US2584450A - Tracheotomy inhaler apparatus - Google Patents

Tracheotomy inhaler apparatus Download PDF

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US2584450A
US2584450A US771678A US77167847A US2584450A US 2584450 A US2584450 A US 2584450A US 771678 A US771678 A US 771678A US 77167847 A US77167847 A US 77167847A US 2584450 A US2584450 A US 2584450A
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tracheotomy
tube
inspiratory
expiratory
inhalator
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US771678A
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George W Holt
William G Kubicek
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University of Minnesota
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University of Minnesota
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M16/00Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
    • A61M16/10Preparation of respiratory gases or vapours
    • A61M16/14Preparation of respiratory gases or vapours by mixing different fluids, one of them being in a liquid phase
    • A61M16/16Devices to humidify the respiration air
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M16/00Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
    • A61M16/021Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes operated by electrical means

Definitions

  • Thisv invention relates to the application of oxygen therapy for patients with tracheotomy.
  • Our invention provides an apparatus and a method for supplying oxygen-enriched mixtures with humidification and optional use of positive pressure and includes an inspiratory system and an expiratory system with safeguards to effectively protect the patients respiration and to facilitate an inspection during operation and determinatio of criteria.
  • Our apparatus and method is particularly adapted for treatment ofpoliomyelitis or other patients with involvement of the vital bulbar nuclei Where demonstrable or impending laryngeal paralysis evolved.
  • Afurther object is the provision of an apparatus and method of the class described wherein both inspiratory and expiratory systems are incorporated, both connected with the trachea through a common tracheotomy tube-inhalator attachment.
  • A. further object is the provision of apparatus nf'the class describedwherein moisture, secretion and other obstruction-producing elements are removed from both inspiratory and expiratory systems with inspection facilities at all times to determine respiratory excursions and conditions as well v as possible obstructions or embarrassment to respiration.
  • Another object is the provision of a method and apparatus for supplying tracheotomy inspiration oxygen-laden mixtures and also tra' cheotomy expiration which guarantees patency of the upper airway of the patient and which is efifective in combating pulmonary edema.
  • Fig. 1 is a perspective view of an embodiment of oura naratus pro erly assembled and connected with a tracheotomv tube applied to a patient, the source of heat for the humidifier being swung to an'in'operative position:
  • Fig. 3 is an exploded view of a preferred form of tracheotomy tube-inhalator attachment constituting a part of our apparatus.
  • Fig. 4 is a perspective view of a conventional type of tracheotomy tube.
  • a conventional gas tank T having its discharge provided' with a pressure control valve P and pressure gauge G, the output from said pressure control valve communicating with a small conduit it? having a depending portion Illa which extends through a humidifier receptacle H.
  • Suitable means are associated with the discharge end of gas conduit It for distributing and finely diffusing the gas discharged.
  • a satisfactory medium as shown, comprises a horizontal, inverted shell lob, multi-periorated in the body or upper side thereof in the manner of a percolator and disposed at the lower portion of the humidifier receptacle and submerged in the water W contained.
  • a multiplicity of minute bubbles are produced during the discharge of gas which are diifused through the water and individually pick up moisture in their upward travel.
  • the water level is maintained at a medial point in receptacle II and a discharge nipple I2 for themoistened gas is provided in the removable top of the humidifier casing connected as shown, by a rubber or other flexible tube #3 with a fitting l4 communicating with the top of a container [5 which constitutes a condensation trap.
  • Means for heating the water in humidifier receptacle I l is provided, such as an electric lamp L, provided with a suitable inverted reflector and as shown, the heating unit is swingably mounted so that it may be swung from the position shown in Fig.
  • thermostatic means are provided for con-. trolling the operation of the heating unit and as illustrated, comprise two thermostatically controlled switch devices IB mounted within the upper portion of receptacle l l and electrically connected with lamp L so that if either thermostat fails, the other may function to maintain proper temperature.
  • the humidified oxygen-laden gaseous mixture enters closed container 15 through acne-way duck-bill type, flat valve 14a and accumulation of moisture condensation is efiected in the lower portion of container l5.
  • the gaseous mixture from the upper portion of container 15 passes through the top of the container and enters the inspiration tube I? which is constructed of highly flexible material and is detachably connected by a transparent elbow 18 with one of the lateral nipples of a tracheotomy tube-inhalator attachment or coupling, indicated as an entirety by the numeral Hi.
  • the inspiratory system described is provided with a breathing reservoir bag 20 constructed of highly flexible material and connected at a suitable point such as with the delivery fitting I4 through a lateral nipple thereof.
  • the breathing bag 20, as shown, is provided with a removable closure and clean-out plug 29a detachably applied to the lower end thereof.
  • the inspiratory system is also provided with an adjustable, positive pressure manometer constituting, as shown, a manometer tube 2 I, adjustably mount ed in the top of a liquid container 22 which is partially filled with water or other liquid to a predetermined level X, said tube being submerged in the water contained to a predetermined distance depending upon the particular requisite of the system.
  • Manometer 2! is connected as shown, by a tube 21a, with a lateral nipple of the delivery fitting i4 and through said fitting with the breathing bag 20.
