A laryngeal mask assembly (10) includes an artificial airway tube (14) and an inflatable mask (26). The mask (26) is forced into the mouth (20) of a patient (12) to an operating position adjacent the larynx (21). A scoping instrument (22) is sent through the artificial airway tube (14) and the inflatable mask (26) to locate the vocal cords (23) and trachea (35). The artificial airway tube (14) and inflatable mask (26) are removed, keeping the scoping instrument (22) in a position within the trachea (35) whereafter the laryngeal mask assembly (10) is removed by peeling it off the scoping instrument (22) using the slit (34) creating by the overlapping edges (36, 38).
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1. An artificial airway assembly (10) for ventilating a patient (12) and utilizing a scoping device in the airway of a patient, said artificial airway assembly (10) comprising:
a flexible airway tube (14) having a patient insertion end (16) and a breathing tool receiving end (18), said flexible airway tube having pass through a branching pass-through means (24) for allowing a scoping instrument (22) to pass therethrough and for guiding the scoping instrument to an operating position to view vocal cords and trachea of the patient (12); a mask (26) fixedly secured to said patient insertion end (16) of said flexible airway tube (14), said mask (26) having conforming means for conforming to a space immediately adjacent the larynx of the patient (12) to properly position the scoping instrument (22), said artificial airway assembly (10) characterized by removing means (330) for removing said flexible airway tube (14) and mask (26) from the scoping instrument (22) while maintaining the scoping instrument (22) in the operating position.
2. An assembly (10) as set forth in
3. An assembly (10) as set forth in
4. An assembly (10) as set forth in
5. An assembly (10) as set forth in
6. An assembly (10) as set forth in
instrument (22) into flexible airway tube (14).7. A method for intubating a patient (12) using an artificial airway assembly (10) including a mask (26) and flexible airway tube (14) having a branching pass-through guide passage which communicates with the flexible airway assembly between a breathing-tool receiving end and a patient-insertion end of the artificial airway assembly (10), and a scoping device (22), the method comprising the steps of: (a) inserting the artificial airway assembly (10) into the mouth (20) of a patient (12); (b) positioning the mask (26) adjacent the larynx; (c) initiating ventilation of the patient via the breathing-tool receiving end; (d) moving the scoping device (22) through the branching pass-through guide passage (24) at least to the patient-insertion end of the artificial airway assembly (10) and the mask (26); (e) removing the artificial airway assembly (10) from the mouth (20) of the patient (12); and (f) peeling the artificial airway assembly (10) off the scoping device (22). 8. The method of claim 7, in which step (d) includes moving the scoping device beyond the mask (26) and into the trachea of the patient.9. An assembly (10) as set forth in claim 1, further characterized by said removing means (30) including a continuously elongate locally weakened and tearable course extending the length of said pass-through means (24) from the receiving end thereof to the patient-insertion end (16) of the flexible airway tube (14).10. An assembly (10) as set forth in claim 3, in which said mask (26) has a hole (27) for establishing a ventilating passage between the flexible airway tube (14) and the larynx, and the conforming means of said mask (26) comprises an inflatable ring for establishing an initial peripherally sealing engagement of the mask at the laryngeal inlet, said slit (34) extending to at least one of said holes and said inflatable ring being characterized by a local split between peripherally confronting ends of the slit portion of said mask (26).11. An artificial airway assembly (10) for ventilating a patient (12) and utilizing a scoping device in the patient's airway, said artificial airway assembly (10) comprising: a flexible airway tube (14) having a patient-insertion end (16) and a breathing-tool receiving end (18) and a pass-through receiving end (24), said pass-through receiving end (24) being adapted to allow a scoping instrument (22) to pass therethrough to an operating position at the patient-insertion end (16) of said tube to view vocal cords and trachea of the patient (12), said breathing-tool receiving end (18) and said pass-through receiving end (24) having separate merging communication with said airway tube at a location intermediate said patient-insertion end (16) and said receiving ends (18, 