Respiratory mask assembly

Information

  • Patent Grant
  • 9227033
  • Patent Number
    9,227,033
  • Date Filed
    Tuesday, February 14, 2012
    12 years ago
  • Date Issued
    Tuesday, January 5, 2016
    8 years ago
Abstract
A respiratory mask assembly for delivering breathable gas to a patient includes a mask frame having a first cooperating interlocking structure; a mask cushion provided to the frame; a cushion clip to retain the mask cushion on the mask frame, the cushion clip having a second cooperating interlocking structure and being selectively attachable to and detachable from the mask frame, the first and second cooperating interlocking structures interlocking to secure the cushion clip on the mask frame; and an elbow joint provided to the frame and having a swivel tube adapted to connect to a gas delivery conduit. The first and second cooperating interlocking structures include a tab-recess arrangement in which a plurality of tabs are engageable within respective recesses.
Description
FIELD OF THE TECHNOLOGY

The present technology relates to improvements in patient gas delivery apparatus of the kind used in the analysis and treatment of respiratory disorders. The invention will be described with particular reference to patient gas delivery apparatus used in the treatment of respiratory disorders such as Obstructive Sleep Apnea (OSA) but it is not intended to be limited thereto.


BACKGROUND OF THE TECHNOLOGY

Patient gas delivery apparatus of the kind having a mask worn by a patient and a gas delivery conduit attached to the mask are commonly used in the analysis and treatment of respiratory disorders. The gas conduit delivers a gas under pressure to the patient. It is necessary that the gas conduit is detachable from the mask to facilitate cleaning.


Patient gas delivery apparatus typically includes at a minimum, a gas delivery conduit and a nose or full face mask. In some cases it is a clinical requirement that additional components be included, such as means for CO2 washout, for example, vents, anti-asphyxia valves and the like. In some cases, these additional components must be assembled in between the gas delivery conduit and the mask. Problems with prior art assemblies include: (a) they may be inadvertently assembled without the additional components; (b) they may be incorrectly assembled, for example, incorrectly aligned; (c) during the course of treatment, the patient may inadvertently remove or dismantle the assembly and incorrectly reassemble it.


Further, known mask cushions are usually molded from a relatively soft, resilient, elastic material and they are shaped during manufacture to match the facial contours of an average intended wearer. However, a problem with the known types of masks is that, because individuals vary so much from the average, the masks must be forced against their inherent resiliency to deform and so adapt to the shapes of the users in order to avoid gas leakage. This requires that the masks be secured firmly by retaining straps or harnesses in order to prevent air leakage.


Flow generators are typically utilized to deliver a breathable gas (i.e., air) to a patient wearing the mask. In CPAP treatment, gas is delivered to the patient's airways at about 2-30 cm H2O above atmospheric pressure. The flow generator is generally connected to flexible tubing which is secured to the mask worn by the patient. If the flow generator's operation is interrupted as a result of a power outage or other mechanical or electrical failure, there may be a significant build up of carbon dioxide in the mask as the patient's exhaled air is not washed out of outlet vents which are usually contained in the mask. This may present a health problem to the patient.


There have been numerous patents which have addressed some sort of safety valve for gas or air delivery masks. An example of such a patent is U.S. Pat. No. 5,438,981. This patent discloses a counter balanced, rigid valve element which depending on the gas flow, either covers an opening to the ambient air or covers the gas flow airway such that the air or breathing gas is forced out into the ambient air opening However, this system suffers from being a fairly complicated and expensive system whose correct operation relies on a counter balanced moving part moving relative to its housing. Further, if any condensation from the air gets on or around the balanced valve element, the operation of this valve element can be compromised. This valve is also difficult to clean.


Applicant's International Application PCT/AU97/00849 discloses a valve having a single valve element. However, whilst being simpler than preceding valves of this type, the valve shown in PCT/AU97/00849 still relies on the use of a rigid valve element moving relative to its housing and biased by magnets.


SUMMARY OF THE INVENTION

One aspect of the present invention is directed towards solving or ameliorating one or more of these problems. One aspect of the invention will be described with reference to a full face mask, though other forms of mask and additional components may be used.