  • Our expiratory system forming a part of our apparatus, comprises a highly flexible expiratory tube 23 connected .by a transparent elbow 24 with a second lateral nipple of the tracheotomy tube attachment or coupling [9. Expiration tube 23 communicates with the upper portion of an enclosed water trap receptacle 25. To this end, a small metal nipple 25 is provided in the closed top of receptacle 25, having secured to the lower and discharge end thereof, a one-way, flexible flap or duck-bill valve 2611.
  • a nipple 2'! passing through the closed top of water trap receptacle 25 is connected by a short conduit 28 with a positive pressure manomto the other (lSb).
  • Manometer 29 mounted in the top of manometer receptacle 22.
  • Manometer 29 is in the form of a depending tube submerged, in most instances, a relatively short distance below the water level X of the manometer container and is preferably screened at its lower discharge end 29a.
  • the manometer receptacle, at its upper end is open to the atmosphere through an air outlet 22a.
  • the tracheotomy tube-inhalator attachment or coupling in the form shown comprises a fourway fitting l9 having the lateral nipples
  • the fitting I9 is also provided with an upper short conduit or passage [9d open at its upper end and adapted to be occluded by a surrounding rubber cap member 34.
  • a curved, inner tracheotomy tube 32 adapted to longitudinally telescope within the main tracheotomy tube 33 and rigidly carrying at its upper end, a coupling disc 32a having an overlying arcuate flange 32b adapted to engage and retain a marginal portion of the coupling disc 39.
  • is pivoted on the marginal portion of disc 30a in position to be accommodated by the notch 300. when swung to neutral position. It may be turned in either direction with the discs 30 and 32a abutted concentrically to lock said discs together.
  • the inhalator may now be used for oxygen therapy in the patient with tracheotomy (Fig. 1). After looking the tracheotomy tube H! in place On the inner cannula 32 of the tracheotomy, the three remaining outlets are left open until the flow of the desired oxygen mixture has filled the breathing bag. The inspiratory tube is then connected to one of the lateral outlets l9a of the tracheotomy tube attachment, the expiratory tube Finally, the superior outlet [9d is occluded. The above sequence prevents embarrassing of inspiration until an adequate flow of gas is available through the inhalator.
  • the total flow rate of the oxygen mixture should be adjusted so that the breathing bag is fully inflated during expiration and not less than inflated during inspiration. A rate of 6 liters per minute for adults and 3 to 4 liters per minute for children is usually satisfactory. If; at any time, the breathing bag is being deflated excessively during inspiration, the rubber stopper 34 in the superior outlet of the tracheotomy tube attachment' should be removed at once while the flow rate of gas through the inhalator is being adjusted. During these adjustments, embarrassment of inspiration may be prevented by occlud-- ing temporarily the superior outlet of the tracheotomy tube attachment with the finger which is quickly removed if the breathing bag continues to show excessive deflation during inspiration.
  • This rubber stopper 34 should be removed at any time it becomes necessary to discontinue the flow of gas through the inhalator as in the changing of gas cylinders orin the event-of any difiiculty in operation of the inhalator.
  • the temperature of the vapor in the humidifier should never be allowed to exceed 35 degrees C. since this causes excessive condensation in the'inspiratory system.
  • the entire system should be checked for condensed water every four hours if heat is applied to the humidifier and every twelve hours if the humidifier is operated at room temperature.
  • Our apparatus makes efiicient provision for inspection during operation to determine adequacy of respiratory excursions as well as other criteria and to detect obstructions to respiration.
  • the breathing bag 20 is observed to undergo volume changes with each tidal exchange, beinglpartially deflated during inspiration and fully inflated during expiration if the flow rate of gas is properly adjusted, since during the latter phase of respiration the one-way flap valve is closed. This excursion of the breathing bag should not proceed.
  • Condensation and accumulation of fluids, including mucous may :be observed in the transparent elbows i8 and 24 respectively, as well as in the transparent trap containers i5 and 25. If the excursion of the breathing bag and the intermittent bubbling of expired air through the water above the positive pressure manometer 29 does not occur when the nose and mouth are occluded, an obstruction in the trachea or the tracheotomy tube must be ruled out. Following suction of the tracheotomy, failure of the breathing bag excursions to occur and continuous bubbling through the manometer implies an obstruction in the trachea or bronchi. Nurses are instructed to suction only the tracheotomy tube. If aspiration does not relieve the obstruction, bronchoscopy should be considered.
  • the bronchoscopist has the choice of removing the mucous accumulations which are usually thesource of the obstruction, by passing the catheter into the trachea and bronchi or aspiration under direct observation by bronchoscopy.
  • the physician may determineby the above criteria, the indication for suction of the trachea-bronchial tree below the level of the tracheotomy.
  • Oximetry may be employed to determine the patients requirement not only for oxygen therapy 6. but more specifically, whether such oxygen should be administered under positive pressure. If such studies indicate that positive pressure is not necessary but that oxygen therapy alone maintains a satisfactory arterial oxygen saturation, the
  • tracheotomy inhalator isused with the positive pressure manometer 29 submerged below the surface of the water only 1 or 2 cm. This adjustment is recommended to preserve the feature of convenient visualization of the patients expired air through the manometer and applies a negligible positive pressure against expiration. For all practical purposes, the. use of the inhalator in this way does not exert therapeutically effective positive pressure.