24); a mask (26) fixedly secured to said patient-insertion end (16) of said flexible airway tube (14), said mask (26) having conforming means for conforming to a space immediately adjacent the larynx of the patient (12) to properly position the scoping instrument (22), said artificial airway assembly (10) being characterized by removing means (30) for removing said flexible airway tube (14) and mask (26) from the scoping instrument (22) while maintaining the scoping instrument (22) in the operating position.12. An artificial airway assembly (10) for ventilating a patient (12) and utilizing a scoping device in the airway of a patient, said artificial airway assembly (10) comprising: a flexible airway tube (14) having a patient-insertion end (16) and a breathing-tool receiving end (18) and a pass-through receiving end (24), said pass-through receiving end (24) being adapted to allow a scoping instrument (22) to pass therethrough to an operating position at the patient-insertion end (16) of said tube to view vocal cords and trachea of the patient (12), said breathing-tool receiving end (18) and said pass-through receiving end (24) having separate merging communication with said airway tube at a location intermediate said patient-insertion end (16) and said receiving ends (18, 24); a mask secured to the patient-insertion end of the flexible airway tube, said mask having an opening (27) for patient ventilating passage therethrough, removing means (30) for removing said flexible airway tube and mask from the scoping instrument while maintaining the scoping instrument in the operating position, said removing means being characterized by an elongate continuous slit from said pass-through receiving end (24) to said mask opening (27) and via an intervening length of said flexible airway tube, said mask (26) including an inflatable ring for peripheral sealing of said mask at the laryngeal inlet, said inflatable ring being characterized by a split at the location of slit passage in said mask to the mask opening, the split of said ring defining confronting peripheral ends which inflate in patient-installed position into sealed relation to each other and thus into peripherally continuous sealed relation to the laryngeal inlet. |
The invention related to artificial airway assemblies. More particularly, the invention relates to artificial airway assemblies which are easily removable after locating the vocal cord of a patient.
In recent years, several improvements have been made in the artificial airway technology. U.S. Pat. No. 4,509,514, issued to Brain on Apr. 9, 1985, discloses an artificial airway assembly used to facilitate lung ventilation in an unconscious patient. The laryngeal mask provides a seal around the larynx. A tube connected to the laryngeal mask allows air to pass therethrough and through the mask to facilitate breathing. A pump is used to inflate and deflate the laryngeal mask to facilitate the inserting and removing of the laryngeal airway in the linesTurning to the enclosed sketches, Referring to the drawings, an artificial airway assembly is generally shown at 10. The artificial airway 10 ventilates a patient while when the patient 12 can not breath cannot breathe on his or her own or needs some form of respiratory assistance. Typically, this occurs when the patient 12 is unconscious during surgery. The artificial airway assembly 10 comprises a flexible airway tube 14. The flexible airway tube 14 includes a patient insertion end 16 and a breathing tool receiving end 18. The patient insertion end 16 is inserted into the patient's mouth 20 and extended into a position adjacent the larynx 21, specifically the laryngeal inlet. The breathing tool receiving end 18 is attached to a breathing tool (not shown) such as a ventilating bag or a ventilating machine.
The flexible airway tube 14 allows a scoping instrument 22 to pass therethrough to an operating position to view the vocal cords 23 and trachea 35 of the patient 12. In the preferred embodiment, the scoping instrument 22 is fiber a fiber-optic scope which extends along the length of the flexible airway to a tube 14 and out the patient insertion end 16 to view the vocal cords 23 and enter the trachea 35. The flexible airway tube 14 includes a second branch 24 which is in fluid communication with the flexible airway tube 14. The second branch 24 guides the scoping instrument 22 into the flexible airway tube 14 and allows for uninterrupted ventilation to continue through the breathing tool receiving end 18. The scoping instrument 22, i.e., the fiber optic scope, is not part of the subject invention wherein any type of scoping instrument may be used to determine the location of the patient insertion end 16.