According to one example, a respiratory mask assembly for delivering breathable gas to a patient comprises a mask frame having a first cooperating interlocking structure; a mask cushion provided to the frame and adapted to form a seal on the patient's face; a cushion clip to retain the mask cushion on the mask frame, the cushion clip having a second cooperating interlocking structure and being selectively attachable to and detachable from the mask frame, the first and second cooperating interlocking structures interlocking with one another in a cooperating relationship to secure the cushion clip on the mask frame; and an elbow joint provided to the frame and having a swivel tube adapted to connect to a gas delivery conduit, wherein the first and second cooperating interlocking structures are provided to at least a bottom and left and right sides of the mask frame and cushion clip, and include a tab-recess arrangement in which a plurality of tabs are engageable within respective recesses in interlocking relation to secure the clip to the frame.


According to another example, a respiratory mask assembly for delivering breathable gas to a patient comprises a mask frame having a first cooperating interlocking structure; a cushion clip having a second cooperating interlocking structure and being selectively attachable to and detachable from the mask frame, the first and second cooperating interlocking structures interlocking with one another in a cooperating relationship to secure the cushion clip on the mask frame; and a mask cushion adapted to form a seal on the patient's face and having an outer peripheral portion positioned between the mask frame and the cushion clip so as to seal the mask cushion on the mask frame.


According to yet another example, a respiratory mask assembly for delivering breathable gas to a patient comprises a mask frame; a mask cushion adapted to form a seal with the patient's face; and a clip member engaged with the mask cushion and structured to interlock with the mask frame, wherein the mask frame and the clip member include a tab-recess arrangement in which a plurality of securing tabs engage with a corresponding one of a plurality of recesses so as to retain the mask cushion on the mask frame, the tab-recess arrangement provided to at least a bottom and left and right sides of the mask frame and clip member.


These and other aspects of the invention will be described in or apparent from the following detailed description.





BRIEF DESCRIPTION OF THE DRAWINGS

Further examples of the present technology will now be described by way of example only with reference to the accompanying drawings in which:



FIG. 1 is a perspective view showing the mask, anti-asphyxia valve housing and conduit connection assembly;



FIG. 2 is an exploded view of the anti-asphyxia valve and conduit connection assembly shown in FIG. 1; and



FIG. 3 is an exploded view of the mask assembly shown in FIG. 1.





DETAILED DESCRIPTION

In FIG. 1 a mask frame is shown generally at 10. The mask is designed to be worn on a patient's face and is secured by means of straps (not shown) received by attachment points 18.


A conduit end assembly is shown generally at 20, including an elbow part 26 having at one end thereof a combined vent/connector piece 28. The elbow and vent/connector piece together form a housing for an anti-asphyxia valve (as will be further discussed) or other internal components (not shown). At the other end of the elbow is a detachable swivel tube 29 for connection of the gas delivery conduit (not shown).


The mask 10 includes a circular aperture 12 sized to receive a mating portion 22 of the vent/connector piece 28. The mating portion 22 has an annular groove 23 formed therein that receives a locking means 30 in the form of a C-shaped clip attached after mating to the mask. The clip 30 has an outside diameter greater than the width of the aperture 12 and an inner diameter adapted to ensure a snug fit within the annular groove 23. The clip 30 is resilient and can expand sufficiently to allow the clip to be fitted into and removed from the groove 23. As shown in FIG. 1, the clip 30 is located onto the mating portion 22 on the inside of the mask 10. In this position, the clip 30 is inaccessible while the mask is being worn by a patient. Once the mating portion 22 of the vent/connector piece 28 has been inserted through the aperture 12 and the locking clip placed in the annular groove, the conduit end assembly 20 and the mask 10 cannot be separated without first removing the mask from the patient.


An exploded view of one embodiment of the anti-asphyxia valve and conduit connector assembly is shown in FIG. 2.


As illustrated in FIG. 2, the end of the elbow 26 adjacent the mask 10 is fitted with an anti-asphyxia valve arrangement that provides an air passage to the patient in the event of failure of the gas delivery apparatus, consisting of a valve membrane 27 fitted into the end of elbow 26 and vents 31 in the vent/connector piece 28. During proper operation of the gas delivery system, the valve membrane remains in the orientation shown in FIG. 2, closing off the vents 31. In the event of a drop in pressure below a predetermined level, the valve membrane 27 flips to a reverse orientation, opening the vents 31. The construction and operation of the anti-asphyxia valve is described in more detail in the Applicant's Australian Patent Application No. 65527/99, the contents of which are incorporated herein by reference and described herein.