  • the depth of the positive pressure manometer 29 is adjustable in the water and forms a restriction to the flow of oxygen which builds up a back pressure in the expiratorysystem and determines and hence indicates the expiratory positive pressure applied.
  • pressures from 4 to 12 c. of water have been used, depending upon the degree of oxygen deficiency.
  • the depth of manometer 2! in the liquid X de-- termines the inspiratory positive pressure applied and operates as a pressure release which permits the escape of excess pressure through the liquid X of vessel 22 and thence, through outlet 22a into the air in the event that pressure builds up in the system due to a stoppage or clogging.
  • Apparatus for applying oxygen therapy with optional use of positive pressure for respiration having in combination an inspiratory conductor system and an expiratory conductor system, a connector fitting for application to the patient having branch passages for connection of terminals of both of said systems and thereby also interconnecting said two systems, said inspiratory system including a terminal connection for communication with a source of oxygen-laden gas under pressure and including also a discharge intermediate of the, terminals of said inspirator system, said expiratory system having a discharge provided with an adjustable means for restricting the flow of fluid therethrough and having also mechanism interposed therein for collecting liquids and solids passing therethrough.
  • Apparatus for applying oxygen therapy with humidification for respiration having in combination an inspiratory conductor system and an expiratory conductor system, a connector fitting for application to the patient, having branch passages for connection of terminals of both of said systems, said inspiratory system including a terminal connection for communication with a source of oxygen-laden gas under pressure, a
  • said expiratory system having an adjustable restriction therein and having also, a check valve for precluding inspiration therethrough.
  • an inspiratory conductor system comprising a terminal for connection with a fitting applied to the patient, a terminal for connection with a source of oxygen-laden gas under pressure, ahumidifier for moistening' passing through said system, a check valve to preclude expiration therethrough, a discharge to atmosphere connected intermediately of said. system and having an adjustable restriction for lee termining the pressure of said system and an expansible and contractable breathing reservoir connected with said system.
  • a, tracheotomy tube-inhalator attachment comprising an inner tracheotomy tube adapted to telescope withina conventional tracheotomy tube and having a coupling element at the upper end thereof, a multipassage fitting having a depending canal adapted to register with the upper'end of said inner r tracheotomy tube and having a pair of lateral passagesadapted for connection with an inspiratory conductor and an expiratory conductor respectively, and coupling means comprising a pair of abuttable elements and an interlocking me nher for readily securing said fitting to the upper end of said inner tube with said depending canal in communication with said inner tube.
  • a tracheotomy tube-inhaler attachment for facilitating oxygen therapy in patients with tracheotomy comprising an inner tracheotomy tube adapted to telescope Within a conventional tracheotomy tube and having a coupling flange at the upper end thereof, a four-way fitting having a depending passage adapted to register with the upper end of said inner tracheotomy tube, having a pair of lateral passages adapted for connection with an inspiratory conductor and an expiratory conductor respectively and an upwardly apes-Also 8.
  • Apparatus for applying oyygen therapy with humidification and optional use of positive pressure to patients with tracheotomy having in combination, an inspiratory conductor system and an expiratory conductor system, a tracheotomy tube-attachment fitting having provision for'connection with the tracheotomy tube in the patient and for detachable connection of terminals of both of said systems, said inspirator system including :a terminal connection for communication with a source of oxygen-laden gas under pressure, a humidifier for moistening gas passing through said system and a discharge conduit in termediate of the terminals of said inspiratory system, said expiratory system having mechanism interposed therein for removing solids and liquids passing therethrough and for also precluding inspiration therethrough and having a discharge conduit, a manometer tank common to both systems and positive manometer elements connected with the said discharge conduits of said inspiratory and expiratory systems and independently adjustable in the liquid level, of said tank for building back pressures within said systems.
  • the expiratory system mechanism for collecting liquids and solids comprises a receptacle for containing a liquid therein, and a tube, one end of said tube being adapted to be submerged to adjustable depth in a liquid in said vessel for collection of moisture and secretions.
  • an expiratory conductor system comprising a terminal for connection with a fitting applied to the patient, a terminal for connection with the atmosphere, a flexible flap valve to preclude inspiration therethrough, and means for restricting the flow of fluids therethrough, and means for adjusting the pressure in said expiratory system.
  • the apparatus of claim 15 further characterized in that the expiratory system includes a receptacle for the collection of liquids and solids.

Description

1952 G. w. HOLT ETAL 2,584,
TRACHEOTOMY INHALER APPARATUS Filed Sept. 2, 1947 Patented Feb. 5, 1952 UNITED STATES e Tsar tries TRACHEOTOMY INHALER APPARATUS Application September 2, 1947, Serial No. 771,678
16 Claims.
Thisv invention relates to the application of oxygen therapy for patients with tracheotomy.
Our invention provides an apparatus and a method for supplying oxygen-enriched mixtures with humidification and optional use of positive pressure and includes an inspiratory system and an expiratory system with safeguards to effectively protect the patients respiration and to facilitate an inspection during operation and determinatio of criteria.
Our apparatus and method is particularly adapted for treatment ofpoliomyelitis or other patients with involvement of the vital bulbar nuclei Where demonstrable or impending laryngeal paralysis evolved.
