A breathing arrangement includes a patient interface, at least one inlet conduit, and a headgear assembly. The patient interface includes a mouth covering assembly including a cushion structured to sealingly engage around exterior of a patient's mouth in use, a nozzle assembly including a pair of no
A breathing arrangement includes a patient interface, at least one inlet conduit, and a headgear assembly. The patient interface includes a mouth covering assembly including a cushion structured to sealingly engage around exterior of a patient's mouth in use, a nozzle assembly including a pair of nozzles structured to sealingly engage within nasal passages of a patient's nose in use, and an element connecting the mouth covering assembly and the nozzle assembly. The at least one inlet conduit is structured to deliver breathable gas into at least one of the mouth covering assembly and the nozzle assembly for breathing by the patient. The headgear assembly is removably connected to at least one of the mouth covering assembly and the nozzle assembly so as to maintain the mouth covering assembly and the nozzle assembly in a desired position on the patient's face.
대표청구항▼
What claimed is: 1. A breathing arrangement for delivering breathable gas to a patient, the breathing arrangement comprising: a substantially rigid frame; and a patient interface including a cushion structured to sealingly engage around an exterior of the patient's mouth in use, the cushion includi
What claimed is: 1. A breathing arrangement for delivering breathable gas to a patient, the breathing arrangement comprising: a substantially rigid frame; and a patient interface including a cushion structured to sealingly engage around an exterior of the patient's mouth in use, the cushion including a side wall structured to be removably attached to the frame, a rim extending away from the side wall, and a membrane provided to substantially surround the rim, and a pair of nozzles extending from the side wall and structured to sealingly engage within nasal passages of the patient's nose in use, wherein the patient interface does not seal an interior of the patient's mouth. 2. A breathing arrangement for delivering breathable gas to a patient, the breathing arrangement comprising: a substantially rigid frame; and a patient interface including a cushion structured to sealingly engage around an exterior of the patient's mouth in use, the cushion including a side wall structured to be removably attached to the frame, a rim extending away from the side wall, and a membrane provided to substantially surround the rim, and a pair of nozzles extending from the side wall and structured to sealingly engage within nasal passages of the patient's nose in use, wherein the patient interface does not include a mouthpiece. 3. A breathing arrangement for delivering breathable gas to a patient, the breathing arrangement comprising: a substantially rigid frame; and a patient interface including a cushion structured to sealingly engage around an exterior of the patient's mouth in use, the cushion including a side wall structured to be removably attached to the frame, a rim extending away from the side wall, and a membrane provided to substantially surround the rim, and a pair of nozzles extending from the side wall and structured to sealingly engage within nasal passages of the patient's nose in use, wherein each nozzle comprises a pillow. 4. A breathing arrangement that delivers breathable gas to a patient, the breathing arrangement comprising: a substantially rigid frame; and a patient interface including a cushion structured to sealingly engage around an exterior of a patient's mouth in use, the cushion including a side wall structured to be removably attached to the frame, a rim extending away from the side wall, and a membrane spaced from and substantially surrounding the rim, the membrane having an inner edge that extends further than an inner edge of the rim; and a pair of nozzles structured to sealingly engage within nasal passages of a patient's nose in use, wherein the nozzles are formed separately from the cushion and selectively mounted thereto, each nozzle including a base portion that is secured within a respective opening provided to the side wall of the cushion. 5. The breathing arrangement according to claim 4, wherein the frame includes upper and lower headgear connector portions on each side thereof. 6. The breathing arrangement according to claim 5, wherein the headgear assembly includes upper and lower straps that include connectors that interface with the upper and lower headgear connector portions. 7. The breathing arrangement according to claim 4, wherein the cushion defines an aperture having a generally oval shape. 8. The breathing arrangement according to claim 4, wherein the nozzles are angled with respect to the side wall. 9. The breathing arrangement according to claim 8, wherein the side wall includes inclined nozzle mounting portions adapted to support respective nozzles. 10. The breathing arrangement according to claim 4, wherein the membrane includes a thickness that is less than the rim. 11. The breathing arrangement according to claim 4, further comprising at least four vent holes provided on the frame above the elbow. 12. The breathing arrangement according to claim 4, wherein the height of each nozzle may be selectively adjusted with respect to the side wall of the cushion. 