Resilient detents 42 on the elbow 26 pass through and engage behind slot-forming formations 44 in the vent/connector piece 28 to provide releasable engagement of the two parts.


The vent/connector piece has a collar 47 that abuts a corresponding surface of the mask 10 to limit the distance that the vent/connector piece can be inserted into the mask aperture 12 (FIG. 1). The corresponding surface is an annulus 50 having a protruding rim 51 the outer circumference of which preferably engages the inner surface of the detents 42 on insertion of the mating portion 22 into the aperture 12. This engagement prevents the detents from being pushed radially inwards sufficiently for the detents to disengage from behind the slot-forming formations 44, thus preventing the elbow 26 and vent/connector piece 28 from separating whilst still attached to the mask frame 11, for example during patient treatment. The result of this is that the anti-asphyxia valve arrangement cannot be disassembled without first removing the elbow and vent/connector piece assembly from the mask. However, once disconnected from the mask, the assembly may be readily separated for cleaning and then reassembled.


The other, distal end of elbow 26 has an enlarged diameter portion which receives the swivel tube 29, onto which a flexible gas conduit (not shown) may be fitted. The swivel tube 29 has a pair of flanges 56 and 57 defining an annular groove 58 therebetween. The end of swivel tube 29 is inserted into the elbow 26 until the end flange 57 abuts an inner surface (not shown) within elbow 26. In this position the annular groove 58 is at least partially aligned with an annular groove 61 in the exterior of the elbow, which receives a swivel clip 41.


The swivel clip 41 has an inner diameter only slightly greater than the diameter of the groove 61, to ensure a snug fit within the groove. The clip 41 is resilient to permit sufficient expansion for attachment and removal of the clip from the groove. The groove 61 has slots 59 which receive lugs 62 on the clip. These lugs rotatably engage in the groove 58 between flanges 56 and 57 of the swivel tube. The swivel tube arrangement thus acts as a rotatable coupling between the conduit and the elbow whilst allowing quick attachment and removal of the gas conduit from the elbow regardless of whether the assembly is attached to the mask at the time.


As shown in FIG. 3, the mask includes a mask frame 11, cushion 13 and cushion clip 14. The cushion is received on a rib 15 extending around the periphery of the mask frame 11. The cushion is held to the rib by the cushion clip 14. The mask frame includes attachment points 18 that receive straps (not shown) for attaching the mask to the patient, an aperture 16 for receiving an air vent 17, and measurement ports 19.


The mask frame 11 includes a plurality of recesses 11.1 that provide a first cooperating interlocking structure and the cushion clip 14 includes a plurality of tabs 14.1 that is equal to a number of recesses in the mask frame 11 and provides a second cooperating interlocking structure. The plurality of tabs 14.1 engage a respective recess 11.1 to secure the cushion clip 14 on the mask frame 11.


The mask assembly, in the example shown in FIG. 3, is a full face mask. As shown in FIG. 3, the frame includes top and bottom recesses, two left side recesses and two right side recesses (not shown). The cushion clip 14 includes corresponding top and bottom tabs 14.1 as well as two right side tabs (both shown) and two left side tabs (only one shown).


The mask cushion includes a groove 13.1 extending around the periphery thereof and the groove of the cushion receives the rib 15 of frame 11.


The cushion 13 includes an outwardly extending portion 13.2 that provides the groove 13.1 on one side thereof An opposite side of the outwardly engaging portion 13.2 provides a shoulder 13.3 that engages a flange 14.2 on the cushion clip 14 to retain the cushion 13 on frame 11.


The cushion includes a rearwardly extending portion designated by reference number 13.4. The cushion serves to seal the mask assembly on the patient's face, and is structured to space the mask frame 11 from the patient's face.


