Title of Invention

METHOD AND SYSTEM FOR INTUBATION

Abstract An intubation method and system including the insertion of an endotracheal tube into a patient airway, inflating an cuff associated with the endotracheal tube at a location in the patient airway below the vocal cords, monitoring carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location between the cuff and the vocal cords and adjusting inflation of the cuff based at least in part on the monitoring in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.
Full Text FORM 2
THE PATENTS ACT, 1970
(39 of 1970)
COMPLETE SPECIFICATION [See section 10]

METHOD AND
INTUBATION;

SYSTEM

FOR

HOSPITEC INC., A CORPORATION ORGANIZED AND EXISTING UNDER THE LAWS OF ISRAEL, WHOSE ADDRESS IS c/o. COLINT LTD., 18 SHADMOT DVORA STREET, 75289 RISHON LE ZION, ISRAEL.
THE FOLLOWING SPECIFICATION PARTICULARLY DESCRIBES AND ASCERTAINS THE NATURE OF THE INVENTION AND THE MANNER IN WHICH IT IS TO BE PERFOMED.

METHOD AND SYSTEM FOR INTUBATION
FIELD OF THE INVENTION
The present invention relates to intubation systems and methodologies
5. generally.
BACKGROUND OF THE INVENTION
The following U.S. Patents are believed to represent the state of the art: 6,062,223; 5,937,861; 5,819,723; 5,765,559; 5,752,921; 5,582,167; 5,582,166;
10. 5,579,762; 5,067,497; 4,825,862; 4,770,170; '4,501,273; 4,305,392; 4,159,722; 3,794,036 & 3,504,676.
SUMMARY OF THE INVENTION
The present invention seeks to provide improvements to intubation
15. systems and methods.
There is thus provided in accordance with a preferred embodiment of the present invention an intubation method including:
insertion of an endotracheal tube into a patient airway;
inflating a cuff associated with the endotracheal tube at a location in the
20. patient airway below the vocal cords;
monitoring carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location between the cuff and the vocal cords; and
adjusting inflation of the cuff based at least in part on the monitoring in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.
25. Preferably, inflation of the cuff is adjusted to provide a minimum inflation pressure, which prevents leakage of carbon dioxide past the cuff.
In accordance with a preferred embodiment of the present invention, the method also includes suctioning secretions at a suctioning location between the cuff and the vocal cords.
30. Preferably, the suctioning location is located between the cuff and the carbon dioxide monitoring location.
In accordance with a preferred embodiment of the present invention,
2

adjusting inflation is performed by medical personnel based on information received from the carbon dioxide monitoring. Alternatively adjusting inflation may be performed automatically based on information received from the carbon dioxide monitoring.
Preferably, the method includes inserting into the patient airway of a
5 carbon dioxide monitoring conduit extending to the carbon dioxide monitoring location.
Additionally or alternative, the method includes inserting into the patient airway of a suctioning conduit extending to the suctioning location.
The carbon dioxide monitoring conduit may also serve as a suctioning
conduit extending to a suctioning location.
10 In accordance with one embodiment of the present invention, the
insertion of an endotracheal tube into a patient airway includes insertion of at least one of a carbon dioxide monitoring conduit and a suctioning conduit disposed therewithin.
There is also provided in accordance with a preferred embodiment of the
present invention an intubation system including:
15 an endotracheal tube adapted for insertion into a patient airway;
an inflatable cuff associated with the endotracheal tube and arranged to be located at a location in the patient airway below the vocal cords;
a carbon dioxide monitor operative to monitor carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location between the
20 cuff and the vocal cords; and
an inflatable cuff inflator operative for enabling adjustment of inflation of the cuff based at least in part on an output from the carbon dioxide monitor in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.
In accordance with one embodiment of the present invention, the inflator
25 includes an adaptive inflator, which is operative to inflate the cuff to a minimum inflation pressure, which prevents leakage of carbon dioxide past the cuff.
Preferably, the system also includes a suctioner operative for suctioning secretions at a suctioning location between the cuff and the vocal cords.
In accordance with a preferred embodiment of the present invention, the
30 system includes at least one of a carbon dioxide monitoring conduit coupled to the carbon dioxide monitor and extending therefrom to the carbon dioxide monitoring location and a suctioning conduit extending to a suctioning location.
3

