Passive inspiratory nebulizer system

US 6,076,519 A
Filed: 11/04/1996
Issued: 06/20/2000
Est. Priority Date: 12/14/1993
Status: Expired due to Fees

First Claim

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1. An adapter device for use in an apparatus for delivering pressurized gas to a patient during inhalation and for preventing delivery of pressurized gas to the patient during exhalation, said adapter device being adapted to couple an airway device to a sensor port associated with a pressurized gas supply source, and comprising:

a generally tubular element having a fluid passage extending therethrough, and having a connector end adapted for insertion into an expired gas outlet port in such an airway device, and a sensor end adapted to be coupled to a proximal end of a fluid line, such a fluid line being adapted to be coupled at a distal end thereof with such a sensor port; and

structure for ensuring that such an expired gas outlet port remains open to atmosphere when said connector end is inserted therein, said structure comprising a generally disk-shaped element circumscribing said tubular element between said sensor end and said connector end, the disk-shaped element having at least one hole extending therethrough, a connector end of said hole being disposed in an axially spaced relationship relative to said tubular element connector end, such that a substantial portion of said tubular element connector end may be inserted into an expired gas outlet port in order that said connector end of said hole abuts the expired gas outlet port, and the airway device is open to atmosphere through said at least one hole.

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Abstract

A hand-held nebulizer system is provided which nebulizes during the patient'"'"'s inspiration cycle only. The system includes a universal sensor port adapter which is adapted to fluidly connect an airway device with a sensor port of the system'"'"'s source of pressurized gas in such a manner as to permit the patient to inhale and exhale atmospheric air, while permitting the use of standard airway devices. A unique valve arrangement is also provided in the device for supplying the pressurized gas which permits the system to be extremely sensitive to small pressure differentials, thereby ensuring that the system detects the respiratory cycle phases of even the weakest patients.

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19 Claims

1. An adapter device for use in an apparatus for delivering pressurized gas to a patient during inhalation and for preventing delivery of pressurized gas to the patient during exhalation, said adapter device being adapted to couple an airway device to a sensor port associated with a pressurized gas supply source, and comprising:
- a generally tubular element having a fluid passage extending therethrough, and having a connector end adapted for insertion into an expired gas outlet port in such an airway device, and a sensor end adapted to be coupled to a proximal end of a fluid line, such a fluid line being adapted to be coupled at a distal end thereof with such a sensor port; and
  
  structure for ensuring that such an expired gas outlet port remains open to atmosphere when said connector end is inserted therein, said structure comprising a generally disk-shaped element circumscribing said tubular element between said sensor end and said connector end, the disk-shaped element having at least one hole extending therethrough, a connector end of said hole being disposed in an axially spaced relationship relative to said tubular element connector end, such that a substantial portion of said tubular element connector end may be inserted into an expired gas outlet port in order that said connector end of said hole abuts the expired gas outlet port, and the airway device is open to atmosphere through said at least one hole.
- View Dependent Claims (2, 3, 4, 5)
- - 2. An adapter device as recited in claim 1, wherein said disk-shaped element has a plurality of holes bored therethrough, arranged in an annular pattern surrounding said tubular element.
  - 3. An adapter device as recited in claim 1, wherein said disk-shaped element further comprises a first smaller diameter portion closest to the connector end of the adapter device and a second larger diameter portion closest to the sensor end of the adapter device, said at least one hole extending continuously through both of said disk diameter portions, wherein when said connector end is inserted into a expired gas outlet port, the smaller diameter disk portion enters said expired gas outlet port while said larger diameter disk portion abuts the end of said airway device.
  - 4. An adapter device as recited in claim 3, wherein said first smaller diameter portion has a greater axial length than said second larger diameter portion.
  - 5. An adapter device as recited in claim 1, wherein said connector end is tapered for easier insertion into a proximal end of a fluid line.