The frame 11 includes a first side 11.2 structured to accommodate cushion 13, and a second side 11.3. The cushion clip 14 and frame 11 are configured to cooperate with one another such that the cushion clip 14 is selectively attachable to the frame 11 in a first direction 11.4 defined generally from the first side 11.2 to the second side 11.3 of the frame, to thereby secure the cushion 13 between the cushion clip 14 and the frame 11.


The cushion clip 14 and frame 11 are configured to cooperate with one another such that the cushion clip is selectively detachable from the frame 11 in a second direction 11.5, opposite to the first direction 11.4, defined generally from the second side 11.3 to the first side 11.2 of the frame 11, to thereby allow removal of the cushion 13 from frame 11.


Each tab 14.1 is resiliently movable in a third direction 14.3 that is substantially transverse to the first and second directions 11.4 and 11.5. Tab portions 14.1 move in the direction indicated by arrows 14.3 when the tab portions are snapped or flexed into place within recesses 11.1, and when they are removed therefrom.


While particular embodiments of this invention have been described, it will be evident to those skilled in the art that the present invention may be embodied in other specific forms without departing from the essential characteristics thereof The present embodiments and examples are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims
  • 1. A patient interface for delivering breathable gas to a patient, comprising: a frame having a first cooperating interlocking structure;a cushion provided to the frame and adapted to form a seal on the patient's face;a cushion clip to retain the cushion on the frame, the cushion clip having a second cooperating interlocking structure and being selectively attachable to and detachable from the frame, the first and second cooperating interlocking structures interlocking with one another in a cooperating relationship to secure the cushion clip on the frame;an elbow joint provided to the frame and having a swivel tube adapted to connect to a gas delivery conduit; andwherein the first and second cooperating interlocking structures are provided to at least a bottom and left and right sides of the frame and cushion clip, and wherein a tab-recess arrangement of the frame and cushion clip includes a plurality of tabs engageable within respective recesses to secure the clip to the frame.
  • 2. A patient interface according to claim 1, wherein each tab is engageable within a respective recess with a snap fit.
  • 3. A patient interface according to claim 1, wherein each tab is resiliently movable.
  • 4. A patient interface according to claim 1, wherein the cushion includes an outwardly extending portion received on a rib extending around the periphery of the frame.
  • 5. A patient interface according to claim 4, wherein the outwardly extending portion is held to the rib by the cushion clip.
  • 6. A patient interface according to claim 1, further comprising a pair of upper attachment points provided to an upper portion of the frame and pair of lower attachment points provided to a lower portion of the frame, the upper and lower attachment points adapted to receive respective straps to secure the patient interface in position on the patient's face.
  • 7. A patient interface according to claim 1, wherein the cushion includes a rearwardly extending portion structured to space the frame from the patient's face.
  • 8. A patient interface according to claim 1, wherein the frame includes a first side structured to accommodate the cushion, and a second side, opposite the first side, and wherein the cushion clip and frame are configured to cooperate with one another such that the cushion clip is selectively attachable to the frame in a first direction defined generally from the first side to the second side of the frame, to thereby secure the cushion between the cushion clip and the frame.
  • 9. A patient interface according to claim 8, wherein the cushion clip and frame are configured to cooperate with one another such that the cushion clip is selectively detachable from the frame in a second direction, opposite the first direction, defined generally from the second side to the first side of the frame, to thereby allow removal of the cushion from the frame.
  • 10. A patient interface according to claim 1, wherein the first and second cooperating interlocking structures are engagable when the cushion clip is moved in a first direction defined generally from a first side of the frame that supports the cushion towards a second side of the frame opposite the first side, to thereby secure the cushion to the frame.
  • 11. A patient interface according to claim 10, wherein the first and second cooperating interlocking structures are disengagable when the cushion clip is moved in a second direction defined generally from the second side towards the first side of the frame, to thereby allow removal of the cushion from the frame.
  • 12. A respiratory mask assembly according to claim 1, wherein the recesses are configured to displace the respective tabs as the tabs are inserted into the recesses.
  • 13. A respiratory mask assembly according to claim 1, wherein each tab and each recess has a unique combination of orientation and shape so that the frame and the cushion clip are securable to each other in only one orientation.