In accordance with one embodiment of the present invention, the carbon
dioxide monitoring conduit also serves as the suctioning conduit and also couples a
suctioner operative for suctioning secretions to a suctioning location between the cuff
and the vocal cords.
5 Alternatively a separate suctioning conduit may be provided for coupling
a suctioner operative for suctioning secretions to a suctioning location between the cuff and the vocal cords.
At least one or both of the carbon dioxide monitoring conduit and the suctioning conduct may be located internally of the endotracheal tube.
10
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will be understood and appreciated from the following detailed description, taken in conjunction with the drawings in which:
Fig. 1 is a simplified pictorial illustration of a intubation system and
15 functionality constructed and operative in accordance with a preferred embodiment of the present invention; and
Figs. 2A, 2B, 2C and 2D are simplified diagrammatic illustrations of four alternative embodiments of the system of Fig. 1.
20 DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
Reference is now made to Fig. 1, which is a simplified pictorial illustration of an intubation system and functionality constructed and operative in accordance with a preferred embodiment of the present invention.
As seen in Fig. 1, there is preferably provided an intubation system and
25 method wherein an endotracheal tube 10 is inserted into a patient airway. An inflatable cuff 12 is preferably associated with the endotracheal tube 10 and arranged to be located at a location in the patient airway 11 below the vocal cords. Both the endotracheal tube 10 and the inflatable cuff 12 may be entirely conventional or alternatively may be adapted to integrate features of the present invention, as described hereinbelow. The
30 endotracheal tube 10 may be coupled to a ventilator (not shown) in a conventional manner and the inflatable cuff 12 may be connected to a manually operated or automatically operated inflation device (not shown), also in a conventional manner.
4

In accordance with a preferred embodiment of the present invention a
carbon dioxide monitor 14 is provided and is operative to monitor carbon dioxide
concentration in the patient airway 11 at a carbon dioxide monitoring location 16
between the cuff 12 and the vocal cords. Preferably a carbon dioxide monitoring conduit
5 18 is provided for coupling the monitor 14 to the monitoring location 16.
A suctioning device 20 is preferably provided for suctioning secretions at a suctioning location 22 between the cuff 12 and the vocal cords.
It is a particular feature of the present invention that the carbon dioxide
monitor 14 provides an accurate indication of adequate sealing of the patient's airway 11
10 by the inflated cuff 12, thus enabling minimum effective inflation to be provided,
thereby to minimize damage to the patient's airway 11. The accurate and minimally
invasive sealing of the patient's airway 11 combined with operation of suctioning device
20 for removal of secretions at suctioning location 22 upstream of the cuff 12 enables
infections to be reduced by effectively preventing such secretions to enter the airway 11
15 downstream of the cuff 12. This effective preventing is the result both of highly
effective sealing of the airway 11 and of removal of such secretions upstream of the cuff
12. It is appreciated that the efficacy of the suction produced by suctioning device 20 at
suctioning location 22 is enhanced by the provision of highly effecting sealing of the
airway at cuff 12.
20 It is appreciated that in accordance with one embodiment of the
invention, the cuff inflator may operate automatically based on an accurate output from
the carbon dioxide monitor.
Reference is now made to Figs. 2A, 2B, 2C, 2D are simplified diagrammatic illustrations of four alternative embodiments of the system of Fig. 1.
25 Turning to Fig. 2A, there is seen a first embodiment of the invention wherein an endotracheal tube 100 is inserted into a patient airway 111 and an inflatable cuff 112, associated therewith and inflated at a location in the patient airway 111 below the vocal cords. The endotracheal tube 100 is typically, but need not be, coupled to a ventilator 114. Cuff 112 is connected via an inflation conduit 116 to a manually operated or
30 automatically operated cuff inflator 118.
In accordance with a preferred embodiment of the present invention shown in Fig. 2A, a carbon dioxide monitor 120 is coupled via a carbon dioxide monitor
5