6. A system for delivering pressurized gas to a patient during the inspiratory phase and for preventing delivery of pressurized gas to a patient during the expiratory phase of a patient'"'"'s respiratory cycle, said system comprising:
- a pressurized gas supply device;
  
  an airway device having a first port adapted to receive pressurized gas from said supply device, a second port adapted to receive a mouthpiece through which a patient may inhale and exhale, a third port which is open to the atmosphere, and a fluid passage interconnecting said first, second, and third ports;
  
  a flow controller for initiating the flow of pressurized gas to said first port responsive to inhalation by a patient, and for shutting off the flow of pressurized gas to said first port responsive to exhalation by a patient; and
  
  a nebulizer unit adapted to be in-line between said pressurized gas supply device and said first port, said nebulizer unit including a reservoir for containing a supply of medication and having an inlet for receiving pressurized gas from said pressurized gas supply device, and an outlet adapted for fluid communication with said first port, through which a mixture of pressurized gas and aerosolized medication may flow for inhalation by said patient.
- View Dependent Claims (7, 8, 9, 10, 11, 12)
- - 7. The system as recited in claim 6, and further comprising an adapter device for coupling said third port to a sensor port associated with said pressurized gas supply device, said adapter device comprising a first end adapted for insertion into the third port and a second end adapted to be coupled to said sensor port, and further comprising structure for ensuring that said third port remains open to atmosphere when said first adapter end is inserted therein.
  - 8. The system as recited in claim 7, wherein said adapter device comprises a generally tubular element having a fluid passage therethrough, said first end comprising a connector end adapted for insertion into the third port, and said second end comprising a sensor end adapted to be coupled to a proximal end of a fluid line, the distal end of said fluid line being adapted to be coupled to said sensor port, such that said third port and said sensor port are in fluid communication through said generally tubular fluid passage and said fluid line;
    - wherein the structure for ensuring that the third port remains open to atmosphere when the adapter connector end is inserted therein comprises a generally disk-shaped element circumscribing said tubular element between the sensor end and the connector end, the disk-shaped element having at least one hole extending therethrough, such that when the connector end is inserted into said third port, the disk-shaped element abuts the end of the airway device and the airway device is open to the atmosphere through said at least one hole.
  - 9. The system as recited in claim 8, wherein said disk-shaped element has a plurality of holes extending therethrough, arranged in an annular pattern surrounding said tubular element.
  - 10. The system as recited in claim 8, wherein said disk-shaped element further comprises a first smaller diameter portion closest to the connector end of the adapter device and a second larger diameter portion closest to the sensor end of the adapter device, said at least one hole extending continuously through both of said disk diameter portions, wherein when said connector end is inserted into the airway device third port, the smaller diameter disk portion enters said airway device fluid passage while the larger diameter disk portion abuts the end of said airway device.
  - 11. The system as recited in claim 10, wherein said first smaller diameter portion has a greater axial length than said second larger diameter portion.
  - 12. The system as recited in claim 8, wherein said connector end is tapered for easier insertion into the proximal end of said fluid line.

13. A system for delivering pressurized gas to a patient during the inspiratory phase and for preventing delivery of pressurized gas to a patient during the expiratory phase of a patient'"'"'s respiratory cycle, said system comprising:
- a pressurized gas supply device;
  
  an airway device having a first port adapted to receive pressurized gas from said supply device, a second port adapted to receive a mouthpiece through which a patient may inhale and exhale, a third port which is open to the atmosphere, and a fluid passage interconnecting said first, second, and third ports;
  
  a flow controller for initiating the flow of pressurized gas to said first port responsive to inhalation by a patient, and for shutting off the flow of pressurized gas to said first port responsive to exhalation by a patient;
  
  an adapter device for coupling said third port to a sensor port associated with said pressurized gas supply device, said adapter device comprising a generally tubular element having a first end adapted for insertion into the third port and a second end adapted to be coupled to said sensor port;
  
