Method of measuring and regulating the pressure in the sealing cuff of a tracheal tube and apparatus for implementing the method

US 5,361,753 A
Filed: 07/07/1993
Issued: 11/08/1994
Est. Priority Date: 07/07/1992
Status: Expired due to Fees

First Claim

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1. A processor based method of measuring and regulating pressure in an inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages, the method comprising:

receiving with the processor an actual value of the pressure existing in the sealing cuff as measured by a pressure sensor;

detecting with the processor large and steep increases in pressure in the sealing cuff that deviate from a nominal pressure in the sealing cuff and interpreting the pressure increases as predicting a subsequent widening of the trachea which will result in a decrease of the pressure in the sealing cuff; and

provisionally increasing under control of the processor the pressure in the sealing cuff by adding air to the sealing cuff for a limited and defined period of time and thereafter regulating the pressure in the sealing cuff gradually toward the nominal pressure.

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Abstract

A processor based method of measuring and regulating the pressure in the inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding the aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages. The processor receives the actual value of the pressure existing in the sealing cuff as measured by a pressure sensor, detects large and steep increases in pressure in the sealing cuff that deviate from a nominal pressure in the sealing cuff, and interprets the pressure increases as predicting a subsequent widening of the trachea which will result in a decrease of the pressure in the sealing cuff. The processor provisionally increases the pressure in the sealing cuff by adding air for a limited and defined period of time and thereafter regulates the pressure in the sealing cuff gradually toward the original nominal pressure.

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13 Claims

1. A processor based method of measuring and regulating pressure in an inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages, the method comprising:
- receiving with the processor an actual value of the pressure existing in the sealing cuff as measured by a pressure sensor;
  
  detecting with the processor large and steep increases in pressure in the sealing cuff that deviate from a nominal pressure in the sealing cuff and interpreting the pressure increases as predicting a subsequent widening of the trachea which will result in a decrease of the pressure in the sealing cuff; and
  
  provisionally increasing under control of the processor the pressure in the sealing cuff by adding air to the sealing cuff for a limited and defined period of time and thereafter regulating the pressure in the sealing cuff gradually toward the nominal pressure.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method as defined in claim 1, further comprising initiating an alarm if pressure in the sealing cuff exceeds or falls below predetermined alarm pressure thresholds stored in the processor.
  - 3. The method as defined in claim 2, further comprising providing the processor with prestored control and alarm pressure threshold values, wherein the prestored control and alarm pressure threshold values are user changeable.
  - 4. The method as defined in claim 3, further comprising displaying with the processor a patient specific user menu through which control and alarm pressure threshold values may be set by a user and stored by the processor.
  - 5. The method as defined in claim 3, further comprising displaying with the processor at least one standard menu through which control and alarm pressure threshold values may be set by a user and stored by the processor.
  - 6. The method as defined in claim 5, further comprising displaying with the processor one of a standard menu for adults and a standard menu for children.

7. An apparatus for measuring and regulating tracheal sealing cuff pressure, comprising:
- a compressed air pressure generator for providing compressed air;
  
  a first compressed air conduit leading from the compressed air pressure generator to a tracheal sealing cuff;
  
  an electrically actuatable air intake valve coupled to the first compressed air conduit and disposed between the compressed air pressure generator and the tracheal sealing cuff;
  
  an electrically actuatable air discharge valve coupled to the first compressed air conduit and disposed between the tracheal sealing cuff and ambient air;
  
  a pressure sensor integral with the sealing cuff for measuring the pressure in the tracheal sealing cuff; and
  
  processor means coupled to the pressure sensor for receiving measurement signals therefrom, for controlling the electrically actuatable air discharge valve and the electrically actuatable air intake valve.
- View Dependent Claims (8)
- - 8. A method for measuring and regulating pressure in an inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages which comprises utilizing the apparatus of claim 7.