13. The breathing arrangement according to claim 12, wherein the base portion of each nozzle includes an annular recess that is secured within the respective opening. 14. The breathing arrangement according to claim 4, wherein the nozzles are individually interchangeable to accommodate different size patient nares. 15. The breathing arrangement according to claim 4, wherein the headgear assembly includes upper straps that extend over the patient's ears and lower straps that extend below the patient's ears. 16. The breathing arrangement according to claim 15, wherein the upper and lower straps include connectors that interface with upper and lower headgear connector portions provided on each side of the frame, the straps being length adjustable via a hook and loop fastening arrangement. 17. The breathing arrangement according to claim 4, wherein the headgear assembly includes a strap adapted to pass over the top of the patient's head. 18. The breathing arrangement according to claim 4, wherein the nozzles are directly coupled to one another. 19. The breathing arrangement according to claim 4, wherein the nozzles are provided as a single insert. 20. The breathing arrangement according to claim 4, further comprising an elbow provided to the frame and structured to deliver breathable gas into a chamber defined at least in part by the frame and the cushion. 21. The breathing arrangement according to claim 4, wherein the patient interface does not seal an interior of the patient's mouth. 22. The breathing arrangement according to claim 4, wherein the patient interface does not include a mouthpiece. 23. The breathing arrangement according to claim 4, wherein each nozzle comprises a pillow. 24. The breathing arrangement according to claim 23, wherein each pillow comprises a frusto-conical outer surface configured to sealingly engage a naris of the patient's nose. 25. The breathing arrangement according to claim 24, wherein the frusto-conical surface is arced 26. The breathing arrangement according to claim 4, wherein the rim is provided in regions of the cushion configured to engage cheeks of the patient. 27. The breathing arrangement according to claim 26, wherein the rim does not extend in a region of the cushion configured to engage an upper lip of the patient. 28. A breathing arrangement for use between a patient and a structure to deliver a breathable gas to the patient, the breathing arrangement comprising: a patient interface including: a mouth covering assembly including a rigid frame and a cushion provided to the frame, the cushion being structured to sealingly engage around an exterior of a patient's mouth in use, a nozzle assembly including a pair of nozzles structured to sealingly engage nares of a patient's nose in use, the nozzles comprising nasal prongs, nasal puffs, or nasal pillows, and a common breathing chamber in communication with the pair of nozzles and the mouth covering assembly; an elbow provided to the frame and structured to deliver breathable gas into the common chamber for breathing by the patient; and a headgear assembly removably connected to the frame so as to maintain the mouth covering assembly and the nozzle assembly in a desired position on the patient's face, wherein: the cushion includes a non-face-contacting portion and a face-contacting portion, the non-face-contacting portion being structured to be coupled to the rigid frame and the face-contacting portion having a resilient membrane structured to provide a seal, and the elbow includes an asphyxia valve. 29. The breathing arrangement according to claim 28, wherein the nozzles are formed separately from the cushion and selectively mounted thereto. 30. The breathing arrangement according to claim 29, wherein the frame includes upper and lower headgear connector portions on each side thereof. 31. The breathing arrangement according to claim 30, wherein the headgear assembly includes upper and lower straps that include connectors that interface with the upper and lower headgear connector portions. 32. The breathing arrangement according to claim 28, wherein the cushion defines an aperture having a generally oval shape. 33. The breathing arrangement according to claim 28, wherein the cushion includes a side wall supporting the nozzles. 34. The breathing arrangement according to claim 33, wherein the nozzles are angled with respect to the side wall. 35. The breathing arrangement according to claim 28, further comprising at least four vent holes provided on the frame above the elbow. 36. The breathing arrangement according to claim 28, wherein the nozzles are formed separately from the cushion and selectively mounted thereto, each nozzle including a base portion that is secured within a respective opening provided to a side wall of the cushion. 37. The breathing arrangement according to claim 36, wherein the height of the each nozzle may be selectively adjusted with respect to the side wall of the cushion. 38. The breathing arrangement according to claim 37, wherein the base portion of each nozzle includes an annular recess that is secured within the respective opening. 39. The breathing arrangement according to claim 38, wherein the nozzles are individually interchangeable to accommodate different size patient nares. 