conduit 122, external of the endotracheal tube 100, to a carbon dioxide monitoring
location 124, between the cuff 112 and the vocal cords. A suctioning device 126 is also
coupled to the conduit 122 for suctioning secretions at a suctioning location, which in
this embodiment is identical to the carbon dioxide monitoring location 124.
5 Turning to Fig. 2B, there is seen a second embodiment of the invention
wherein an endotracheal tube 200 is inserted into a patient airway 211 and an inflatable cuff 212, associated therewith and inflated at a location in the patient airway 211 below the vocal cords. The endotracheal tube 200 is typically, but need not be, coupled to a ventilator 214. Cuff 212 is connected via an inflation conduit 216 to a manually
10 operated or automatically operated cuff inflator 218.
In accordance with a preferred embodiment of the present invention shown in Fig. 2B, a carbon dioxide monitor 220 is coupled via a carbon dioxide monitor conduit 222, internal of the endotracheal tube 200 to a carbon dioxide monitoring location 224, between the cuff 212 and the vocal cords. A suctioning device 226 is also
15 coupled to the conduit 222 for suctioning secretions at a suctioning location, which in this embodiment is identical to the carbon dioxide monitoring location 224.
Turning to Fig. 2C, there is seen a third embodiment of the invention wherein an endotracheal tube 300 is inserted into a patient airway 311 and an inflatable cuff 312, associated therewith and inflated at a location in the patient airway 311 below
20 the vocal cords. The endotracheal tube 300 is typically, but need not be, coupled to a ventilator 314. Cuff 312 is connected via an inflation conduit 316 to a manually operated or automatically operated cuff inflator 318.
In accordance with a preferred embodiment of the present invention shown in Fig. 2C, a carbon dioxide monitor 320 is coupled via a carbon dioxide monitor
25 conduit 322, exterior of the endotracheal tube 300, to a carbon dioxide monitoring location 324, between the cuff 312 and the vocal cords.
In this embodiment, a suctioning device 326 is coupled to a separate suctioning conduit 328, also external of the endotracheal tube 300, for suctioning secretions at a suctioning location 330, which is preferably upstream of the carbon
30 dioxide monitoring location 324.
Turning to Fig. 2D, there is seen a fourth embodiment of the invention wherein an endotracheal tube 400 is inserted into a patient airway 411 and an inflatable
6
cuff 412, associated therewith and inflated at a location in the patient airway 411 below
the vocal cords. The endotracheal tube 400 is typically, but need not be, coupled to a
ventilator 414. Cuff 412 is connected via an inflation conduit 416 to a manually
operated or automatically operated cuff inflator 418.
5 In accordance with a preferred embodiment of the present invention
shown in Fig. 2D, a carbon dioxide monitor 420 is coupled via a carbon dioxide monitor
conduit 422, interior of the endotracheal tube 400, to a carbon dioxide monitoring
location 424, between the cuff 412 and the vocal cords.
In this embodiment, a suctioning device 426 is coupled to a separate
10 suctioning conduit 428, also internal of the endotracheal tube 400, for suctioning
secretions at a suctioning location 440, which is preferably upstream of the carbon
dioxide monitoring location 424.
It will be appreciated by persons skilled in the art that the present
invention is not limited by what has been particularly shown and described hereinabove. 15 Rather the scope of the present invention includes both combinations and
subcombinations of the various features described hereinabove as well as variations and
modifications which would occur to persons skilled in the art upon reading the
specification and which are not in the prior art.
7

