Blood pressure measuring method and apparatus
First Claim
1. A blood pressure measuring system including a transducer constructed and arranged to be applied to a patient in an opposed relation to an artery in which blood flows to define a blood flow direction, means for applying pressure to the artery for preventing blood flow, means for gradually reducing the pressure on the artery whereby a quantity of blood passes through the artery during each heartbeat to produce a Korotkoff sound when the pressure applied to the artery is between the patient'"'"'s systolic and diastolic pressures, said transducer including first and second sensors each operative to generate a signal upon the occurrence of the Korotkoff sound, support means for said first and second sensors for positioning said first sensor proximal and the second sensor distal relative to the direction of blood movement in the artery, and processing means connected to said first and second sensors for determining when the signal in the second sensor is phase shifted relative to the signal in the first sensor, said first and second sensors being spaced apart a distance such that the portion of the signal in the first sensor resulting from the Korotkoff sound in that portion of the artery beneath the first sensor is out of phase relative to that portion of the signal in the second sensor resulting from the Korotkoff sound in that portion of the artery below the second sensor and any noise portions of the signals in each sensor resulting from artifact are in phase, whereby systolic and diastolic pressures in the artery can be determined regardless of the existence of noise.
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Accused Products
Abstract
A blood pressure measuring system includes a transducer having first and second sensors adapted to be mounted above the artery of a patient with the second sensor more distal relative to the direction of blood flow than the first sensor. A processor digitizes the signals from the first and second sensors and determines when the second signal is phase shifted about 90 degrees relative to the first signal for determining the occurrence of the Korotkoff sound. The transducer comprises a film of a material having piezoelectric properties and at least two spaced apart electrodes on one surface of the film and a third electrode on the opposite side and opposed to the two electrodes.
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Citations
21 Claims
- 1. A blood pressure measuring system including a transducer constructed and arranged to be applied to a patient in an opposed relation to an artery in which blood flows to define a blood flow direction, means for applying pressure to the artery for preventing blood flow, means for gradually reducing the pressure on the artery whereby a quantity of blood passes through the artery during each heartbeat to produce a Korotkoff sound when the pressure applied to the artery is between the patient'"'"'s systolic and diastolic pressures, said transducer including first and second sensors each operative to generate a signal upon the occurrence of the Korotkoff sound, support means for said first and second sensors for positioning said first sensor proximal and the second sensor distal relative to the direction of blood movement in the artery, and processing means connected to said first and second sensors for determining when the signal in the second sensor is phase shifted relative to the signal in the first sensor, said first and second sensors being spaced apart a distance such that the portion of the signal in the first sensor resulting from the Korotkoff sound in that portion of the artery beneath the first sensor is out of phase relative to that portion of the signal in the second sensor resulting from the Korotkoff sound in that portion of the artery below the second sensor and any noise portions of the signals in each sensor resulting from artifact are in phase, whereby systolic and diastolic pressures in the artery can be determined regardless of the existence of noise.
- 7. A blood pressure measuring method comprising the steps of applying pressure to an artery of a patient in which blood is flowing to arrest the flow of blood therein, the direction of blood flow in said artery defining a blood flow direction, gradually reducing the pressure on the artery from a first level above the patient'"'"'s systolic pressure to a second lower level no greater than the patient'"'"'s diastolic pressure so that a quantity of blood traverses sid artery during each beat of the patient'"'"'s heart causing the occurrence of the Korotkoff sound, sensing first and second signals respectively occurring as a result of artifact and the occurrence of the Korotkoff sound resulting from the passage of blood at a first location in the artery of the patient and at a second location in the artery distal relative to the first location in the blood flow direction in the artery as the pressure on the artery is reduced from said first level, and determining when the second signal is phase shifted relative to the first signal so that systolic and diastolic pressures can be determined regardless of the existence of noise.
- 9. A blood pressure measuring method comprising the steps of applying pressure to an artery of a patient in which blood is flowing to define a blood flow direction to arrest the flow of blood therein, gradually reducing the pressure on the artery from a first pressure above the patient'"'"'s systolic pressure to a second pressure no greater than the patient'"'"'s diastolic pressure wherein a quantity of blood moves through the artery during each of the patient'"'"'s heartbeats causing the occurrence of the Korotkoff sound, sensing signals occurring as a result of the Korotkoff sound in first, second, third and fourth locations, respectively, in the artery of the patient wherein the second, third and fourth locations are respectively more distal relative to the direction of blood flow than said first location, combining the signals from the first and third locations to produce a fifth signal, combining the signals from the second and fourth locations to provide a sixth signal, and determining when the sixth signal is phase shifted relative to the fifth signal.
- 11. A blood pressure measuring system including a transducer constructed and arranged to be applied to a patient in an opposed relation to an artery in which blood is flowing to define a blood flow direction, means for applying pressure to the artery for preventing blood flow, means for gradually reducing the pressure on the artery whereby a quantity of blood moves through the artery during each heartbeat when the pressure applied to the artery falls below the patient'"'"'s systolic pressure, said transducer including first, second, third and fourth responsive means each operative for generating a signal upon the movement of said blood quantities through the artery, support means for supporting said first, second, third and fourth responsive means successively distal relative to the direction of blood flow in the artery, and processing means connected to said first, second, third and fourth responsive means for combining the signals from said first and third responsive means and the signals from said second and fourth responsive means to provide fifth and sixth signals and for determining when the sixth signal is phase shifted relative to the fifth signal.
- 13. A blood pressure measuring method comprising the steps of applying pressure to an artery of a patient in which blood is flowing to arrest the flow of blood therein, the direction of blood flow in said artery defining a blood flow direction, gradually reducing the pressure on the artery from a first level above the patient'"'"'s systolic pressure to a second lower level no greater than the patient'"'"'s diastolic pressure so that a quantity of blood traverses the artery during each beat of the patient'"'"'s heart, sensing first and second signals respectively occurring as a result of the passage of a quantity of blood at a first location in the artery of the patient and at a second location in the artery distal relative to the first location in the blood flow direction in the artery as the pressure on the artery is reduced from said first level and determining when the second signal is phase shifted relative to the first signal by determining the cross product of intersecting vectors on an X-Y axis of said first and second signals, and determining when said cross product exceeds a threshold value.
- 15. A blood pressure measuring system including means for applying pressure to an artery of a patient in which blood is flowing to arrest the flow of blood therein, the direction of blood flow in said artery defining a blood flow direction, means for gradually reducing the pressure on the artery from a first level above the patient'"'"'s systolic pressure to a second lower level no greater than the patient'"'"'s diastolic pressure so that a quantity of blood traverses said artery during each beat of the patient'"'"'s heart, a transducer constructed and arranged to be applied in an opposed relation to the artery and including first and second sensors spaced apart in the direction of blood flow and operative to generate first and second signals respectively occurring as a result of the passage of blood at a first location in the artery of the patient and at a second location in the artery distal relative to the first location in the blood flow direction in the artery as the pressure on the artery is reduced from said first level, and means for determining the cross product of intersecting vectors on an X-Y axis of said first and second signals, and determining when said cross product exceeds a threshold value to indicate that said signals are phase shifted.
Specification