40. The breathing arrangement according to claim 39, wherein the headgear assembly includes upper straps that extend over the patient's ears and lower straps that extend below the patient's ears. 41. The breathing arrangement according to claim 40, wherein the upper and lower straps include connectors that interface with upper and lower headgear connector portions provided on each side of the frame, the straps being length adjustable via a hook and loop fastening arrangement. 42. The breathing arrangement according to claim 41, wherein the headgear assembly includes a strap that passes over the top of the patient's head. 43. The breathing arrangement according to claim 28, wherein the nozzles are directly coupled to one another. 44. The breathing arrangement according to claim 28, wherein the elbow includes a swivel elbow. 45. The breathing arrangement according to claim 28, wherein the mouth covering assembly does not seal an interior of the patient's mouth. 46. The breathing arrangement according to claim 28, wherein the mouth covering assembly does not include a mouthpiece. 47. The breathing arrangement according to claim 28, wherein each nozzle of the pair of nozzles comprises a nozzle portion and a conduit that connects the nozzle portion to the cushion. 48. The breathing arrangement according to claim 47, wherein the conduit comprises a gusset. 49. The breathing arrangement according to claim 47, wherein the nozzle portion comprises a pillow. 50. The breathing arrangement according to claim 49, wherein the pillow comprises a dual wall construction. 51. The breathing arrangement according to claim 28, wherein each nozzle comprises a pillow. 52. The breathing arrangement according to claim 28, wherein the cushion is structured to sealingly engage an area between an upper lip and the nose of the patient and an area between a lower lip and a chin of the patient. 53. The breathing arrangement according to claim 28, wherein the nozzle assembly is provided to an outer portion of the face contacting portion of the cushion. 54. A breathing arrangement for use between a patient and a structure to deliver a breathable gas to the patient, the breathing arrangement comprising: a patient interface including: a mouth covering assembly including a rigid frame and a cushion provided to the frame, the cushion being structured to sealingly engage around an exterior of a patient's mouth in use, a nozzle assembly including a pair of nozzles structured to sealingly engage within nasal passages of a patient's nose in use, and a common breathing chamber in communication with the pair of nozzles and the mouth covering assembly; an elbow provided to the frame and structured to deliver breathable gas into the common chamber for breathing by the patient; and a headgear assembly removably connected to the frame so as to maintain the mouth covering assembly and the nozzle assembly in a desired position on the patient's face, wherein: the cushion includes a non-face-contacting portion and a face-contacting portion, the non-face-contacting portion being structured to be coupled to the rigid frame and the face-contacting portion having a resilient membrane structured to support the nozzles and provide a seal around an exterior of a patient's mouth in use, and at least four vent holes are provided to the frame above the elbow, wherein the cushion is structured to sealingly engage an area between an upper lip and the nose of the patient and an area between a lower lip and a chin of the patient. 55. The breathing arrangement according to claim 54, further comprising clips structured to attach the headgear assembly to the frame. 56. The breathing arrangement according to claim 54, wherein the headgear assembly includes upper straps that extend over the patient's ears and lower straps that extend below the patient's ears. 57. The breathing arrangement according to claim 54, wherein the headgear assembly includes a strap that passes over the top of the patient's head. 58. The breathing arrangement according to claim 57, wherein the headgear assembly includes a strap that passes over the patient's ears. 59. The breathing arrangement according to claim 54, wherein the elbow includes a swivel elbow. 60. The breathing arrangement according to claim 54, wherein the mouth covering assembly does not seal an interior of the patient's mouth. 61. The breathing arrangement according to claim 54, wherein the mouth covering assembly does not include a mouthpiece. 62. The breathing arrangement according to claim 54, wherein each nozzle comprises a pillow. 63. The breathing arrangement according to claim 62, wherein the pillow comprises a dual wall construction, and an inner wall comprises at least one opening. 64. The breathing arrangement according to claim 54, wherein the nozzles comprise nasal prongs, nasal puffs, or nasal pillows. 65. The breathing arrangement according to claim 64, wherein the nozzles are provided on an outer portion of the fact contacting portion of the cushion.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (115)
Genger,Harald; Baecke,Martin; Schneider,Hartmut, Anti-snoring device, method for reducing snoring, and a nasal air cannula.
Dickerman Stair (10065 NE. Roberts Rd. Bainbridge Island WA 98110) Dickerman JoAnn A. (10065 NE. Roberts Rd. Bainbridge Island WA 98110), Breathing gas delivery system and holding clip member therefor.
