METHOD AND SYSTEM OF DETERMINING NIBP TARGET INFLATION PRESSURE USING AN SP02 PLETHYSMOGRAPH SIGNAL
First Claim
1. A method of monitoring blood pressure in a patient, the method comprising the steps of:
- providing a pulse monitor having a sensor operable to detect pulse signals due to the patient'"'"'s heartbeat;
positioning a blood pressure cuff on the patient, the blood pressure cuff being operable to restrict a blood flow past the blood pressure cuff;
positioning the sensor on the patient distal to the blood pressure cuff to detect pulse signals from the patient in the blood flow past the blood pressure cuff;
inflating the blood pressure cuff to restrict the blood flow;
monitoring for the presence of the pulse signals from the pulse monitor during inflation of the blood pressure cuff;
terminating the inflation of the blood pressure cuff based upon the pulse signals to define an initial inflation pressure;
decreasing the pressure in the blood pressure cuff from the initial inflation pressure while monitoring for oscillation pulses from the blood pressure cuff; and
calculating the systolic pressure, mean arterial pressure and diastolic pressure for the patient based upon the oscillation pulses detected during the deflation of the blood pressure cuff.
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Abstract
A method and system for operating a non-invasive blood pressure monitor that utilizes an SpO2 plethysmograph signal to determine the initial inflation pressure for the blood pressure cuff of the NIBP monitor. A pulse sensor is placed on the patient'"'"'s limb distal to the blood pressure cuff such that as the blood pressure cuff is inflated, the pulse signals from the pulse sensor will be reduced. When the blood pressure cuff reaches systolic pressure, the pulse signals from the pulse sensor will be initially attenuated and eventually eliminated, thus providing an indication that the cuff pressure has reached systolic pressure for the patient. The central processor of the NIBP monitor compares the pulse signals during cuff inflation to an average pulse signal and terminates the inflation of the blood pressure cuff upon sufficient attenuation. The use of the SpO2 plethysmograph signal to determine the initial inflation pressure reduces both the over-inflation of the blood pressure cuff and the under-inflation of the blood pressure cuff which increases the rate at which the blood pressure measurement can be made while increasing patient comfort.
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Citations
17 Claims
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1. A method of monitoring blood pressure in a patient, the method comprising the steps of:
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providing a pulse monitor having a sensor operable to detect pulse signals due to the patient'"'"'s heartbeat; positioning a blood pressure cuff on the patient, the blood pressure cuff being operable to restrict a blood flow past the blood pressure cuff; positioning the sensor on the patient distal to the blood pressure cuff to detect pulse signals from the patient in the blood flow past the blood pressure cuff; inflating the blood pressure cuff to restrict the blood flow; monitoring for the presence of the pulse signals from the pulse monitor during inflation of the blood pressure cuff; terminating the inflation of the blood pressure cuff based upon the pulse signals to define an initial inflation pressure; decreasing the pressure in the blood pressure cuff from the initial inflation pressure while monitoring for oscillation pulses from the blood pressure cuff; and calculating the systolic pressure, mean arterial pressure and diastolic pressure for the patient based upon the oscillation pulses detected during the deflation of the blood pressure cuff. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of operating a non-invasive blood pressure (NIBP) monitor having a central processor, a blood pressure cuff positionable on an arm of the patient and a pressure transducer operable to detect oscillation pulses beneath the blood pressure cuff, the method comprising the steps of:
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providing a pulse monitor having a sensor positioned to detect pulse signals from the patient representative of the patient'"'"'s heartbeat; positioning a blood pressure cuff on an arm of the patient; positioning the sensor of the pulse monitor on the same arm of the patient as the blood pressure cuff and anatomically distal to the blood pressure cuff; inflating the blood pressure cuff to begin to occlude an artery in the arm of the patient; monitoring for the presence of the pulse signals from the pulse monitor during the inflation of the blood pressure cuff; terminating the inflation of the blood pressure cuff based upon characteristics of the pulse signals from the pulse monitor to define an initial inflation pressure for the blood pressure cuff; decreasing the pressure in the blood pressure cuff from the initial inflation pressure while monitoring for oscillation pulses from the pressure transducer; and calculating the systolic pressure, mean arterial pressure and diastolic pressure for the patient based upon the cuff oscillation pulses detected during the deflation of the blood pressure cuff. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A system for determining the blood pressure of a patient, comprising
a non-invasive blood pressure (NIBP) monitor including a central processor and a display; -
a blood pressure cuff positionable on the patient, the blood pressure cuff being selectively inflatable and deflatable by the NIBP monitor; a pressure transducer operable to measure the pressure within the blood pressure cuff and coupled to the central processor, the pressure transducer being operable to detect oscillation pulses from the patient; and a pulse monitoring system having a sensor positionable on the patient to detect pulse signals from the patient due to the patient'"'"'s heartbeat, wherein the central processor controls the initial inflation of the blood pressure cuff to and initial inflation pressure based upon the pulse signals received from the pulse monitor. - View Dependent Claims (17)
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Specification