System and method for guidance of anesthesia, analgesia and amnesia
First Claim
1. A method for monitoring anesthetization of a patient undergoing a medical procedure, comprising the steps of:
- (a) removably connecting a plurality of electroencephalograph (“
EEG”
) electrodes to a scalp of the patient;
(b) administering sufficient anesthesia to the patient so that the patient attains a plane of anesthesia selected by an operator;
(c) amplifying and digitizing brain waves of the patient after step (b) and before beginning the medical procedure to obtain a first set of digital data;
(d) amplifying and digitizing brain waves of the patient during the medical procedure to provide a second set of digital data;
(e) analyzing the first and second sets of digital data in at least one of a time domain and a frequency domain;
(f) computing from the data analysis of step (e) separate trajectories for at least two different indices of an anesthetic state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI), wherein the DI corresponds to a depth of anesthesia of the patient, PI corresponds to a sensitivity of the patient to pain and MI corresponds to an ability of the patient to form and store memories;
(g) providing a control signal when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia; and
(h) automatically, in response to the control signal, adjusting an amount of an anesthetic agent administered to the patient to restore the patient to the selected plane of anesthesia,wherein a plurality of anesthetic agents are administered to the patient with each of the anesthetic agents begin directed primarily toward regulating a corresponding one of indices, with the amount of each being controlled as a function of the trajectory corresponding to that index.
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Abstract
A method for monitoring anesthetization of a patient, includes the steps of removably connecting a plurality of electrodes to the scalp of the patient and administering sufficient anesthesia to the patient so that the patient attains a plane of anesthesia selected by an operator. The brain waves of the patient are then amplified and digitized after the patient has been anesthetized, before beginning the medical procedure, to obtain a first set of digital data. The brain waves of the patient are then amplified and digitized during the medical procedure to provide a second set of digital data and the first and second sets of digital data are analyzed in at least one of a time domain and a frequency domain. Separate trajectories are then computed from the data analysis trajectories for at least two different indices of an anesthetic state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI). A system for providing anesthesia to a patient, includes a plurality of electrodes, a first arrangement allowing an operator to administer anesthesia to the patient until the patient has attained a selected plane of anesthesia and a second arrangement coupled to the electrodes for amplifying and digitizing brain waves of the patient after the patient has been anesthetized, before the medical procedure has been begun to obtain a first set of digital data, the second arrangement amplifying and digitizing ongoing brain waves of the patient during the medical procedure to provide a second set of digital data in combination with a third arrangement analyzing the first and second sets of digital data in at least one of a time domain and a frequency domain, a fourth arrangement computing from the data analysis separate trajectories for at least two different indices of a state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI), a fifth arrangement providing control signals when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia and a sixth arrangement automatically adjusting two different anesthetic agents administered to the patient based on the control signal to restore the patient to the selected plane of anesthesia.
87 Citations
26 Claims
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1. A method for monitoring anesthetization of a patient undergoing a medical procedure, comprising the steps of:
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(a) removably connecting a plurality of electroencephalograph (“
EEG”
) electrodes to a scalp of the patient;(b) administering sufficient anesthesia to the patient so that the patient attains a plane of anesthesia selected by an operator; (c) amplifying and digitizing brain waves of the patient after step (b) and before beginning the medical procedure to obtain a first set of digital data; (d) amplifying and digitizing brain waves of the patient during the medical procedure to provide a second set of digital data; (e) analyzing the first and second sets of digital data in at least one of a time domain and a frequency domain; (f) computing from the data analysis of step (e) separate trajectories for at least two different indices of an anesthetic state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI), wherein the DI corresponds to a depth of anesthesia of the patient, PI corresponds to a sensitivity of the patient to pain and MI corresponds to an ability of the patient to form and store memories; (g) providing a control signal when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia; and (h) automatically, in response to the control signal, adjusting an amount of an anesthetic agent administered to the patient to restore the patient to the selected plane of anesthesia, wherein a plurality of anesthetic agents are administered to the patient with each of the anesthetic agents begin directed primarily toward regulating a corresponding one of indices, with the amount of each being controlled as a function of the trajectory corresponding to that index. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of providing anesthesia to a patient undergoing a medical procedure, comprising the steps of:
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(a) removably connecting a set of a plurality of electroencephalograph (“
EEG”
) electrodes to a scalp of the patient;(b) administering sufficient anesthesia to the patient for the patient to attain a plane of anesthesia selected by an operator; (c) amplifying and digitizing brain waves of the patient during the medical procedure to provide a first set of digital data; (d) analyzing the first set of digital data in a time domain and a frequency domain; (e) computing from the data analysis separate trajectories for at least two different indices of a state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI); (f) providing a control signal when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia; (g) automatically, in response to the control signal, adjusting an amount of an anesthetic agent administered to the patient to restore the patient to the selected plane of anesthesia, wherein a plurality of anesthetic agents are administered to the Patient with each of the anesthetic agents being directed primarily toward regulating a corresponding one of the indices, with the amount of each being controlled as a function of the trajectory corresponding to that index. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A method for providing anesthetization of a patient, comprising the steps of:
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(a) removably connecting a set of at least two electroencephalograph (“
EEG”
) electrodes to a scalp of the patient;(b) administering sufficient anesthesia to the patient so that the patient attains a plane of anesthesia selected by an operator; (c) amplifying and digitizing brain waves of the patient after step (b) and before beginning a medical procedure to obtain a first set of digital data; (d) amplifying and digitizing ongoing brain waves of the patient during the medical procedure to provide a second set of digital data; (e) analyzing the first and second sets of digital data in at least one of a time domain and a frequency domain; (f) computing from the data analysis of step (e) separate trajectories for at least two different indices of an anesthetic state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI); and (g) providing a warning signal to the operator when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia to allow the operator to manually adjust an amount of an anesthetic agent administered to the patient to return the patient to the selected plane of anesthesia, wherein a plurality of anesthetic agents are administered to the patient with each of the anesthetic agents being directed primarily toward regulating a corresponding one of the indices, with the amount of each being controlled as a function of the trajectory corresponding to that index. - View Dependent Claims (24, 25)
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26. A system for providing anesthesia to a patient undergoing a medical procedure, comprising:
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(a) a plurality of electroencephalograph (“
EEG”
) electrodes adapted to be connected to the scalp of a patient;(b) a first arrangement allowing an operator to administer anesthesia to the patient until the patient has attained a selected plane of anesthesia; (c) a second arrangement coupled to the electrodes for amplifying and digitizing brain waves of the patient after the patient has been anesthetized, before the medical procedure has been begun to obtain a first set of digital data, the second arrangement amplifying and digitizing ongoing brain waves of the patient during the medical procedure to provide a second set of digital data; (d) a third arrangement analyzing the first and second sets of digital data in at least one of a time domain and a frequency domain; (e) a fourth arrangement computing from the data analysis separate trajectories for at least two different indices of a state of the patient during the medical procedure, the indices being selected from a group including a Depth Index (DI), a Memory Index (MI) and a Pain Index (PI); (f) a fifth arrangement providing control signals when any of the trajectories indicates that the patient is deviating from the selected plane of anesthesia; and (g) a sixth arrangement automatically adjusting at least two different anesthetic agents administered to the patient based on the control signal to restore the patient to the selected plane of anesthesia, each of the anesthetic agents being directed primarily toward regulating a corresponding one of the indices, with the amount of each being controlled as a function of the trajectory corresponding to that index.
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Specification