EMG-controlled ventilator and method for the operation thereof
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/02
A61M-016/00
A62B-007/00
출원번호
US-0597520
(2007-04-27)
등록번호
US-8646448
(2014-02-11)
국제출원번호
PCT/EP2007/054156
(2007-04-27)
§371/§102 date
20100420
(20100420)
국제공개번호
WO2008/131798
(2008-11-06)
발명자
/ 주소
Lagerborg, Johan
Laksov, Joakim
출원인 / 주소
Maquet Critical Care AB
대리인 / 주소
Schiff Hardin LLP
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A ventilator provides breathing support to a patient in an EMG controlled mode, and has an input that receives an EMG signal representative of breathing activity from the patient and a control unit for controlling the ventilation in dependence of said EMG signal. The ventilator has a registration un
A ventilator provides breathing support to a patient in an EMG controlled mode, and has an input that receives an EMG signal representative of breathing activity from the patient and a control unit for controlling the ventilation in dependence of said EMG signal. The ventilator has a registration unit that registers the actual breathing support provided from the ventilator to the patient, and the control unit determines if there is asynchrony between the EMG signal and the breathing activity and, in case of asynchrony, causes a switch from EMG controlled ventilation to a second ventilation mode not dependent on the EMG signal. If synchrony is detected the ventilator can return to EMG controlled ventilation.
대표청구항▼
1. A ventilator comprising: a breathing circuit adapted to interact with a patient, said breathing circuit being operable in a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an
1. A ventilator comprising: a breathing circuit adapted to interact with a patient, said breathing circuit being operable in a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;a control unit that operates said breathing circuit in a selected one of said plurality of modes;a registration unit that registers said actual breathing support provided by the breathing circuit to the patient; andsaid control unit being connected to said registration unit and being supplied with an EMG signal from the patient, said control unit being configured to determine, from an output of said registration unit and said EMG signal, whether an asynchrony exists based on a time relationship between said EMG signal and said actual breathing support and, if said asynchrony is determined to exist while said control unit is operating said breathing circuit in said EMG-controlled mode, said control unit being configured to cause a switch from operation of said breathing circuit in said EMG controlled mode to operation in said non-EMG-controlled mode. 2. A ventilator as claimed in claim 1 wherein said control unit is configured to cause switching of said breathing circuit to a support ventilation mode, as said non-EMG-controlled mode. 3. A ventilator as claimed in claim 1 wherein said control unit is configured to determine whether said asynchrony is present based on a relationship between inspiration time and total breath time for at least one breath determined from said EMG signal. 4. A ventilator as claimed in claim 1 wherein said control unit is configured to determine whether said asynchrony is present based on a relationship between inspiration time and expiration time for at least one breath determined from said EMG signal. 5. A ventilator as claimed in claim 1 wherein said control unit is configured to switch operation of said breathing circuit from said non-EMG-controlled mode back to said EMG-controlled mode if said control unit detects synchrony between said EMG signal and said breathing activity while said breathing circuit is being operated in said non-EMG-controlled mode. 6. A ventilator as claimed in claim 1 wherein said control unit is configured to automatically switch operation of said breathing circuit from said EMG-controlled mode to said non-EMG controlled mode, with no manual intervention. 7. A method for providing breathing assistance to a patient, comprising the steps of: operating a breathing circuit to interact with a patient in selected one of a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;in a registration unit, automatically registering said actual breathing support provided by the breathing circuit to the patient; andsupplying a control unit connected to said registration unit with an EMG signal from the patient and with an output from said registration unit and, in said control unit, automatically determining, from said output of said registration unit signal and said EMG signal, whether an asynchrony exists based on a time relationship between said EMG signal and said actual breathing support and, if said asynchrony is determined to exist while said breathing circuit is operating in said EMG-controlled mode causing, from said control unit, a switch from operation of said breathing circuit in said EMG controlled mode to operation in said non-EMG-controlled mode. 8. A method as claimed in claim 7 comprising, from said control unit, causing switching of said breathing circuit to a support ventilation mode, as said non-EMG-controlled mode. 9. A method as claimed in claim 7 comprising, in said control unit, determining whether said asynchrony is present based on a relationship between inspiration time and total breath time for at least one breath determined from said EMG signal. 