최소 단어 이상 선택하여야 합니다.
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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0401026 (2009-03-10) |
등록번호 | US-8738126 (2014-05-27) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 6 인용 특허 : 390 |
Disclosed herein are methods, systems, and apparatus for treating a medical condition of a patient, involving detecting a physiological cycle or cycles of the patient and applying an electrical signal to a portion of the patient's vagus nerve through an electrode at a selected point in the physiolog
Disclosed herein are methods, systems, and apparatus for treating a medical condition of a patient, involving detecting a physiological cycle or cycles of the patient and applying an electrical signal to a portion of the patient's vagus nerve through an electrode at a selected point in the physiological cycle(s). The physiological cycle can be the cardiac and/or respiratory cycle. The selected point can be a point in the cardiac cycle correlated with increased afferent conduction on the vagus nerve, such as a point from about 10 msec to about 800 msec after an R-wave of the patient's ECG, optionally during inspiration by the patient. The selected point can be a point in the cardiac cycle when said applying increases heart rate variability, such as a point from about 10 msec to about 800 msec after an R-wave of the patient's ECG, optionally during expiration by the patient.
1. A method of treating a medical condition in a patient having a brain, a vagus nerve, a trigeminal nerve, a glossopharyngeal nerve, a cardiac cycle, and a respiratory cycle, the method comprising: detecting a first selected portion of at least one of the cardiac cycle of the patient and the respir
1. A method of treating a medical condition in a patient having a brain, a vagus nerve, a trigeminal nerve, a glossopharyngeal nerve, a cardiac cycle, and a respiratory cycle, the method comprising: detecting a first selected portion of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient; andapplying a first pulsed electrical signal to at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve to modulate the brain of the patient in response to detecting the first selected portion of the at least one of the cardiac cycle and the respiratory cycle of the patient, the first pulsed electrical signal comprising a plurality of microbursts wherein each microburst is separated from an adjacent microburst by an interburst period of at least 100 milliseconds, and each microburst comprises: 2 pulses to 20 pulses;an interpulse interval between adjacent pulses of the microburst of from about 1 millisecond to about 20 milliseconds; anda microburst duration of not greater than 1 second,wherein the first pulsed electrical signal is configured to generate afferent electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve that produces a first enhanced evoked potential in the brain of the patient;measuring the first enhanced evoked potential in the brain of the patient;changing at least one of the interburst period, the number of pulses per microburst, the interpulse interval between adjacent pulses of the microburst, and the microburst duration to provide a second pulsed electrical signal;detecting a second selected portion of the at least one of the cardiac cycle of the patient and the respiratory cycle of the patient;applying the second pulsed electrical signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve to modulate the brain of the patient in response to detecting the second selected portion of the at least one of the cardiac cycle and the respiratory cycle of the patient, wherein the second pulsed electrical signal is configured to generate afferent electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve that produces a second enhanced evoked potential in the brain of the patient;measuring the second enhanced evoked potential in the brain of the patient;comparing the first enhanced evoked potential to the second enhanced evoked potential;selecting one of the first pulsed electrical signal and the second pulsed electrical signal for continued application to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve based upon the comparison between the first and second enhanced evoked potentials; andapplying the selected pulsed electrical signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve of the patient. 2. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise determining a heart rate variability parameter, and wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve further comprise applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve in response to having determined the heart rate variability parameter. 3. The method of claim 1, further comprising increasing a heart rate variability parameter of the patient by applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve. 4. The method of claim 1, wherein the steps of detecting the first and second portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise detecting an inhibition phase of the cardiac cycle, and wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve comprises not applying the first and second pulsed electrical signals during the inhibition phase of the cardiac cycle. 5. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise detecting an R-wave portion of a selected cardiac cycle of the patient, and wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve comprise applying the first and second pulsed electrical signals after a delay period following the detection of the R-wave portion of the selected cardiac cycle, and not applying a signal for a period that comprises a remaining portion of the same selected cardiac cycle and one or more subsequent cardiac cycles. 6. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise detecting at least a portion of the cardiac cycle comprising a P wave, an R wave, an R-R interval, a QRS complex, a T wave, or the entire PQRST cycle. 7. The method of claim 1 further comprising sensing a temperature of the patient, wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve comprise applying the first and second pulsed electrical signals in response to the sensed temperature. 8. The method of claim 1 further comprising applying a third pulsed electrical signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve without reference to the at least one of the cardiac cycle of the patient and the respiratory cycle of the patient. 9. The method of claim 8 wherein the third pulsed electrical signal does not comprise a plurality of microbursts. 10. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprises detecting an inhibition phase of the respiratory cycle, and wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve comprise not applying the first and second pulsed electrical signals during the inhibition phase of the respiratory cycle. 11. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise detecting a beginning of inspiration of a selected respiratory cycle of the patient, and wherein the steps of applying the first and second pulsed electrical signals to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve comprise applying the first and second pulsed electrical signals after a delay period following the detection of the beginning of inspiration, and not applying a signal for a period that comprises a remaining portion of the same selected respiratory cycle and one or more subsequent respiratory cycles. 12. The method of claim 1 wherein the detected first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise a portion of the respiratory cycle of the patient when inspiration occurs, and wherein the steps of detecting the first and second selected portions of the respiratory cycle of the patient when inspiration occurs comprise using a high frequency component of the heart rate variability power spectrum to determine when inspiration occurs. 13. The method of claim 1 wherein the steps of detecting the first and second selected portions of at least one of the cardiac cycle of the patient and the respiratory cycle of the patient comprise detecting at least a portion of the cardiac cycle of the patient by sensing electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve and applying the first and second pulsed electrical signals when the electrical activity increases. 14. The method of claim 1, wherein the first and second pulsed electrical signals are configured to increase afferent activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve to be conducted thereby to the patient's brain. 15. The method of claim 14, further comprising: applying a blocking signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve, the blocking signal being configured to block efferent electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve. 16. A method of treating a medical condition in a patient comprising a brain, a vagus nerve, a trigeminal nerve, a glossopharyngeal nerve, and a respiratory cycle, the method comprising: detecting a first selected portion of the respiratory cycle of the patient; andapplying a first pulsed electrical signal comprising a plurality of microbursts to at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve to modulate the brain of the patient in response to detecting the first selected portion of the respiratory cycle of the patient, the first pulsed electrical signal comprising a plurality of microbursts, wherein each microburst is separated from an adjacent microburst by an interburst period of at least 100 milliseconds and comprises: 2 pulses to 20 pulses;an interpulse interval between adjacent pulses of the microburst of from about 1 millisecond to about 20 milliseconds; anda microburst duration of not greater than 1 second,wherein the first pulsed electrical signal is configured to generate afferent electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve that produces a first enhanced evoked potential in the brain of the patient;measuring the first enhanced evoked potential in the brain of the patient;changing at least one of the interburst period, the number of pulses per microburst, the interpulse interval between adjacent pulses of the microburst, and the microburst duration to provide a second pulsed electrical signal;detecting a second selected portion of the at least one of the cardiac cycle of the patient and the respiratory cycle of the patient;applying the second pulsed electrical signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve to modulate the brain of the patient in response to detecting the second selected portion of the at least one of the cardiac cycle and the respiratory cycle of the patient, wherein the second pulsed electrical signal is configured to generate afferent electrical activity on the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve that produces a second enhanced evoked potential in the brain of the patient;measuring the second enhanced evoked potential in the brain of the patient;comparing the first enhanced evoked potential to the second enhanced evoked potential;selecting one of the first pulsed electrical signal and the second pulsed electrical signal for continued application to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve based upon the comparison between the first and second enhanced evoked potentials; andapplying the selected pulsed electrical signal to the at least one of the vagus nerve, the trigeminal nerve, and the glossopharyngeal nerve of the patient.
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