Weinstein Allan (9205 Pegasus Ct. Potomac MD 20854) Weinstein Robert (62 Commonwealth Ave. Boston MA 02116), Device for delivering aerosol to the nasal membranes and method of use.
Berthon-Jones Michael (Leonay AUX) Calluaud Michel (Hunters Hill AUX) Lynch Christopher E. (Turramurra AUX) Hely Kenneth F. (Jannali AUX), Facial masks for assisted respiration or CPAP.
Berthon-Jones Michael,AUX ; Calluaud Michel,AUX ; Lynch Christopher Edward,AUX ; Hely Kenneth Frederick,AUX, Facial masks for assisted respiration or CPAP.
Kwok, Philip R.; Gunaratnam, Michael K.; Lithgow, Perry D.; Harrison, Jonathan P.; Liston, Jonathan L.; Matchett, Robert S.; Styles, Robert E., Forehead support for facial mask.
Snook James A. (Overland Park KS) Nelson Thomas W. (Lenexa KS) Wyble Marilyn S. (Overland Park KS) Trimble Russell L. (Overland Park KS), Inspiration oxygen saver.
Bowe Edwin A. (Columbia SC) Klein ; Jr. E. F. (Columbia SC) Boysen Philip G. (Gainesville FL), Method and apparatus for inhalation of treating gas and sampling of exhaled gas for quantitative analysis.
Robertson ; Jr. Charles H. (4200 Oxford Circle East Richmond VA 23221) Bradley Mark E. (32 Orchard Way South Rockville MD 20854), Method and apparatus for measuring pulmonary ventilation.
Nelson Joseph M. (2416 Wilson Ave. Bristol PA 19007), Mobile air supply cart having dual tanks and connections allowing simultaneous filling of tank and delivery of air to a.
Winthrop Neil (12A Amherst Ct. Royal Palm Beach FL 33411) Bayron Harry (7439 Pioneer Rd. West Palm Beach FL 33413), Nasal CPAP/Cannula and securement apparatus.
Marshall Marie F. (1330 Berggren Way Sacramento CA 95815) Kislow Nancy C. (1330 Berggren Way Sacramento CA 95815), Nasal cannula assembly with patient comfort pad.
Sullivan Colin E. (Birchgrove AUX) Bruderer Jakob W. (Kingsford AUX), Nasal mask for CPAP having ballooning/moulding seal with wearer\s nose and facial contours.
Trimble Russell L. (Overland Park KS) Dolida Roger J. (Kingwood TX) Rose Frederick R. (Overland Park KS) Metzler Philip M. (Overland Park KS), Nasal puff with adjustable sealing means.
Bir Phillip (R.R. 5 Box 78 LaGrange IN 46761), Oxygen cannulae for continuous administration of oxygen, and its associated mounting structure and method for mounting s.
Zalkin Daniel (7 ; rue de Tournebride 78120 Rambouillet) Isabey Daniel (19 ; rue Sandrin 94140 Alfortville) Brochard Laurent (15 ; avenue Jacques Jezequel 92170 Vanves) Harf Alain (23 avenue de la Da, Respiratory aid device.
Chu Raymond D. (Boulder CO) Rubner Anthony C. (Arvada CO) Fellinger Michael W. (Boulder CO), Servo control system for a reciprocating piston respirator.
Davidson, Aaron Samuel; Hitchcock, Robin Garth; Lynch, Susan Robyn; D'Souza, Errol Savio Alex; Eves, Matthew; Worboys, David John, Cushion and cushion to frame assembly mechanism for patient interface.
Davidson, Aaron Samuel; Hitchcock, Robin Garth; Lynch, Susan Robyn; D'Souza, Errol Savio Alex; Eves, Matthew; Worboys, David John, Cushion and cushion to frame assembly mechanism for patient interface.
Lithgow, Perry David; Frater, Robert Henry; Drew, Joanne Elizabeth; Guney, Memduh; Fu, Timothy Tsun-Fai; Kwok, Philip Rodney, Cushion for a respiratory mask assembly.
Kwok, Philip Rodney; Veliss, Lee James; Gunning, Philip John; Henry, Robert Edward; Peake, Gregory Robert; Gregory, Bruce David; Selvarajan, Karthikeyan; Solari, Clive; Brackenreg, Scott Douglas, Delivery of respiratory therapy.