A mask 26 is fixedly secured to the patient insertion end 16 of the flexible airway tube 14. The mask includes holes 27 allowing air and the scoping instrument 22 to pass therethrough. The mask 26 is capable of conforming to the space immediately adjacent the larynx 21 of the patient 12 to properly position the scoping instrument 22. More specifically the mask 26 is made of a resilient rubber-like material having in the form of a peripheral ring defining a hollow space 29 capable of being inflated and deflated to accommodate for the space adjacent the larynx 21. Because the mask 26 is resiliently deformable, the natural configuration of the mask 26 is in the deflated position when installed, is that of inflated resilient conformance to the profile of the laryngeal inlet, generally as suggested by FIG. 6. A valve assembly 28 allows air to pass in and out of the mask 26 which allows for easier insertion when the mask 26 is deflated and a better seal around the larynx 21 when the mask 26 is inflated. Typically, air is injected or withdrawn from the mask 26 with a syringe. The inflatable portion of the mask 26 has ends 40,41 which come together and abut upon inflation of the mask 26 to provide a peripheral seal. In the deflated position, the ends 40, 41 move away from each other to facilitate removal of the device 10 and the scoping instrument 22.
The subject invention is characterized by removing means 30 for removing the flexible airway tube 14 and the mask 26 from the scoping instrument 22 while maintaining the scoping instrument 22 in the operating position as shown in FIG. 6. Once the scoping instrument 22 is in place, artificial airway assembly 10 is removed, a smaller flexible airway tube (not shown) can be manipulated to pass over the fiber optic fiberoptic scope into the same position as the end 32 of the scoping instrument 22, it being understood that the smaller flexible airway tube may be a commercial endotracheal tube having its own inflatable cuff to secure the patient's airway. Therefore, once the smaller airway tube is inserted into the same position as the scoping instrument end 32, the scoping instrument is removed and the airway is secure.
The removing means 30 includes a slit 34 extending along the flexible airway tube 14 and, through a position 31 of the mask 26, and extending to the central hole 27. The slit 34 allows the artificial airway assembly 10 to be removed from the scoping instrument 22 while the scoping instrument 22 remains operational in the operating position. The slit 34 creates two opposing side edges 36, 38. The opposing side edges 36, 38 over lap overlap each other such that the artificial airway assembly 10 is substantially sealed between the patient insertion end 16 and the breathing tool receiving end 18.
As may be seen in the alternative embodiment of FIG. 4, the removing means 30 may comprise a scored portion 40 which is weakened at that point allowing the assembly 10 to be torn away along the weakened alignment 40 when pressure an extracting force is applied to the assembly 10 to pull the assembly 10 away from the scope instrument 22.
In operation, the method for intubating a patient 12 using an artificial airway assembly 10 which includes a mask 26 and a flexible airway tube 14 and a scoping device 22 comprises the steps of: inserting the artificial airway assembly 10 into the mouth 20 of the patient while positioning the mask 26 adjacent the larynx 21, thus sealing the airway tube for exclusive communication via the laryngeal inlet; moving the scoping device 22 through the artificial airway assembly 10 via branch 24 and the mask 26 into the trachea 35; removing the artificial airway assembly 10 from the mouth 20 of the patient 12; and peeling the artificial airway assembly 10 off the scoping device 22. The peeling of the artificial airway assembly 10 off the scoping deice 22 occurs when outside the patient and while the scoping device is maintained in the operating position and while the scoping device 22 is operating.
The invention has been described in an illustrative manner, and it is to be understood that the terminology which has been used is intended to be in the nature of words of description rather than of limitation.
Obviously, many modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood that within the scope of the appended claims wherein reference numerals are merely for convenience and are not to be in any way limiting, the invention may be practiced otherwise than as specifically described.
Callaghan, Eric B., Callaghan, Mark L.
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