Regulation of delivery of multiple anesthetic agents to a patient from an anesthetic breathing apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-016/18
A61M-016/10
A61M-016/00
A61M-016/22
출원번호
US-0742481
(2007-11-12)
등록번호
US-9095678
(2015-08-04)
국제출원번호
PCT/EP2007/062228
(2007-11-12)
§371/§102 date
20100921
(20100921)
국제공개번호
WO2009/062540
(2009-05-22)
발명자
/ 주소
Blomberg, Urban
출원인 / 주소
Maquet Critical Care AB
대리인 / 주소
Schiff Hardin LLP
인용정보
피인용 횟수 :
0인용 특허 :
17
초록▼
In a method and system of regulating multiple anesthetic agents in a breathing circuit of an anesthetic breathing apparatus is disclosed, a primary anesthetic agent added to the breathing circuit is regulated to a set desired value of the amount of the primary anesthetic agent, and a secondary anest
In a method and system of regulating multiple anesthetic agents in a breathing circuit of an anesthetic breathing apparatus is disclosed, a primary anesthetic agent added to the breathing circuit is regulated to a set desired value of the amount of the primary anesthetic agent, and a secondary anesthetic agent in the breathing circuit is regulated to an amount of said secondary anesthetic agent that it is equal to or less than a defined threshold level, e.g. of the concentration, of the secondary anesthetic agent.
대표청구항▼
1. A method of regulating a mixture of volatile anesthetic agents present in a breathing circuit of an anesthetic breathing apparatus for breathing by a patient, said method comprising: introducing a primary volatile anesthetic agent to said breathing circuit;introducing a secondary volatile anesthe
1. A method of regulating a mixture of volatile anesthetic agents present in a breathing circuit of an anesthetic breathing apparatus for breathing by a patient, said method comprising: introducing a primary volatile anesthetic agent to said breathing circuit;introducing a secondary volatile anesthetic agent to said breathing circuit;regulating said primary volatile anesthetic agent added to said breathing circuit to a set target dose of said primary volatile anesthetic agent; andregulating said secondary volatile anesthetic agent present in said breathing circuit to a dose that it is equal to or less than a defined dose of said secondary volatile anesthetic agent by controlling a ratio of re-breathed secondary volatile anesthetic agent and said primary volatile anesthetic agent. 2. The method according to claim 1, comprising adjusting a degree of re-breathing of gas from said breathing circuit by said patient based on said set target dose of said primary volatile anesthetic agent and said defined dose of said secondary volatile anesthetic agent. 3. The method according to claim 1, wherein said introducing said primary volatile anesthetic agent to said breathing circuit comprises adding said primary volatile anesthetic agent to said breathing circuit containing said secondary volatile anesthetic agent. 4. The method according claim 1, wherein said defined dose for said secondary volatile anesthetic agent is lower than said set target dose for said primary volatile anesthetic agent. 5. The method according to claim 1, wherein said secondary volatile anesthetic agent has a lower minimum alveolar concentration value than said primary volatile anesthetic agent. 6. The method according to claim 1, wherein said secondary volatile anesthetic agent comprises a mixture of a plurality of volatile anesthetic agents and a sum of concentrations of said plurality of volatile anesthetic agents comprising said secondary volatile anesthetic agent is lower than a concentration of said primary volatile anesthetic agent in said breathing circuit. 7. The method according to claim 1, wherein said secondary volatile anesthetic agent comprises a mixture of a plurality of volatile anesthetic agents and a sum of minimum alveolar concentration values of said mixture of said plurality of volatile anesthetic agents present in said breathing circuit is lower than a minimum alveolar concentration value of the primary volatile anesthetic agent. 8. The method according to claim 1, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of said set target dose of said primary volatile anesthetic agent and wherein said fraction is fixed or variable or set by a user to a defined value. 9. The method according to claim 1, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of a set target value of a minimum alveolar concentration value of said primary volatile anesthetic agent and wherein said fraction is fixed or variable or set by a user to a defined value. 10. The method according to claim 1, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of a mixed minimum alveolar concentration total value, and wherein the fraction is fixed or variable or set by a user to a defined value of the mixed minimum alveolar concentration total value, and the mixed minimum alveolar concentration total value is calculated from a minimum alveolar concentration value of the primary volatile anesthetic agent and a minimum alveolar concentration value of the secondary volatile anesthetic agent. 11. A regulating system in an anesthetic breathing apparatus configured for regulating a mixture of volatile anesthetic agents present in a breathing circuit of said anesthetic breathing apparatus for breathing by a patient, said regulating system comprising: an anesthetic gas analyzer for measuring concentrations of two or more volatile anesthetic agents in said breathing circuit simultaneously;at least one vaporizer coupled to said breathing circuit; anda computerized unit configured to regulate delivery of a primary volatile anesthetic agent to said breathing circuit to a set target dose of said primary volatile anesthetic agent, and regulating a secondary volatile anesthetic agent present in said breathing circuit to a dose of said secondary volatile anesthetic agent that it is equal to or less than a defined dose of said secondary volatile anesthetic agent by controlling a ratio of re-breathed secondary volatile anesthetic agent and said primary volatile anesthetic agent. 