  said generally tubular element having a fluid passage therethrough, said first end comprising a connector end adapted for insertion into the third port, and said second end comprising a sensor end adapted to be coupled to a proximal end of a fluid line, the distal end of said fluid line being adapted to be coupled to said sensor port, such that said third port and said sensor port are in fluid communication through said generally tubular fluid passage and said fluid line; and
  
  a generally disk-shaped element for ensuring that the third port remains open to atmosphere when the adapter connector end is inserted therein, said disk-shaped element circumscribing said tubular element between the sensor end and the connector end, the disk-shaped element having at least one hole extending therethrough, such that when the connector end is inserted into said third port, the disk-shaped element abuts the end of the airway device and the airway device is open to the atmosphere through said at least one hole.
- View Dependent Claims (14, 15, 16, 17)
- - 14. The system as recited in claim 13, wherein said disk-shaped element has a plurality of holes extending therethrough, arranged in an annular pattern surrounding said tubular element.
  - 15. The system as recited in claim 13, wherein said disk-shaped element further comprises a first smaller diameter portion closest to the connector end of the adapter device and a second larger diameter portion closest to the sensor end of the adapter device, said at least one hole extending continuously through both of said disk diameter portions, wherein when said connector end is inserted into the airway device third port, the smaller diameter disk portion enters said airway device fluid passage while the larger diameter disk portion abuts the end of said airway device.
  - 16. The system as recited in claim 15, wherein said first smaller diameter portion has a greater axial length than said second larger diameter portion.
  - 17. The system as recited in claim 13, wherein said connector end is tapered for easier insertion into the proximal end of said fluid line.

18. An adapter device for use in an apparatus for delivering pressurized gas to a patient during inhalation and for preventing delivery of pressurized gas to the patient during exhalation, said adapter device being adapted to couple an airway device to a sensor port associated with a pressurized gas supply source, and comprising:
- a generally tubular element having a fluid passage extending therethrough, and having a connector end adapted for insertion into an expired gas outlet port in such an airway device, and a sensor end adapted to be coupled to a proximal end of a fluid line, such a fluid line being adapted to be coupled at a distal end thereof with such a sensor port; and
  
  structure for ensuring that such an expired gas outlet port remains open to atmosphere when said connector end is inserted therein, said structure comprising a generally disk-shaped element circumscribing said tubular element between said sensor end and said connector end, the disk-shaped element comprising a first smaller diameter portion closest to the connector end of the adapter device and a second larger diameter portion closest to the sensor end of the adapter device, said disk-shaped element having at least one hole extending continuously through both of said disk diameter portions, such that when the connector end is inserted into an expired gas outlet port, the smaller diameter disk portion enters the expired gas outlet port while said larger diameter disk portion abuts the end of the airway device, the airway device being open to the atmosphere through said at least one hole.
- View Dependent Claims (19)
- - 19. An adapter device as recited in claim 18, wherein said first smaller diameter portion has a greater axial length than said second larger diameter portion.

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Current Assignee
Ethex International, Inc.
Original Assignee
Ethex International, Inc.
Inventors
Johnson, Robert J.
Primary Examiner(s)
Lewis, Aaron J.

Application Number

US08/743,292
Time in Patent Office

1,324 Days
Field of Search

128/200.14, 128/200.16, 128/200.18, 128/202.27, 128/203.12, 128/204.23, 128/204.26, 128/912, 128/205.11, 285/124.1, 285/124.3, 285/124.5, 285/123.1, 285/123.15
US Class Current

128/200.14
CPC Class Codes

A61M 11/06 of the injector type

A61M 15/0091 mechanically breath-triggered

Passive inspiratory nebulizer system

First Claim

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Abstract

127 Citations

19 Claims

Specification

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Passive inspiratory nebulizer system

First Claim

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0 Petitions

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Accused Products

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Abstract

127 Citations

19 Claims

Specification

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Solutions

Use Cases

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