  • 14. A respiratory mask assembly for delivering breathable gas to a patient, comprising: a mask frame having a first cooperating interlocking structure;a cushion clip having a second cooperating interlocking structure and being selectively attachable to and detachable from the mask frame, the first and second cooperating interlocking structures interlocking with one another in a cooperating relationship to secure the cushion clip on the mask frame; anda mask cushion adapted to form a seal on the patient's face and having an outer peripheral portion positioned between the mask frame and the cushion clip so as to seal the mask cushion on the mask frame.
  • 15. A respiratory mask assembly according to claim 14, wherein the first and second cooperating interlocking structures include a tab-recess arrangement in which a plurality of tabs are engageable within respective recesses to secure the clip on the frame.
  • 16. A respiratory mask assembly according to claim 14, wherein the first and second cooperating interlocking structures are provided to at least a bottom and left and right sides of the mask frame and cushion clip.
  • 17. A respiratory mask assembly according to claim 15, wherein each tab is engageable within a respective recess with a snap fit.
  • 18. A respiratory mask assembly for delivering breathable gas to a patient, comprising: a mask frame;a mask cushion adapted to form a seal with the patient's face; anda clip member engaged with the mask cushion and structured to interlock with the mask frame,wherein the mask frame and the clip member include a tab-recess arrangement in which a plurality of securing tabs on the clip member engage with a corresponding one of a plurality of recesses on the mask frame so as to retain the mask cushion on the mask frame, the tab-recess arrangement provided to at least a bottom and left and right sides of the mask frame and clip member.
  • 19. The respiratory mask according to claim 18, wherein each of said securing tabs is resiliently movable.
  • 20. A respiratory mask assembly according to claim 18, wherein each tab is engageable within a respective recess with a snap fit.
  • 21. A respiratory mask assembly according to claim 18, wherein: the mask frame comprises a rearwardly projecting rib adapted to engage the cushion and the cushion is held against the rib by the clip member,the portion of the tab-recess arrangement provided on the mask frame is positioned closer to a periphery of the mask frame than the rib,the cushion is configured so that when the clip member is attached to the mask frame, a first portion of the cushion is positioned between the clip member and the mask frame and the clip member is positioned between the mask frame and a second portion of the cushion,the rib projects beyond the portion of the tab-recess arrangement provided on the mask frame,the cushion comprises a flange that engages the clip member to retain at least a portion of the cushion on the clip member,the mask assembly further comprises an elbow joint provided to the frame,the mask frame comprises a circular aperture that receives a mating portion of the elbow joint,the rib at least partially surrounds the circular aperture,the cushion is configured so that when the clip member is attached to the mask frame, a first portion of the cushion is positioned between the clip member and the mask frame and the clip member is positioned between the mask frame and a second portion of the cushion,the elbow joint comprises a collar that abuts a corresponding surface of the mask frame and limits a distance that the elbow joint can be inserted into the circular aperture,a distal end of the elbow joint has an enlarged diameter and engages a swivel tube that is adapted to connect to a gas delivery conduit,the mask frame comprises a vent positioned above the circular aperture, andthe cushion comprises a shoulder that engages the clip member to retain at least a portion of the cushion on the clip member.
  • 22. A respiratory mask assembly according to claim 21, wherein the mask frame and the clip member are configured so that movement of the clip member toward the mask frame in a first direction facilitates securing the clip member to the mask frame, and the tabs are configured to move in a second direction transverse to the first direction when the clip member is assembled to the mask frame.
  • 23. A respiratory mask assembly according to claim 22, wherein the shoulder of the cushion engages a flange of the clip member to retain at least a portion of the cushion on the clip member.
  • 24. A respiratory mask assembly according to claim 23, wherein the clip member and the cushion are separate components.
  • 25. A respiratory mask assembly according to claim 18, wherein the recesses are configured to displace the respective tabs as the tabs are inserted into the recesses.
Priority Claims (1)
Number Date Country Kind
PP8550 Feb 1999 AU national
CROSS-REFERENCES TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 12/419,442, filed Apr. 7, 2009 (now U.S. Pat. No. 8,113,197), which is a continuation of U.S. application Ser. No. 11/322,237, filed Jan. 3, 2006, now U.S. Pat. No. 7,861,714, which is a continuation of U.S. application Ser. No. 10/164,370, filed Jun. 10, 2002, now U.S. Pat. No. 7,207,334, which is a divisional of U.S. application Ser. No. 09/498,705, filed Feb. 7, 2000, now U.S. Pat. No. 6,491,034, and related to the following applications: U.S. application Ser. No. 09/985,457, filed Nov. 2, 2001, now U.S. Pat. No. 7,185,652, and U.S. application Ser. No. 09/985,458, filed Nov. 2, 2001, now U.S. Pat. No. 7,089,939, and U.S. application Ser. No. 11/285,077, now U.S. Pat. No. 7,174,893, each incorporated herein by reference in its entirety.

