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    • 3. 发明授权
    • Blood pressure monitoring apparatus
    • 血压监测仪
    • US5876348A
    • 1999-03-02
    • US993562
    • 1997-12-18
    • Yoshihiro SugoTakeshi SohmaHiromitsu KasuyaRie Tanaka
    • Yoshihiro SugoTakeshi SohmaHiromitsu KasuyaRie Tanaka
    • A61B5/022A61B5/0245A61B5/0285A61B5/0456A61B5/02
    • A61B5/02125A61B5/022A61B5/0285A61B5/0456
    • During a noninvasive blood pressure measurement using a cuff 2, a pulse wave propagation time T1 from the appearance of the peak value of an R wave in an electrocardiogram (ECG) waveform to the appearance of the bottom value of a pulse wave is counted, and a blood pressure value BP1 is calculated from a count result T1 and parameters .alpha., .beta. specific to a subject obtained during a pulse wave propagation time calibration. Then, the absolute value of a difference between the blood pressure value BP1 and a blood pressure value NIBP1 obtained by the noninvasive blood pressure measurement using the cuff 2 is calculated, and it is indeed whether or not the calculated absolute value is within a predetermined threshold.sub.-- BP. If the absolute value is judged to exceed the threshold.sub.-- BP, then blood pressure is measured again noninvasively using the cuff 2, and a blood pressure value NIBP1'obtained from such repeated measurement is displayed on a display 22.
    • 在使用袖带2的无创血压测定中,计数从心电图(ECG)波形中的R波的峰值出现到脉搏波的底部值的出现的脉搏波传播时间T1, 根据计数结果T1和在脉搏波传播时间校准期间获得的对象特有的参数α,β计算血压值BP1。 然后,计算通过使用袖带2的无创血压测定得到的血压值BP1与血压值NIBP1之差的绝对值,实际上是否计算出的绝对值在规定的阈值以内 -BP。 如果绝对值被判断为超过阈值-BP,则使用袖带2再次非侵入性地测量血压,并且在显示器22上显示从这种重复测量获得的血压值NIBP1。
    • 4. 发明授权
    • Biological information monitor
    • 生物信息监测
    • US09433361B2
    • 2016-09-06
    • US12872099
    • 2010-08-31
    • Mitsushi HyogoTeiji UkawaYoshihiro SugoHiroko Hagiwara
    • Mitsushi HyogoTeiji UkawaYoshihiro SugoHiroko Hagiwara
    • A61B5/02A61B5/0225A61B5/021A61B5/022
    • A61B5/0225A61B5/02125A61B5/02225
    • A biological information monitor includes: a first measuring unit which measures a pulse wave propagation time of a patient; a second measuring unit which measures a blood pressure of the patient; a calculating unit which calculates an estimated blood pressure value of the patient based on the pulse wave propagation time of the patient; a setting unit which sets a threshold; and a determining unit which compares the estimated blood pressure value with the threshold. The second measuring unit is activated to measure the blood pressure of the patient at least one of at time intervals and at a time when an operator operates the second measuring unit, and the second measuring unit is activated to measure the blood pressure of the patient by the determining unit based on the comparison result.
    • 生物信息监视器包括:测量患者的脉搏波传播时间的第一测量单元; 测量患者的血压的第二测量单元; 计算单元,其基于患者的脉搏波传播时间计算患者的估计血压值; 设定单元,设定阈值; 以及确定单元,其将估计的血压值与阈值进行比较。 第二测量单元被激活以在时间间隔和操作者操作第二测量单元时的时间间隔中的至少一个被测量患者的血压,并且第二测量单元被激活以通过以下步骤来测量患者的血压 所述确定单元基于所述比较结果。
    • 8. 发明授权
    • Blood pressure measuring apparatus
    • 血压测量仪
    • US5709212A
    • 1998-01-20
    • US413223
    • 1995-03-30
    • Yoshihiro SugoTakeshi Sohma
    • Yoshihiro SugoTakeshi Sohma
    • A61B5/022G06F17/00A61B5/00
    • A61B5/021A61B5/02125A61B5/0456
    • A blood pressure measuring device includes: a memory for storing a standard constant .alpha.; an input means for inputting a correcting blood pressure value; a time interval reference point detection section for detecting a time interval detection reference point in a pulse wave on the side of aortae; a pulse wave detection section for detecting a pulse wave on the side of peripheral blood vessels appearing with a time lag with respect to the pulse wave on the side of aortae; a pulse wave propagation time measurement section for measuring a pulse wave propagation time based on respective detected outputs from the time interval detection reference point detection means and the pulse wave detection means; an operation means for determining a constant .beta. using the blood pressure value for calibration, pulse wave propagation time, and standard constant .alpha. inputted for calibration; an operation means for calculating the blood pressure value from the pulse wave propagation time measured at a predetermined time interval for measuring a circadian blood pressure fluctuation, and the standard constants .alpha., .beta.; a memory for consecutively storing the measured pulse wave propagation time and the blood pressure value calculated from the pulse wave propagation time; and an external output connector for outputting at least the blood pressure value and pulse wave propagation time data as a result of the circadian blood pressure fluctuation measurement.
