High-frequency oscillation artificial respiration apparatus

US 20010007256A1
Filed: 12/29/2000
Published: 07/12/2001
Est. Priority Date: 01/11/2000
Status: Active Grant

First Claim

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1. A high-frequency oscillation (HFO) artificial respiration apparatus comprising:

an inhale gas introduction block for supplying an inhale gas containing oxygen to a patient;

a patient-side path for guiding the inhale gas from the inhale gas introduction block to the patient, an oscillating air pressure urging block for applying an oscillating air pressure having a shorter cycle than a respiration cycle of the patient, to the inhale gas flowing in the patient-side path, an exhaust path for exhausting into the atmosphere an exhale gas containing carbon dioxide exhaled from the patient; and

a controller for controlling the oscillating air pressure urging block;

wherein the oscillating air pressure urging block includes an oscillation amplitude regulator for regulating an amplitude of the oscillating air pressure and a frequency regulator for regulating an oscillation frequency of the oscillating air pressure; and

the controller includes an input block for accepting setting inputs for specifying an oscillation frequency of the oscillating air pressure and a ventilation amount at a time for the lungs of the patient and an operation control block for controlling the frequency regulator and the amplitude regulator according to the inputs;

the operation control block having a ventilation amount maintaining function for controlling an amplitude based on the amplitude regulator in such a manner that the ventilation amount at a time for the lungs of the patient is maintained at a constant value when the oscillation frequency of the frequency regulator is changed by the setting inputs.

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Abstract

The present invention provides a high-frequency oscillation (HFO) artificial respiration apparatus comprising an inhale gas introduction block 62 for supplying an inhale gas to a patient X, a patient-side path 60 for guiding the inhale gas to the patient X, an oscillating air pressure urging block 50 for applying an oscillating air pressure to the inhale gas, an exhaust path 70 for exhausting an exhale gas exhaled from the patient X, and a controller 40 for controlling operation of the oscillating air pressure urging block 50. The oscillating air pressure urging block 50 includes a blower 52 and a rotary valve 54. The controller 40 includes an input block 41 for accepting a ventilation frequency and a ventilation amount at a time for the patient and an operation control block 49 for controlling the rotary valve 54 and the blower 52 according to values entered. The operation control block 49 has a ventilation amount maintaining function 46 for controlling an amplitude defined by the blower 52 so that the ventilation amount at a time for the patient is maintained at a constant value when the oscillation frequency is modified.

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12 Claims

1. A high-frequency oscillation (HFO) artificial respiration apparatus comprising:
- an inhale gas introduction block for supplying an inhale gas containing oxygen to a patient;
  
  a patient-side path for guiding the inhale gas from the inhale gas introduction block to the patient, an oscillating air pressure urging block for applying an oscillating air pressure having a shorter cycle than a respiration cycle of the patient, to the inhale gas flowing in the patient-side path, an exhaust path for exhausting into the atmosphere an exhale gas containing carbon dioxide exhaled from the patient; and
  
  a controller for controlling the oscillating air pressure urging block;
  
  wherein the oscillating air pressure urging block includes an oscillation amplitude regulator for regulating an amplitude of the oscillating air pressure and a frequency regulator for regulating an oscillation frequency of the oscillating air pressure; and
  
  the controller includes an input block for accepting setting inputs for specifying an oscillation frequency of the oscillating air pressure and a ventilation amount at a time for the lungs of the patient and an operation control block for controlling the frequency regulator and the amplitude regulator according to the inputs;
  
  the operation control block having a ventilation amount maintaining function for controlling an amplitude based on the amplitude regulator in such a manner that the ventilation amount at a time for the lungs of the patient is maintained at a constant value when the oscillation frequency of the frequency regulator is changed by the setting inputs.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. A HFO artificial respiration apparatus as claimed in claim 1, wherein the controller includes a map memory containing a map using the ventilation amount at a time for the lungs of the patient and the oscillation frequency of the oscillating air pressure as parameters for identifying an appropriate output of the amplitude regulator.
  - 3. A HFO artificial respiration apparatus as claimed in claim 2, wherein the map is based on test data obtained by measuring the ventilation amount at a time for the lungs of the patient while changing the output of the oscillating air pressure urging block and the oscillation frequency of the oscillating air pressure.
  - 4. A HFO artificial respiration apparatus as claimed in claim 1, the apparatus further comprising an input unit connected to the controller for entering the ventilation amount at a time for the lungs of the patient and the oscillation frequency of the oscillating air pressure into the input block.
  - 5. A HFO artificial respiration apparatus as claimed in claim 2, the apparatus further comprising an input unit connected to the controller for entering the ventilation amount at a time for the lungs of the patient and the oscillation frequency of the oscillating air-pressure into the input block.
  - 6. A HFO artificial respiration apparatus as claimed in claim 3, the apparatus further comprising an input unit connected to the controller for entering the ventilation amount at a time for the lungs of the patient and the oscillation frequency of the oscillating air pressure into the input block.
  - 7. A HFO artificial respiration apparatus as claimed in claim 1, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.
  - 8. A HFO artificial respiration apparatus as claimed in claim 2, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.
  - 9. A HFO artificial respiration apparatus as claimed in claim 3, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.
  - 10. A HFO artificial respiration apparatus as claimed in claim 4, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.
  - 11. A HFO artificial respiration apparatus as claimed in claim 5, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.
  - 12. A HFO artificial respiration apparatus as claimed in claim 6, the apparatus further comprising a display block connected to the controller for displaying a predetermined information, wherein the operation control block has an output upper limit maintaining function, used when a target output of the oscillation regulator defined by the ventilation amount maintaining function exceeds a drive upper limit, for controlling the target output to be at the drive upper limit as well as displaying a corresponding ventilation amount at a time for the lungs of the patient on the display block.

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Current Assignee
Suzuki Motor Corporation
Original Assignee
Suzuki Motor Corporation
Inventors
Sugiura, Yasuhito

Granted Patent

US 6,581,597 B2
Time in Patent Office

Days
Field of Search
US Class Current

128/204.21
CPC Class Codes

A61M 16/0096   High frequency jet ventilation

A61M 16/0833   T- or Y-type connectors, e....

A61M 16/12   by mixing different gases

A61M 2016/0021   with a proportional output ...

High-frequency oscillation artificial respiration apparatus

First Claim

1 Assignment

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Abstract

7 Citations

12 Claims

Specification

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High-frequency oscillation artificial respiration apparatus

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

7 Citations

12 Claims

Specification

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Solutions

Use Cases

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