US Referenced Citations (118)
Number Name Date Kind
35724 Wilcox Jun 1862 A
463351 Elliott Nov 1891 A
715611 Schenker et al. Dec 1902 A
716530 Giddens Dec 1902 A
812706 Warbasse Feb 1906 A
1333075 Hill et al. Mar 1920 A
1381826 Hansen Jun 1921 A
1653572 Jackson Dec 1927 A
1672165 Lewis Jun 1928 A
1733020 Jones Oct 1929 A
2029129 Schwartz Jan 1936 A
2033448 James Mar 1936 A
2141222 Pioch Dec 1938 A
2359506 Battley et al. Oct 1944 A
2371965 Lehmberg Mar 1945 A
2454103 Swidersky Nov 1948 A
2638161 Jones May 1953 A
2823671 Garelick Feb 1958 A
2832015 Ortega Apr 1958 A
2893387 Gongoll et al. Jul 1959 A
2931356 Schwarz Apr 1960 A
3141213 Nicholas Jul 1964 A
3189027 Bartlett, Jr. Jun 1965 A
3474783 Ulmann Oct 1969 A
3494072 Olson Feb 1970 A
3523534 Nolan Aug 1970 A
3535810 Baehrle Oct 1970 A
3555752 Bogaert Jan 1971 A
3824999 King Jul 1974 A
4049357 Hamisch, Jr. Sep 1977 A
4064875 Cramer et al. Dec 1977 A
4111197 Warncke et al. Sep 1978 A
4121580 Fabish Oct 1978 A
4164942 Beard et al. Aug 1979 A
4226234 Gunderson Oct 1980 A
4274404 Molzan et al. Jun 1981 A
4380102 Hansson Apr 1983 A
4494538 Ansite Jan 1985 A
4506665 Andrews et al. Mar 1985 A
4549334 Miller Oct 1985 A
4580556 Kondur Apr 1986 A
4606340 Ansite Aug 1986 A
4622964 Flynn Nov 1986 A
4633972 DeRocher Jan 1987 A
4783029 Geppert et al. Nov 1988 A
4794921 Lindkvist Jan 1989 A
4807617 Nesti Feb 1989 A
4809692 Nowacki et al. Mar 1989 A
4835820 Robbins, III Jun 1989 A
4841953 Dodrill Jun 1989 A
4870963 Carter Oct 1989 A
4875714 Lee Oct 1989 A
4898174 Fangrow, Jr. Feb 1990 A
4899614 Kataumi Feb 1990 A
4974586 Wandel et al. Dec 1990 A
4981134 Courtney Jan 1991 A
4997217 Kunze Mar 1991 A
5003633 Itoh Apr 1991 A
5005568 Loescher et al. Apr 1991 A
5062420 Levine Nov 1991 A
5080094 Tayebi Jan 1992 A
5136760 Sano et al. Aug 1992 A
5215336 Worthing Jun 1993 A
5243971 Sullivan et al. Sep 1993 A
5253641 Choate Oct 1993 A
5311862 Blasdell et al. May 1994 A
5398673 Lambert Mar 1995 A
5438981 Starr et al. Aug 1995 A
5501214 Sabo Mar 1996 A
5538001 Bridges Jul 1996 A
5645049 Foley et al. Jul 1997 A
5647355 Starr et al. Jul 1997 A
5676133 Hickle et al. Oct 1997 A
5709204 Lester Jan 1998 A
5724965 Handke et al. Mar 1998 A
5794617 Brunell et al. Aug 1998 A
5839436 Fangrow et al. Nov 1998 A
5860677 Martins et al. Jan 1999 A
5896857 Hely et al. Apr 1999 A
5909732 Diesel et al. Jun 1999 A
5921239 McCall et al. Jul 1999 A
5937851 Serowski et al. Aug 1999 A
5979025 Horng Nov 1999 A
6006748 Hollis Dec 1999 A
D428139 Smart Jul 2000 S