10. A method as claimed in claim 7 comprising in said control unit, determining whether said asynchrony is present based on a relationship between inspiration time and expiration time for at least one breath determined from said EMG signal. 11. A method as claimed in claim 7 comprising, from said control unit, causing a switch in operation of said breathing circuit from said non-EMG-controlled mode back to said EMG-controlled mode if said control unit detects synchrony between said EMG signal and said breathing activity while said breathing circuit is being operated in said non-EMG-controlled mode. 12. A method as claimed in claim 7 comprising, from said control unit, automatically switching operation of said breathing circuit from said EMG-controlled mode to said non-EMG controlled mode, with no manual intervention. 13. A ventilator comprising: a breathing circuit adapted to interact with a patient, said breathing circuit being operable in a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;a control unit that operates said breathing circuit in a selected one of said plurality of modes;a registration unit that registers said actual breathing support provided by the breathing circuit to the patient; andsaid control unit being connected to said registration unit and being supplied with an EMG signal from the patient, said control unit being configured to determine, from an output of said registration unit and said EMG signal, whether synchrony exists based on a time relationship between said EMG signal and said actual breathing support and, if said synchrony is determined to exist while said control unit is operating said breathing circuit in said non-EMG-controlled mode, said control unit being configured to cause a switch from operation of said breathing circuit in said non-EMG controlled mode to operation in said EMG-controlled mode. 14. A ventilator as claimed in claim 13 wherein said control unit is configured to operate said breathing circuit to a support ventilation mode, as said non-EMG-controlled mode. 15. A ventilator as claimed in claim 13 wherein said control unit is configured to determine whether said synchrony is present based on a relationship between inspiration time and total breath time for at least one breath determined from said EMG signal. 16. A ventilator as claimed in claim 13 wherein said control unit is configured to determine whether said synchrony is present based on a relationship between inspiration time and expiration time for at least one breath determined from said EMG signal. 17. A ventilator as claimed in claim 13 wherein said control unit is configured to automatically switch operation of said breathing circuit from said non-EMG-controlled mode to said EMG controlled mode, with no manual intervention. 18. A method for providing breathing assistance to a patient comprising the steps of: operating a breathing circuit to interact with a patient in selected one of a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;in a registration unit, automatically registering said actual breathing support provided by the breathing circuit to the patient; andsupplying a control unit connected to said registration unit with an EMG signal from the patient and with an output from said registration unit and, in said control unit, automatically determining, from said output of said registration unit and said EMG signal, whether synchrony exists based on a time relationship between said EMG signal and said actual breathing support and, if said synchrony is determined to exist while said breathing circuit is operating in said non-EMG-controlled mode causing, from said control unit, a switch from operation of said breathing circuit in said non-EMG controlled mode to operation in said EMG-controlled mode. 19. A method as claimed in claim 18 comprising, from said control unit operating said breathing circuit in a support ventilation mode, as said non-EMG-controlled mode. 20. A method as claimed in claim 18 comprising, in said control unit, determining whether said synchrony is present based on a relationship between inspiration time and total breath time for at least one breath determined from said EMG signal. 21. A method as claimed in claim 18 comprising in said control unit, determining whether said synchrony is present based on a relationship between inspiration time and expiration time for at least one breath determined from said EMG signal. 22. A method as claimed in claim 18 comprising, from said control unit, automatically switching operation of said breathing circuit from said non-EMG-controlled mode to said EMG controlled mode, with no manual intervention. 