WE CLAIM
I An intubation method comprising:
inserting an endotracheal tube into a patient airway;
inflating a cuff associated with the endotracheal tube at a location in the
patient airway below the vocal cords;
monitoring carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location in the patient airway above the cuff; and
adjusting inflation of the cuff based at least in part on said monitoring in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.
2. An intubation method according to claim 1 and wherein inflation of the cuff is adjusted to provide a minimum inflation pressure which prevents leakage of carbon dioxide past the cuff.
3. An intubation method according to claim 1 or claim 2 and also comprising suctioning secretions at a suctioning location in the patient airway above the cuff.
4. An intubation method according to claim 3 and wherein said suctioning location is located between the cuff and the carbon dioxide monitoring location.
5 An intubation method according to any of the preceding claims and
wherein said adjusting inflation is performed by medical personnel based on information received from said carbon dioxide monitoring.
6. An intubation method according to any of the preceding claims and
wherein said adjusting inflation is performed automatically based on information received from said carbon dioxide monitoring.
7 An intubation method according to any of the preceding claims and also

8

comprising inserting into the patient airway a carbon dioxide monitoring conduit extending to said carbon dioxide monitoring location.
8 An intubation method according to claim 3 and also comprising inserting
into the patient airway of a suctioning conduit extending to said suctioning location.
9. An intubation method according to claim 7 and wherein said carbon dioxide monitoring conduit also serves as a suctioning conduit extending to a suctioning location.
10. An intubation method according to any of the preceding claims and wherein said inserting an endotracheal tube into a patient airway includes inserting at least one of a carbon dioxide monitoring conduit and a suctioning conduit disposed therewithin.
11. An intubation system comprising:
an endotracheal tube adapted for insertion into a patient airway;
an inflatable cuff associated with the endotracheal tube and arranged to be located at a location in the patient airway below the vocal cords;
a carbon dioxide monitor operative to monitor carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location in the patient airway above the cuff; and
an inflatable cuff inflator operative for enabling adjustment of inflation of the cuff based at least in part on an output from said carbon dioxide monitor in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.
12. An intubation system according to claim 11 and wherein said inflator comprises an adaptive inflator which is operative to inflate said cuff to a minimum inflation pressure which prevents leakage of carbon dioxide past the cuff.
13. An intubation system according to claim 11 or claim 12 and also comprising a suctioner operative for suctioning secretions at a suctioning location in the
9

patient airway above the cuff.
14. An intubation system according to claim 13 and wherein said suctioning location is located between the cuff and the carbon dioxide monitoring location.
15. An intubation system according to claim 11 and also comprising:
a carbon dioxide monitoring conduit coupled to said carbon dioxide monitor and extending therefrom to said carbon dioxide monitoring location.
16. An intubation system according to claim 15 and wherein said carbon dioxide monitoring conduit also serves as a suctioning conduit and also couples a suctioner operative for suctioning secretions to a suctioning location in the patient airway above the cuff.
17. An intubation system according to claim 15 and also comprising a suctioning conduit which couples a suctioner operative for suctioning secretions to a suctioning location in the patient airway above the cuff.
18. An intubation system according to claim 16 or claim 17 and wherein said suctioning location is located upstream of said carbon dioxide monitoring location.
19. An intubation system according to any of claims 15-18 and wherein at least one of said carbon dioxide monitoring conduit and said suctioning conduit are located internally of said endotracheal tube.
20. An intubation system according to any of claims 15-18 and wherein at least one of said carbon dioxide monitoring conduit and said suctioning conduit are located externally of said endotracheal tube.
21. An intubation system according to any of claims 15 - 18 and wherein both said carbon dioxide monitoring conduit and said suctioning conduit are located internally of said endotracheal tube.
10

22. An intubation system according to any of claims 15 - 18 and wherein
both said carbon dioxide monitoring conduit and said suctioning conduit are located externally of said endotracheal tube.