It is an object-of our invention to provide an inhalator apparatus and method of the class described which will supply and humid ify oxygenhelium or oxygen air mixtures admisistered via tracheotomy, under optional positive pressure, so
constructed that both expiratory and inspiratory positive pressures may be independently controlled, as emergency demands.
. Afurther object is the provision of an apparatus and method of the class described wherein both inspiratory and expiratory systems are incorporated, both connected with the trachea through a common tracheotomy tube-inhalator attachment.
A. further object is the provision of apparatus nf'the class describedwherein moisture, secretion and other obstruction-producing elements are removed from both inspiratory and expiratory systems with inspection facilities at all times to determine respiratory excursions and conditions as well v as possible obstructions or embarrassment to respiration.
Another object is the provision of a method and apparatus for supplying tracheotomy inspiration oxygen-laden mixtures and also tra' cheotomy expiration which guarantees patency of the upper airway of the patient and which is efifective in combating pulmonary edema.
These and other objects and advanta es of our invention will be more apparent from the ollowing description made in connection with the accompanying drawin s wherein like reference characters refer to similar parts throughou he several vi ws and in wh ch:
Fig. 1 is a perspective view of an embodiment of oura naratus pro erly assembled and connected with a tracheotomv tube applied to a patient, the source of heat for the humidifier being swung to an'in'operative position:
'Fig'wz isasomewhat diagrammatic view with portions shown in vertical section of our apparatus, connected for use;
Fig. 3 is an exploded view of a preferred form of tracheotomy tube-inhalator attachment constituting a part of our apparatus; and
Fig. 4 is a perspective view of a conventional type of tracheotomy tube.
Referring to the drawings, a conventional gas tank T is illustrated, having its discharge provided' with a pressure control valve P and pressure gauge G, the output from said pressure control valve communicating with a small conduit it? having a depending portion Illa which extends through a humidifier receptacle H. Suitable means are associated with the discharge end of gas conduit It for distributing and finely diffusing the gas discharged. A satisfactory medium, as shown, comprises a horizontal, inverted shell lob, multi-periorated in the body or upper side thereof in the manner of a percolator and disposed at the lower portion of the humidifier receptacle and submerged in the water W contained. With this structure, a multiplicity of minute bubbles are produced during the discharge of gas which are diifused through the water and individually pick up moisture in their upward travel. The water level is maintained at a medial point in receptacle II and a discharge nipple I2 for themoistened gas is provided in the removable top of the humidifier casing connected as shown, by a rubber or other flexible tube #3 with a fitting l4 communicating with the top of a container [5 which constitutes a condensation trap. Means for heating the water in humidifier receptacle I l is provided, such as an electric lamp L, provided with a suitable inverted reflector and as shown, the heating unit is swingably mounted so that it may be swung from the position shown in Fig. 1, directly under the bottom of receptacle. It is desirable to maintain the temperature of the water in the humidifier receptacle below 36 degrees C. to prevent the subsequent over-accumulation and condensation of moisture in the system. To this end, thermostatic means are provided for con-. trolling the operation of the heating unit and as illustrated, comprise two thermostatically controlled switch devices IB mounted within the upper portion of receptacle l l and electrically connected with lamp L so that if either thermostat fails, the other may function to maintain proper temperature.
The humidified oxygen-laden gaseous mixture enters closed container 15 through acne-way duck-bill type, flat valve 14a and accumulation of moisture condensation is efiected in the lower portion of container l5. The gaseous mixture from the upper portion of container 15 passes through the top of the container and enters the inspiration tube I? which is constructed of highly flexible material and is detachably connected by a transparent elbow 18 with one of the lateral nipples of a tracheotomy tube-inhalator attachment or coupling, indicated as an entirety by the numeral Hi.
The inspiratory system described is provided with a breathing reservoir bag 20 constructed of highly flexible material and connected at a suitable point such as with the delivery fitting I4 through a lateral nipple thereof. The breathing bag 20, as shown, is provided with a removable closure and clean-out plug 29a detachably applied to the lower end thereof. The inspiratory system is also provided with an adjustable, positive pressure manometer constituting, as shown, a manometer tube 2 I, adjustably mount ed in the top of a liquid container 22 which is partially filled with water or other liquid to a predetermined level X, said tube being submerged in the water contained to a predetermined distance depending upon the particular requisite of the system. Manometer 2! is connected as shown, by a tube 21a, with a lateral nipple of the delivery fitting i4 and through said fitting with the breathing bag 20.
Our expiratory system, forming a part of our apparatus, comprises a highly flexible expiratory tube 23 connected .by a transparent elbow 24 with a second lateral nipple of the tracheotomy tube attachment or coupling [9. Expiration tube 23 communicates with the upper portion of an enclosed water trap receptacle 25. To this end, a small metal nipple 25 is provided in the closed top of receptacle 25, having secured to the lower and discharge end thereof, a one-way, flexible flap or duck-bill valve 2611.
A nipple 2'! passing through the closed top of water trap receptacle 25 is connected by a short conduit 28 with a positive pressure manomto the other (lSb).
eter 29 mounted in the top of manometer receptacle 22. Manometer 29 is in the form of a depending tube submerged, in most instances, a relatively short distance below the water level X of the manometer container and is preferably screened at its lower discharge end 29a. The manometer receptacle, at its upper end is open to the atmosphere through an air outlet 22a.