9. An apparatus for measuring and regulating tracheal sealing cuff pressure, comprising:
- a compressed air pressure generator for providing compressed air;
  
  a first compressed air conduit leading from the compressed air pressure generator to a tracheal sealing cuff;
  
  an electrically actuatable air intake valve coupled to the first compressed air conduit and disposed between the compressed air pressure generator and the tracheal sealing cuff;
  
  an electrically actuatable air discharge valve coupled to the first compressed air conduit and disposed between the tracheal sealing cuff and ambient air;
  
  a pressure sensor for measuring the pressure in the tracheal sealing cuff;
  
  processor means coupled to the pressure sensor for receiving measurement signals therefrom, for controlling the electrically actuatable air discharge valve and the electrically actuatable air intake valve; and
  
  a second compressed air conduit having first and seconds ends, said second compressed air conduit being connected to the sealing cuff at said first end;
  
  wherein, the pressure sensor whose measurement signals are fed to the control processor is disposed at the second end of the second compressed air conduit adjacent to the connection with the sealing cuff at said first end.
- View Dependent Claims (10, 11)
- - 10. A method for measuring and regulating pressure in an inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages which comprises utilizing the apparatus of claim 9.
  - 11. An apparatus as defined in claim 9, wherein cross sections of the first and second compressed air conduits are configured for optimum control behavior.

12. An apparatus for measuring and regulating tracheal sealing cuff pressure, comprising:
- a compressed air pressure generator for providing compressed air;
  
  a first compressed air conduit leading from the compressed air pressure generator to a tracheal sealing cuff;
  
  an electrically actuatable air intake valve coupled to the first compressed air conduit and disposed between the compressed air pressure generator and the tracheal sealing cuff;
  
  an electrically actuatable air discharge valve coupled to the first compressed air conduit and disposed between the tracheal sealing cuff and ambient air;
  
  a pressure sensor, disposed in the immediate vicinity of the tracheal sealing cuff, for measuring pressure in the tracheal sealing cuff; and
  
  processor means coupled to the pressure sensor for receiving measurement signals therefrom, for controlling the electrically actuatable air discharge valve and the electrically actuatable air intake valve, wherein the processor means includes;
  
  means for receiving an actual value of pressure existing in the tracheal sealing cuff as measured by the pressure sensor;
  
  means for detecting large and steep increases in pressure in the tracheal sealing cuff that deviate from a nominal pressure in the tracheal sealing cuff and for interpreting the pressure increases as predicting a subsequent decrease of pressure in the tracheal sealing cuff; and
  
  means for provisionally increasing the pressure in the tracheal sealing cuff by adding air to the tracheal sealing cuff with the electrically actuatable air intake valve for a limited and defined period of time, and for thereafter regulating the pressure in the tracheal sealing cuff gradually toward the nominal pressure with the electrically actuatable air discharge valve.
- View Dependent Claims (13)
- - 13. A method for measuring and regulating pressure in an inflatable sealing cuff of a tracheal tube introduced into the trachea of a patient, for generating a constant contact pressure of the sealing cuff against the trachea for the purpose of producing gas-tight respiration for the patient and avoiding aspiration of fluids from the patient'"'"'s oral cavity into his breathing passages which comprises utilizing the apparatus of claim 12.

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Current Assignee
Deutsche Aerospace AG (Mercedes-Benz Group AG)
Original Assignee
Deutsche Aerospace AG (Mercedes-Benz Group AG)
Inventors
Harms, Dirk, Steinberg, Bastian, Poock-Haffmans, Peter, Pothmann, Werner
Primary Examiner(s)
Wiecking, David A.
Assistant Examiner(s)
RACITI, ERIC

Application Number

US08/086,889
Time in Patent Office

489 Days
Field of Search

128/207.14, 128/207.15, 128/207.16, 128/207.17, 128/200.24, 128/204.18, 128/204.23, 128/202.22, 128/748, 128/204.25, 128/774-782
US Class Current

128/207.15
CPC Class Codes

A61M 16/021 operated by electrical mean...

A61M 16/044 External cuff pressure cont...

Method of measuring and regulating the pressure in the sealing cuff of a tracheal tube and apparatus for implementing the method

First Claim

1 Assignment

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Abstract

127 Citations

13 Claims

Specification

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Method of measuring and regulating the pressure in the sealing cuff of a tracheal tube and apparatus for implementing the method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

127 Citations

13 Claims

Specification

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Solutions

Use Cases

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