11

ABSTRACT
An intubation method and system including the insertion of an endotracheal tube into a patient airway, inflating an cuff associated with the endotracheal tube at a location in the patient airway below the vocal cords, monitoring carbon dioxide concentration in the patient airway at a carbon dioxide monitoring location between the cuff and the vocal cords and adjusting inflation of the cuff based at least in part on the monitoring in order that the cuff inflation generally prevents leakage of carbon dioxide past the cuff.

Documents:

982-mumnp-2003-abstract(21-04-2008).doc

982-mumnp-2003-abstract(21-04-2008).pdf

982-mumnp-2003-abstract.doc

982-mumnp-2003-abstract.pdf

982-MUMNP-2003-ASSIGNMENT(26-11-2008).pdf

982-mumnp-2003-cancelled pages(21-04-2008).pdf

982-mumnp-2003-claims(granted)-(21-04-2008).doc

982-mumnp-2003-claims(granted)-(21-04-2008).pdf

982-mumnp-2003-claims.doc

982-mumnp-2003-claims.pdf

982-mumnp-2003-correspondance-received-020305.pdf

982-mumnp-2003-correspondance-received-031203.pdf

982-mumnp-2003-correspondance-received-211103.pdf

982-mumnp-2003-correspondance-received-22003.pdf

982-mumnp-2003-correspondance-received-291203.pdf

982-mumnp-2003-correspondance-received.pdf

982-mumnp-2003-correspondence(21-04-2008).pdf

982-MUMNP-2003-CORRESPONDENCE(26-11-2008).pdf

982-mumnp-2003-correspondence(ipo)-(07-10-2008).pdf

982-mumnp-2003-description (complete).pdf

982-mumnp-2003-drawing(21-04-2008).pdf

982-mumnp-2003-drawings.pdf

982-mumnp-2003-form 18(02-03-2006).pdf

982-mumnp-2003-form 1a(21-10-2003).pdf

982-mumnp-2003-form 2 (granted)-(21-04-2008).doc

982-mumnp-2003-form 2(granted)-(21-04-2008).pdf

982-mumnp-2003-form 3(21-04-2008).pdf

982-mumnp-2003-form 3(21-10-2003).pdf

982-mumnp-2003-form 5(21-10-2003).pdf

982-mumnp-2003-form 6(26-11-2008).pdf

982-mumnp-2003-form pct-isa-210.pdf

982-mumnp-2003-form-1.pdf

982-mumnp-2003-form-18.pdf

982-mumnp-2003-form-2.doc

982-mumnp-2003-form-2.pdf

982-mumnp-2003-form-26.pdf

982-mumnp-2003-form-3.pdf

982-mumnp-2003-form-5.pdf

982-mumnp-2003-form-pct-isa-210(21-10-2003).pdf

982-mumnp-2003-petition under rule 137(21-04-2008).pdf

982-mumnp-2003-petition under rule 138(21-04-2008).pdf

982-mumnp-2003-power of attorney(21-10-2003).pdf

982-MUMNP-2003-POWER OF ATTORNEY(26-11-2008).pdf

abstract1.jpg


Patent Number 224220
Indian Patent Application Number 982/MUMNP/2003
PG Journal Number 06/2009
Publication Date 06-Feb-2009
Grant Date 07-Oct-2008
Date of Filing 21-Oct-2003
Name of Patentee HOSPITEC INC.
Applicant Address C/O COLINT LTD. 18 SHADMOT DVORA STREET, 75289 RISHON LE ZION, ISRAEL.
Inventors:
# Inventor's Name Inventor's Address
1 SHAI EFRATI COLINT LTD. 18 SHADMONT DVORA STREET, 75289 RISHON LE ZION, ISRAEL.
PCT International Classification Number A61B
PCT International Application Number PCT/IL02/00230
PCT International Filing date 2002-03-21
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 142228 2001-03-23 Israel