The tracheotomy tube-inhalator attachment or coupling in the form shown, comprises a fourway fitting l9 having the lateral nipples |9a and lilb respectively', for connection with the inspiration tube I1 and the. expiration tube 23 and having the depending, short conduit I90 for con-' nection with the tracheotomy tube, said conduit terminating in a-coupling disc 3i! provided with a lock-accommodating notch 30a. The fitting I9 is also provided with an upper short conduit or passage [9d open at its upper end and adapted to be occluded by a surrounding rubber cap member 34.
cooperatively associated with the fitting I9 is a curved, inner tracheotomy tube 32 adapted to longitudinally telescope within the main tracheotomy tube 33 and rigidly carrying at its upper end, a coupling disc 32a having an overlying arcuate flange 32b adapted to engage and retain a marginal portion of the coupling disc 39. An angular lock 3| is pivoted on the marginal portion of disc 30a in position to be accommodated by the notch 300. when swung to neutral position. It may be turned in either direction with the discs 30 and 32a abutted concentrically to lock said discs together.
Operation In setting up this apparatus for use on the tracheotomy patient, water is put into the humidifier flask to a level of 4 to 5 centimeters above the perforated rubber tubing. Our apparatus is arranged in relation to the patient so that both moisture traps I5 and 25 are dependent to afferent and efierent tubing for proper drainage of condensation water. The light bulb under the humidifier flask l l is turned on and the temperature of the vapor regulated to degrees C. by adjustment of the distance between the bulb and the flask. Patency of the inspiratory system may be checked by manually occluding the end of the inspiratory system at the point where it is to be fitted to the tracheotomy inhalator attachment. Starting the flow of gas through the humidifier I I will then inflate the breathing bag 21!. Release of the end of the inspiratory tube allows part of this volume of gas to pass through the one-way flap valve Ma. The expiratory system may then be checked for patency by approximating the open ends of the inspiratory and expiratory tubes H and 23 (circumventing for the moment, tracheotomy tube i8). Flow of gas should then occur through the entire unit as indicated by continuous bubbling of gas from the positive pressure manom eter 2 1' under water. All fittings in the inhalator should. be checked for leaks. All inhalator parts should be sterilized carefully before use.
The inhalator may now be used for oxygen therapy in the patient with tracheotomy (Fig. 1). After looking the tracheotomy tube H! in place On the inner cannula 32 of the tracheotomy, the three remaining outlets are left open until the flow of the desired oxygen mixture has filled the breathing bag. The inspiratory tube is then connected to one of the lateral outlets l9a of the tracheotomy tube attachment, the expiratory tube Finally, the superior outlet [9d is occluded. The above sequence prevents embarrassing of inspiration until an adequate flow of gas is available through the inhalator.
The total flow rate of the oxygen mixture should be adjusted so that the breathing bag is fully inflated during expiration and not less than inflated during inspiration. A rate of 6 liters per minute for adults and 3 to 4 liters per minute for children is usually satisfactory. If; at any time, the breathing bag is being deflated excessively during inspiration, the rubber stopper 34 in the superior outlet of the tracheotomy tube attachment' should be removed at once while the flow rate of gas through the inhalator is being adjusted. During these adjustments, embarrassment of inspiration may be prevented by occlud-- ing temporarily the superior outlet of the tracheotomy tube attachment with the finger which is quickly removed if the breathing bag continues to show excessive deflation during inspiration. This rubber stopper 34 should be removed at any time it becomes necessary to discontinue the flow of gas through the inhalator as in the changing of gas cylinders orin the event-of any difiiculty in operation of the inhalator. The temperature of the vapor in the humidifier should never be allowed to exceed 35 degrees C. since this causes excessive condensation in the'inspiratory system. The necessity of arranging the condensation traps dependent to the. tubing in the inhalator and 5 leading to the patient,.cannot be overemphasized. The entire system should be checked for condensed water every four hours if heat is applied to the humidifier and every twelve hours if the humidifier is operated at room temperature.
Our apparatus makes efiicient provision for inspection during operation to determine adequacy of respiratory excursions as well as other criteria and to detect obstructions to respiration. The breathing bag 20 is observed to undergo volume changes with each tidal exchange, beinglpartially deflated during inspiration and fully inflated during expiration if the flow rate of gas is properly adjusted, since during the latter phase of respiration the one-way flap valve is closed. This excursion of the breathing bag should not proceed.
to a point of less than A full inflation. If this excursion of the breathing bag is not occurring, there is either an obstruction in the inhalator, the tracheotomy tube, the flow rate of gas through the inhalator is excessive, or the patient is breathway of the manometer and the duration of this bubbling is useful, particularly in patients with apnea, a serious sympton in poliomyelitis.
For application of the above criteria, it is frequently necessaryto occlude the upper airway above the tracheotomy by holding the nose and mouth closed. This prevents whatever upward leak is occurring around the outside of the tracheotomy tube, thus avoiding dilution of the gas administered through the inhalator with air via the upper airway. If this leak has been appreciable and the excursions of the breathing bag have not been apparent, the above procedure should cause such excursions to appear in the breathing bag. Similarly, occluding the upper airway (by mask or manually) should cause bubbling in the positive pressure manometer during expiration.