6082360 Rudolph et al. Jul 2000 A
D428988 Smart Aug 2000 S
D430663 Smart Sep 2000 S
6119693 Kwok et al. Sep 2000 A
6189532 Hely et al. Feb 2001 B1
6192886 Rudolph Feb 2001 B1
6196223 Belfer et al. Mar 2001 B1
D443355 Gunaratnam et al. Jun 2001 S
6240605 Stevens et al. Jun 2001 B1
6250375 Lee et al. Jun 2001 B1
6256846 Lee Jul 2001 B1
6272722 Lai Aug 2001 B1
6321421 Lim Nov 2001 B1
6381813 Lai May 2002 B1
6412487 Gunaratnam et al. Jul 2002 B1
6449817 Hsu Sep 2002 B1
6463931 Kwok et al. Oct 2002 B1
6491034 Gunaratnam et al. Dec 2002 B1
6513206 Banitt et al. Feb 2003 B1
6513526 Kwok et al. Feb 2003 B2
6520182 Gunaratnam Feb 2003 B1
6532961 Kwok et al. Mar 2003 B1
6615832 Chen Sep 2003 B1
6796308 Gunaratnam et al. Sep 2004 B2
7207334 Smart Apr 2007 B2
7861714 Smart Jan 2011 B2
20020023649 Gunaratnam et al. Feb 2002 A1
20020023650 Gunaratnam et al. Feb 2002 A1
20020153012 Gunaratnam et al. Oct 2002 A1
20020174868 Kwok et al. Nov 2002 A1
20030005935 Kwok et al. Jan 2003 A1
20040134497 Gunaratnam et al. Jul 2004 A1
20060130843 Gunaratnam et al. Jun 2006 A1
Foreign Referenced Citations (25)
Number Date Country
88122 Nov 1999 CA
297 21 766 Mar 1998 DE
499 00 269.5 Jan 1999 DE
1 027 905 Aug 2000 EP
145309 Jan 2000 ES
2 691 906 Dec 1993 FR
9916 Aug 1999 FR
2080119 Dec 1998 GB
2080120 Dec 1998 GB
2080121 Dec 1998 GB
48-55696 Oct 1971 JP
59-55535 Apr 1984 JP
61-6774786 May 1986 JP
7-2105895 Apr 1995 JP
7-308381 Nov 1995 JP
9-501084 Feb 1997 JP
1105649 Feb 1999 JP
65481 Aug 2000 SE
WO 8001645 Aug 1980 WO
WO 8701950 Apr 1987 WO
WO 9504566 Feb 1995 WO
WO 9826830 Jun 1998 WO
WO 9848878 Nov 1998 WO
WO 9930760 Jun 1999 WO
WO 0038772 Jul 2000 WO
Non-Patent Literature Citations (6)
Entry
ResCare Limited, “Sullivan™ Nasal CPAP System, Nose Mask Clip—User Instructions”, 5/90, 1pg.
ResMed, Mask Systems Product Brochure, 2 pages, Sep. 1992.
Respironics, Inc. “Nasal Mask System Silicone Contour Mask” Product Instructions, 2 pages, Jun. 1997.
Japanese Office Action English Translation for JP 2000-029094, 3 pages.
Office Action mailed Nov. 22, 2012 in Canadian Application No. 2,733,839 (2 pages).
The American Heritage Dictionary, Second College Edition, 1982, 3 pages.
Related Publications (1)
Number Date Country
20120180794 A1 Jul 2012 US
Divisions (1)
Number Date Country
Parent 09498705 Feb 2000 US
Child 10164370 US
Continuations (3)
Number Date Country
Parent 12419442 Apr 2009 US
Child 13396002 US
Parent 11322237 Jan 2006 US
Child 12419442 US
Parent 10164370 Jun 2002 US
Child 11322237 US