Veliss, Lee James; Kwok, Philip Rodney; Gunning, Philip John; Henry, Robert Edward; Peake, Gregory Robert; Gregory, Bruce David; Solari, Clive; Brackenreg, Scott Douglas; Selvarajan, Karthikeyan, Delivery of respiratory therapy.
Veliss, Lee James; Kwok, Philip Rodney; Gunning, Philip John; Henry, Robert Edward; Peake, Gregory Robert; Gregory, Bruce David; Solari, Clive; Brackenreg, Scott Douglas; Selvarajan, Karthikeyan; Gilliver, David, Delivery of respiratory therapy.
Kwok, Philip Rodney; Veliss, Lee James; Gunning, Philip John; Henry, Robert Edward; Peake, Gregory Robert; Gregory, Bruce David; Selvarajan, Karthikeyan; Solari, Clive; Brackenreg, Scott Douglas; Gilliver, David, Delivery of respiratory therapy with foam interface.
Formica, Justin John; Romagnoli, Jose Ignacio; Kwok, Philip Rodney; Gibson, Joel Edward; Pidcock, David Anthony; Skipper, Christopher Scott; Gray, Stephen, Mask system.
Allum, Todd A.; Wondka, Anthony D.; Cipollone, Joseph; Freitag, Lutz, Methods and devices for providing mechanical ventilation with an open airway interface.
Wondka, Anthony D.; Bryan, Robert F.; Freitag, Lutz; McCall, Mark; Tran, Cuong Q., Methods and devices for sensing respiration and controlling ventilator functions.
Wondka, Anthony D.; Cipollone, Joseph; Kassanis, George A.; Allum, Todd W.; Brambilla, Enrico, Methods, systems and devices for humidifying a respiratory tract.
Wondka, Anthony D.; Cipollone, Joseph; Kassanis, George A.; Allum, Todd W.; Brambilla, Enrico, Methods, systems and devices for humidifying a respiratory tract.
Kapust, Gregory; Cipollone, Joseph; Wondka, Anthony D.; Gerber, Anthony; Allum, Todd; Eghbal, Darius; Aguirre, Joey; Kassanis, George A., Methods, systems and devices for non-invasive open ventilation for providing ventilation support.
Kapust, Gregory; Allum, Todd; Wondka, Anthony D.; Cipollone, Joseph; Gerber, Anthony; Eghbal, Darius; Aguirre, Joey; Kassanis, George A., Methods, systems and devices for non-invasive open ventilation for treating airway obstructions.
Kapust, Gregory; Allum, Todd; Wondka, Anthony D.; Cipollone, Joseph; Gerber, Anthony; Eghbal, Darius; Aguirre, Joey; Kassanis, George A., Methods, systems and devices for non-invasive open ventilation for treating airway obstructions.
Cipollone, Joseph; Kapust, Gregory; Allum, Todd; Wondka, Anthony D.; Eghbal, Darius; Aguirre, Joey; Gerber, Anthony, Methods, systems and devices for non-invasive open ventilation with gas delivery nozzles in free space.
Kapust, Gregory; Allum, Todd; Wondka, Anthony D.; Cipollone, Joseph; Aguirre, Joey; Eghbal, Darius; Gerber, Anthony; Freitag, Lutz, Methods, systems and devices for non-invasive open ventilation with gas delivery nozzles within an outer tube.
Cipollone, Joseph; Aguirre, Joey; Allum, Todd; Eghbal, Darius; Wondka, Anthony D., Methods, systems and devices for non-invasive ventilation including a non-sealing ventilation interface with a free space nozzle feature.
Allum, Todd; Aguirre, Joey; Cipollone, Joseph; Eghbal, Darius; Kapust, Gregory; Wondka, Anthony D., Methods, systems and devices for non-invasive ventilation including a non-sealing ventilation interface with an entrainment port and/or pressure feature.
Sher, Bruce; Hernandez, Shara; Collazo, Louis, System, method and ventilation interface for providing pressurized breathable gas to the mouth and nose separately.
Sher, Bruce; Hernandez, Shara; Collazo, Louis Javier; Chandran, Sanjay, System, method and ventilation interface for providing pressurized breathable gas to the mouth and nose separately.
Allum, Todd W.; Cipollone, Joseph; Kassanis, George A., Ventilation mask with integrated piloted exhalation valve and method of ventilating a patient using the same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.