Condensation and accumulation of fluids, including mucous may :be observed in the transparent elbows i8 and 24 respectively, as well as in the transparent trap containers i5 and 25. If the excursion of the breathing bag and the intermittent bubbling of expired air through the water above the positive pressure manometer 29 does not occur when the nose and mouth are occluded, an obstruction in the trachea or the tracheotomy tube must be ruled out. Following suction of the tracheotomy, failure of the breathing bag excursions to occur and continuous bubbling through the manometer implies an obstruction in the trachea or bronchi. Nurses are instructed to suction only the tracheotomy tube. If aspiration does not relieve the obstruction, bronchoscopy should be considered. The bronchoscopist has the choice of removing the mucous accumulations which are usually thesource of the obstruction, by passing the catheter into the trachea and bronchi or aspiration under direct observation by bronchoscopy. Thus, by the proper use of the inhalator, the physician may determineby the above criteria, the indication for suction of the trachea-bronchial tree below the level of the tracheotomy.
Oximetry may be employed to determine the patients requirement not only for oxygen therapy 6. but more specifically, whether such oxygen should be administered under positive pressure. If such studies indicate that positive pressure is not necessary but that oxygen therapy alone maintains a satisfactory arterial oxygen saturation, the
tracheotomy inhalator isused with the positive pressure manometer 29 submerged below the surface of the water only 1 or 2 cm. This adjustment is recommended to preserve the feature of convenient visualization of the patients expired air through the manometer and applies a negligible positive pressure against expiration. For all practical purposes, the. use of the inhalator in this way does not exert therapeutically effective positive pressure.
The depth of the positive pressure manometer 29 is adjustable in the water and forms a restriction to the flow of oxygen which builds up a back pressure in the expiratorysystem and determines and hence indicates the expiratory positive pressure applied. In the presence of impending or existent pulmonary edema, pressures from 4 to 12 c. of water have been used, depending upon the degree of oxygen deficiency.
The depth of manometer 2! in the liquid X de-- termines the inspiratory positive pressure applied and operates as a pressure release which permits the escape of excess pressure through the liquid X of vessel 22 and thence, through outlet 22a into the air in the event that pressure builds up in the system due to a stoppage or clogging.
It will of course, be understood that various changes may be made in the form, details arrangement and proportions of the parts without departing from the scope of our invention.
What we claim is: y
1. Apparatus for applying oxygen therapy with optional use of positive pressure for respiration, having in combination an inspiratory conductor system and an expiratory conductor system, a connector fitting for application to the patient having branch passages for connection of terminals of both of said systems and thereby also interconnecting said two systems, said inspiratory system including a terminal connection for communication with a source of oxygen-laden gas under pressure and including also a discharge intermediate of the, terminals of said inspirator system, said expiratory system having a discharge provided with an adjustable means for restricting the flow of fluid therethrough and having also mechanism interposed therein for collecting liquids and solids passing therethrough.
2. The structure set forth in claim 1 and an expansible and contractable breathing reservoir connected with said inspiratory system.
3. Apparatus for applying oxygen therapy with humidification for respiration, having in combination an inspiratory conductor system and an expiratory conductor system, a connector fitting for application to the patient, having branch passages for connection of terminals of both of said systems, said inspiratory system including a terminal connection for communication with a source of oxygen-laden gas under pressure, a
' building back pressure therein and a check valve for precluding inspiration therethrough.
4. The structure set forth in claim 3 and an expansible and contractable breathing reservoir connected with said inspiratory system;
5. Apparatus for applying oxygen therapy] with said system and a restricted discharge interme-.
diate of the terminals of said inspiratory system, said expiratory system having an adjustable restriction therein and having also, a check valve for precluding inspiration therethrough.
6. The structure set forth in claim 5 and an expansible and contractable breathing reservoir connected with said inspiratory system.
7. In apparatus for applying oxygen therapy with humidification and optional use of positive pressure for respiration, an inspiratory conductor systemcomprising a terminal for connection with a fitting applied to the patient, a terminal for connection with a source of oxygen-laden gas under pressure, ahumidifier for moistening' passing through said system, a check valve to preclude expiration therethrough, a discharge to atmosphere connected intermediately of said. system and having an adjustable restriction for lee termining the pressure of said system and an expansible and contractable breathing reservoir connected with said system.
8. The structure set forth in claim 7 and said discharge including a positive pressure manometer.
9. The structure set forth in claim 7 and means for collecting condensation moisture prior to inspiration. I
10. In apparatus for applying oxygen therapy to patients with tracheotomy, a, tracheotomy tube-inhalator attachment comprising an inner tracheotomy tube adapted to telescope withina conventional tracheotomy tube and having a coupling element at the upper end thereof, a multipassage fitting having a depending canal adapted to register with the upper'end of said inner r tracheotomy tube and having a pair of lateral passagesadapted for connection with an inspiratory conductor and an expiratory conductor respectively, and coupling means comprising a pair of abuttable elements and an interlocking me nher for readily securing said fitting to the upper end of said inner tube with said depending canal in communication with said inner tube.
