes at opposite ends of said nasal cannula by said barb connectors. 16. The ventilation interface according to claim 15, further comprising a Y-connector having a first end adapted for connection to a ventilator supply hose, and a second end having a pair of ports connected to said supply tubes. 17. The ventilation interface according to claim 10, wherein the top wall of said nasal cannula has a notch defined therein parallel to and disposed between said nasal inserts for increasing flexibility of said nasal cannula in order to bend said nasal cannula to conform to a patient's nostril configuration. 18. The ventilation interface according to claim 10, further comprising a pair of bleeder ports defined through the bottom wall of said nasal cannula, each said bleeder port being axially aligned with a separate one of said nasal inserts and further including an upper nipple projecting into said air chamber and a lower nipple depending from the bottom wall of said nasal cannula, the bleeder port being defined through said upper and lower nipples.
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