12. The regulating system according to claim 11, wherein said computerized unit is configured for adjusting a degree of re-breathing gas by said patient fluidly connected to said anesthetic breathing apparatus based on said set target dose of said primary volatile anesthetic agent and said defined dose of said secondary volatile anesthetic agent. 13. The regulating system according to claim 11, wherein said primary volatile anesthetic agent comprises a first primary volatile anesthetic agent and a second primary volatile anesthetic agent and said computerized unit is configured for regulating a dosage of said first primary volatile anesthetic agent and a dosage of said second primary volatile anesthetic agent added to said breathing circuit. 14. The regulating system according to claim 11, wherein said secondary volatile anesthetic agent is present in said breathing circuit at a concentration that is lower than a concentration of said primary volatile anesthetic agent. 15. The regulating system according to claim 11, wherein said secondary volatile anesthetic agent in said breathing circuit has a minimum alveolar concentration value that is lower than a minimum alveolar concentration value of said primary volatile anesthetic agent. 16. The regulating system according to claim 15, wherein said secondary volatile anesthetic agent comprises a plurality of volatile anesthetic agents and a sum of concentrations of said plurality of volatile anesthetic agents comprising said secondary volatile anesthetic agent is lower than a concentration of the primary volatile anesthetic agent in said breathing circuit. 17. The regulating system according to claim 11, wherein said secondary volatile anesthetic agent comprises a plurality of volatile anesthetic agents and is a sum of minimum alveolar concentration values of said plurality of volatile anesthetic agents comprising said secondary volatile anesthetic agent is lower than a minimum alveolar concentration value for the primary volatile anesthetic agent in said breathing circuit. 18. The regulating system according to claim 11, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of said set target dose of said primary volatile anesthetic agent, and wherein said fraction is fixed or variable and/or set by a user to a defined value. 19. The regulating system according to claim 11, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of said set target dose of a minimum alveolar concentration value of said primary volatile anesthetic agent, and wherein said fraction is fixed or variable or set by a user to a defined value. 20. The regulating system according to claim 11, wherein said defined dose of said secondary volatile anesthetic agent is determined as a fraction of a mixed minimum alveolar concentration total value, wherein the fraction is fixed or variable or set by a user to a defined value of the mixed minimum alveolar concentration total value, and wherein the mixed minimum alveolar concentration total value is calculated from a minimum alveolar concentration value of the primary volatile anesthetic agent and a minimum alveolar concentration value of the secondary volatile anesthetic agent. 21. A non-transitory computer-readable storage medium loadable into a computer control unit of a breathing circuit of an anesthetic breathing apparatus configured for regulating a mixture of volatile anesthetic agents in said breathing circuit for breathing by a patient, said storage medium being encoded with programming instructions that, when said storage medium is loaded into said computer control unit, cause said control unit to execute steps comprising: regulate a primary volatile anesthetic agent added to said breathing circuit to set a target dose of said primary volatile anesthetic agent; andregulate a secondary volatile anesthetic agent in said breathing circuit to a dose of said secondary volatile anesthetic agent that is equal to or less than a defined dose of said secondary volatile anesthetic agent by controlling a ratio of re-breathed secondary volatile anesthetic agent and primary volatile anesthetic agent. 22. A storage medium as claimed in claim 21, wherein said programming instructions cause said computer control unit to adjust a degree of re-breathing gas from said breathing circuit by said patient in fluid communication with said breathing circuit dependent on said set target dose of said primary volatile anesthetic agent and said defined dose of said secondary volatile anesthetic agent. 23. A storage medium as claimed in claim 21, wherein said primary volatile anesthetic agent comprises a first primary volatile anesthetic agent and a second primary volatile anesthetic agent and said programming instructions cause said computer control unit to regulate a dose of said first primary volatile anesthetic agent and a dose of said second primary volatile anesthetic agent added to said breathing circuit.
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이 특허에 인용된 특허 (17)
Gingrich Matthew A. ; Heckel Donald W. ; Batchelder Paul B., Agent identification for anesthetic gas monitors using minimum alveolar concentration (MAC) values.
Lekholm Anders (Bromma SEX) Wrd Leif (Dalaro SEX), Anaesthetic system which is automatically switched to temporary operation as an open breathing system upon a change in a.
Westenskow Dwayne D. (Salt Lake City UT) Loughlin Patrick J. (Seattle WA) Jaklitsch Roman R. (Lbeck DEX) Wallroth Carl-Friedrich (Lbeck DEX), Anesthesia ventilating apparatus having a breathing circuit and control loops for anesthetic gas components.
Psaros Georgios (Tullinge SEX) Bergkvist Rune (Vaxholm SEX) Olsson Sven-Gunnar (Arloev SEX), Apparatus for the administration of a respiratory gas and at least one anaesthetic.
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