11. The structure set forth in claim 10 having also an upper open ended passage and removable meansfor occluding said passage. 1
12. A tracheotomy tube-inhaler attachment for facilitating oxygen therapy in patients with tracheotomy comprising an inner tracheotomy tube adapted to telescope Within a conventional tracheotomy tube and having a coupling flange at the upper end thereof, a four-way fitting having a depending passage adapted to register with the upper end of said inner tracheotomy tube, having a pair of lateral passages adapted for connection with an inspiratory conductor and an expiratory conductor respectively and an upwardly apes-Also 8. extending ,open ended passage and means for occluding, the same, said depending passage terminating in a coupling element for engagement with the coupling flange of said inner tracheotomy tube andmeans for detachably locking said coupling element and coupling flange together.
-l3. Apparatus for applying oyygen therapy with humidification and optional use of positive pressure to patients with tracheotomy having in combination, an inspiratory conductor system and an expiratory conductor system, a tracheotomy tube-attachment fitting having provision for'connection with the tracheotomy tube in the patient and for detachable connection of terminals of both of said systems, said inspirator system including :a terminal connection for communication with a source of oxygen-laden gas under pressure, a humidifier for moistening gas passing through said system and a discharge conduit in termediate of the terminals of said inspiratory system, said expiratory system having mechanism interposed therein for removing solids and liquids passing therethrough and for also precluding inspiration therethrough and having a discharge conduit, a manometer tank common to both systems and positive manometer elements connected with the said discharge conduits of said inspiratory and expiratory systems and independently adjustable in the liquid level, of said tank for building back pressures within said systems.
14. The structure of claim 1 further characterized inthat the expiratory system mechanism for collecting liquids and solids comprises a receptacle for containing a liquid therein, and a tube, one end of said tube being adapted to be submerged to adjustable depth in a liquid in said vessel for collection of moisture and secretions.
15. In an apparatus for applying oxygen therapy with humidification and optional use of positive pressure for respiration, an expiratory conductor system comprising a terminal for connection with a fitting applied to the patient, a terminal for connection with the atmosphere, a flexible flap valve to preclude inspiration therethrough, and means for restricting the flow of fluids therethrough, and means for adjusting the pressure in said expiratory system.
16. The apparatus of claim 15 further characterized in that the expiratory system includes a receptacle for the collection of liquids and solids.
GEORGE W. HOLT. WILLIAM G. KUBICEK.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS
US771678A 1947-09-02 1947-09-02 Tracheotomy inhaler apparatus Expired - Lifetime US2584450A (en)

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Cited By (27)

* Cited by examiner, † Cited by third party
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US2755797A (en) * 1954-10-15 1956-07-24 Loewenstern Walter Adjustable humidifier assembly
US2786469A (en) * 1953-12-18 1957-03-26 Cohen William Tracheal tube assembly and tracheal plug
US2845928A (en) * 1953-01-28 1958-08-05 Misto2 Gen Equipment Co Bronchopulmonary therapeutic apparatus
US2890696A (en) * 1957-12-17 1959-06-16 Lucien E Morris Anesthesia apparatus
US2963021A (en) * 1957-12-26 1960-12-06 Gomco Surgical Mfg Corp Vaporizer
US3039469A (en) * 1960-05-09 1962-06-19 Josephine G Fountain Direct suction tracheotomy tube
US3262447A (en) * 1961-12-01 1966-07-26 Edward P Burke Respirator for laryngectomies
US3366109A (en) * 1963-12-19 1968-01-30 Walter E. Mcallister Respiration method and apparatus of continuous positive pressure flow of air
US3388705A (en) * 1965-04-08 1968-06-18 Foregger Company Inc Universal endotracheal tube coupling or adaptor
US3941862A (en) * 1973-12-11 1976-03-02 Hudson Oxygen Therapy Sales Company Gas diffusing assembly
US3991762A (en) * 1974-09-30 1976-11-16 Radford F Richard Aspirating device for patient ventilation apparatus
US4105725A (en) * 1972-11-21 1978-08-08 Liquid Carbonic Canada Ltd. Saturated liquid/vapor generating and dispensing
US4351328A (en) * 1980-03-27 1982-09-28 Sontek Industries, Inc. Simultaneous respiration and endotracheal suctioning of a critically ill patient
EP0112979A2 (en) * 1982-11-05 1984-07-11 Anton Dr.-Ing. Obermayer Respiratory aid apparatus
US4967743A (en) * 1987-03-11 1990-11-06 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5065754A (en) * 1990-06-06 1991-11-19 Ballard Medical Products Aspirating catheter tube inserter
US5101820A (en) * 1989-11-02 1992-04-07 Christopher Kent L Apparatus for high continuous flow augmentation of ventilation and method therefor
US5107829A (en) * 1987-03-11 1992-04-28 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5133345A (en) * 1987-03-11 1992-07-28 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5215522A (en) * 1984-07-23 1993-06-01 Ballard Medical Products Single use medical aspirating device and method
US5277177A (en) * 1984-07-23 1994-01-11 Ballard Medical Products Single use medical aspirating device and method
US5694922A (en) * 1994-05-18 1997-12-09 Ballard Medical Products Swivel tube connections with hermetic seals
US6457472B1 (en) 1996-12-12 2002-10-01 The Johns Hopkins University Method and apparatus for providing ventilatory support to a patient
US6494203B1 (en) 1994-08-19 2002-12-17 Ballard Medical Products Medical aspirating/ventilating closed system improvements and methods
WO2003097224A1 (en) * 2002-05-17 2003-11-27 Salter Labs Bubble humidifier with improved diffuser and pressure relief device
EP2123321A1 (en) 2008-05-23 2009-11-25 WILAmed GmbH Ventilation gas conditioning device, parts of same and method for conditioning ventilation gas
ITTO20090200A1 (en) * 2009-03-17 2010-09-18 Covidien Ag SYSTEM FOR CONDITIONING RESPIRATORY GASES

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US1169996A (en) * 1909-02-13 1916-02-01 Roscoe S Prindle Apparatus for producing artificial respiration.
