Patent ID: 8430822
Filing Date: 2013-04-30
Classification: A61B

Abstract:
1. A blood pressure measuring apparatus comprising: a cuff member comprising a compression air bladder which is adapted to be formed on a side to be brought into contact with a blood pressure measurement portion and which is adapted to press a whole blood pressure measurement portion, a sub air bladder which is adapted to be formed on a side of said compression air bladder, which is brought into contact with the blood pressure measurement portion, and which is adapted to press a heart side of a blood vessel in the blood pressure measurement portion, and a pulse wave detection air bladder which is adapted to be formed on the side of said compression air bladder, which is brought into contact with the blood pressure measurement portion, and which is adapted to detect a pulse wave on a slightly downstream side of a central portion of the blood vessel in the blood pressure measurement portion; pressure control means for pressurizing or depressurizing each air bladder of said cuff member; a pressure sensor which senses an internal pressure of each air bladder of said cuff member; pulse wave signal extracting means for extracting time-series data of a pulse wave signal superposed on a cuff internal pressure sensed by said pressure sensor, in the process during which said pressure control means pressurizes or depressurizes each air bladder of said cuff member; and blood pressure value deriving means for deriving a systolic blood pressure value and/or a diastolic blood pressure value based on a change in feature amount of the pulse wave signal and a cuff internal pressure at a point of time of the change, wherein said blood pressure value deriving means detects, for each of a plurality of one-period pulse wave signals contained in the pulse wave signal time-series data, a maximum gradient point of the one-period pulse wave in a period between a peak point and a bottom point appearing prior to the peak point, and derives the systolic blood pressure value and/or the diastolic blood pressure value based on a difference between a pulse wave amplitude value at a bottom point appearing prior to the detected maximum gradient point and a value, which is obtained at a time of the bottom point, of a tangent passing through the detected maximum gradient point.