23. A ventilator comprising: a breathing circuit adapted to interact with a patient, said breathing circuit being operable in a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;a control unit that operates said breathing circuit in a selected one of said plurality of modes;a registration unit that registers said actual breathing support provided by the breathing circuit to the patient; andsaid control unit being connected to said registration and being supplied with an EMG signal from the patient, said control unit being configured to determine, from an output of said registration unit and said EMG signal, whether an asynchrony exists based on a comparison of respiratory rates between said EMG signal and said actual breathing support and, if said asynchrony is determined to exist while said control unit is operating said breathing circuit in said EMG-controlled mode, said control unit being configured to cause a switch from operation of said breathing circuit in said EMG controlled mode to operation in said non-EMG-controlled mode. 24. A ventilator as claimed in claim 23 wherein said control unit is configured to determine whether said asynchrony is present by comparing an actual respiratory rate represented by the output of said registration unit, and a calculated respiratory rate calculated from said EMG signal. 25. A method for providing breathing assistance to a patient, comprising the steps of: operating a breathing circuit to interact with a patient in selected one of a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;in a registration unit, automatically registering said actual breathing support provided by the breathing circuit to the patient; andsupplying a control unit connected to said registration with an EMG signal from the patient and with an output from said registration unit and, in said control unit, automatically determining, from said output of said registration unit and said EMG signal, whether an asynchrony exists based on a comparison of respiratory rates between said EMG signal and said actual breathing support and, if said asynchrony is determined to exist while said control unit is operating said breathing circuit in said EMG-controlled mode causing, from said control unit, a switch from operation of said breathing circuit in said EMG controlled mode to operation in said non-EMG-controlled mode. 26. A method as claimed in claim 25 comprising, in said control unit, determining whether said asynchrony is present by comparing an actual respiratory rate represented by the output of said registration unit, and a calculated respiratory rate calculated from said EMG signal. 27. A ventilator comprising: a breathing circuit adapted to interact with a patient, said breathing circuit being operable in a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;a control unit that operates said breathing circuit in a selected one of said plurality of modes;a registration unit that registers said actual breathing support provided by the breathing circuit to the patient; andsaid control unit being connected to said registration and being supplied with an EMG signal from the patient, said control unit being configured to determine, from an output of said registration unit and said EMG signal, whether synchrony exists based on a comparison of respiratory rates between said EMG signal and said actual breathing support and, if said synchrony is determined to exist while said control unit is operating said breathing circuit in said non-EMG-controlled mode, said control unit being configured to cause a switch from operation of said breathing circuit in said non-EMG controlled mode to operation in said EMG-controlled mode. 28. A ventilator as claimed in claim 27 wherein said control unit is configured to determine whether said synchrony is present by comparing an actual respiratory rate represented by the output of said registration unit, and a calculated respiratory rate calculated from said EMG signal. 29. A method for providing breathing assistance to a patient, comprising the steps of: operating a breathing circuit to interact with a patient in selected one of a plurality of different modes to provide breathing assistance to the patient as actual breathing support generated in the breathing circuit and delivered to the patient as an output of the breathing circuit, including an EMG-controlled mode and a non-EMG-controlled mode;in a registration unit, automatically registering said actual breathing support provided by the breathing circuit to the patient; andsupplying a control unit connected to said registration with an EMG signal from the patient and with an output from said registration unit and, in said control unit, automatically determining, from said output of said registration unit and said EMG signal, whether synchrony exists based on a comparison of respiratory rates between said EMG signal and said actual breathing support and, if said synchrony is determined to exist while said control unit is operating said breathing circuit in said non-EMG-controlled mode causing, from said control unit, a switch from operation of said breathing circuit in said non-EMG controlled mode to operation in said EMG-controlled mode. 30. A method as claimed in claim 29 comprising, in said control unit, determining whether said synchrony is present by comparing an actual respiratory rate represented by the output of said registration unit, and a calculated respiratory rate calculated from said EMG signal.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
David Burton AU; Allan Wallace AU, Dual-pressure blower for positive air pressure device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.