US1202391A (en) * 1915-08-19 1916-10-24 Dennis Emerson Jackson Process for the production and maintenance of general analgesia or anesthesia.
DE670977C (en) * 1933-02-15 1939-06-05 Bernh Draeger Anesthetic machine, especially for aetheric anesthesia
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Cited By (32)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2845928A (en) * 1953-01-28 1958-08-05 Misto2 Gen Equipment Co Bronchopulmonary therapeutic apparatus
US2786469A (en) * 1953-12-18 1957-03-26 Cohen William Tracheal tube assembly and tracheal plug
US2755797A (en) * 1954-10-15 1956-07-24 Loewenstern Walter Adjustable humidifier assembly
US2890696A (en) * 1957-12-17 1959-06-16 Lucien E Morris Anesthesia apparatus
US2963021A (en) * 1957-12-26 1960-12-06 Gomco Surgical Mfg Corp Vaporizer
US3039469A (en) * 1960-05-09 1962-06-19 Josephine G Fountain Direct suction tracheotomy tube
US3262447A (en) * 1961-12-01 1966-07-26 Edward P Burke Respirator for laryngectomies
US3366109A (en) * 1963-12-19 1968-01-30 Walter E. Mcallister Respiration method and apparatus of continuous positive pressure flow of air
US3388705A (en) * 1965-04-08 1968-06-18 Foregger Company Inc Universal endotracheal tube coupling or adaptor
US4105725A (en) * 1972-11-21 1978-08-08 Liquid Carbonic Canada Ltd. Saturated liquid/vapor generating and dispensing
US3941862A (en) * 1973-12-11 1976-03-02 Hudson Oxygen Therapy Sales Company Gas diffusing assembly
US3991762A (en) * 1974-09-30 1976-11-16 Radford F Richard Aspirating device for patient ventilation apparatus
US4351328A (en) * 1980-03-27 1982-09-28 Sontek Industries, Inc. Simultaneous respiration and endotracheal suctioning of a critically ill patient
EP0112979A2 (en) * 1982-11-05 1984-07-11 Anton Dr.-Ing. Obermayer Respiratory aid apparatus
EP0112979A3 (en) * 1982-11-05 1984-09-26 Anton Dipl.-Ing. Obermayer Respiratory aid apparatus
US5611336A (en) * 1984-07-23 1997-03-18 Ballard Medical Products, Inc. Single use medical aspirating device and method
US5215522A (en) * 1984-07-23 1993-06-01 Ballard Medical Products Single use medical aspirating device and method
US5277177A (en) * 1984-07-23 1994-01-11 Ballard Medical Products Single use medical aspirating device and method
US4967743A (en) * 1987-03-11 1990-11-06 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5107829A (en) * 1987-03-11 1992-04-28 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5133345A (en) * 1987-03-11 1992-07-28 Ballard Medical Products Neonatal closed system for involuntary aspiration and ventilation, and method
US5101820A (en) * 1989-11-02 1992-04-07 Christopher Kent L Apparatus for high continuous flow augmentation of ventilation and method therefor
US5065754A (en) * 1990-06-06 1991-11-19 Ballard Medical Products Aspirating catheter tube inserter
US5694922A (en) * 1994-05-18 1997-12-09 Ballard Medical Products Swivel tube connections with hermetic seals
US6494203B1 (en) 1994-08-19 2002-12-17 Ballard Medical Products Medical aspirating/ventilating closed system improvements and methods
US6457472B1 (en) 1996-12-12 2002-10-01 The Johns Hopkins University Method and apparatus for providing ventilatory support to a patient
WO2003097224A1 (en) * 2002-05-17 2003-11-27 Salter Labs Bubble humidifier with improved diffuser and pressure relief device
US6786475B2 (en) * 2002-05-17 2004-09-07 Salter Labs Bubble humidifier with improved diffuser and pressure relief device
AU2003234557B2 (en) * 2002-05-17 2009-09-10 Salter Labs Bubble humidifier with improved diffuser and pressure relief device
EP2123321A1 (en) 2008-05-23 2009-11-25 WILAmed GmbH Ventilation gas conditioning device, parts of same and method for conditioning ventilation gas
ITTO20090200A1 (en) * 2009-03-17 2010-09-18 Covidien Ag SYSTEM FOR CONDITIONING RESPIRATORY GASES
EP2229973A3 (en) * 2009-03-17 2010-11-03 Covidien AG System for conditioning respiratory gases

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