    • 血压测量装置包括:用于存储标准常数α的存储器; 用于输入校正血压值的输入装置; 时间间隔参考点检测部分,用于检测大脑侧脉搏波中的时间间隔检测参考点; 脉搏波检测部,用于检测出现在相对于主动脉一侧的脉搏波的时滞的外周血管侧的脉搏波; 脉搏波传播时间测定部,其根据来自所述时间间隔检测基准点检测单元和所述脉波检测单元的各检测输出来测定脉波传播时间; 使用用于校准的血压值,脉搏波传播时间和用于校准的标准常数α来确定恒定值β的操作装置; 从用于测量昼夜血压波动的预定时间间隔测量的脉搏波传播时间和标准常数α,β计算血压值的操作装置; 用于连续存储由脉搏波传播时间计算出的测量脉搏波传播时间和血压值的存储器; 以及作为昼夜血压波动测量的结果,至少输出血压值和脉搏波传播时间数据的外部输出连接器。
    • 10. 发明申请
    • BLOOD VOLUME MEASURING METHOD AND BLOOD VOLUME MEASURING APPARATUS
    • 血液体积测量方法和血液体积测量装置
    • US20110060531A1
    • 2011-03-10
    • US12878336
    • 2010-09-09
    • Yoshihiro SUGOMitsushi HYOGO
    • Yoshihiro SUGOMitsushi HYOGO
    • G06F19/00A61B5/021G06F17/18
    • A61B5/029A61B5/02255A61B5/0285
    • A blood volume measuring method includes: acquiring data of stroke volume variation at each respiratory rate, and storing the acquired data in a first buffer; reading an N1 number of the data stored in the first buffer, from the first buffer, and storing the N1 number of the data in a second buffer; excluding a part of the data stored in the second buffer, a value of each of which exceeds a first upper limit or falls below a first lower limit, from the data stored in the second buffer, and storing the other of the data stored in the second buffer, in a third buffer; acquiring a deviation of each of the data stored in the third buffer, from a median value of the data stored in the third buffer, excluding a part of the data stored in the third buffer, the deviation of each of which exceeds a second upper limit or falls below a second lower limit, from the data stored in the third buffer, and storing the other of the data stored in the third buffer, in a fourth buffer; determining whether N2/N1 is within an allowable value or not, wherein the N2 is a number of the data stored in the fourth buffer; and when it is determined that the N2/N1 is within the allowable value, calculating data of average stroke volume variation based on the data stored in the fourth buffer.
    • 血液量测量方法包括:获取每个呼吸频率下的搏动量变化的数据,并将获取的数据存储在第一缓冲器中; 从第一缓冲器读取存储在第一缓冲器中的N1数据,并将N1数据存储在第二缓冲器中; 从存储在第二缓冲器中的数据中排除存储在第二缓冲器中的数据的一部分,其中的每一个超过第一上限或低于第一下限,并且存储在第二缓冲器中存储的另一个数据 第二缓冲器,在第三缓冲器中; 从存储在第三缓冲器中的数据的中值除去存储在第三缓冲器中的数据的一部分,获取存储在第三缓冲器中的每个数据的偏差,每个数据的偏差超过第二上限 或者从存储在第三缓冲器中的数据降低到低于第二下限,并且将存储在第三缓冲器中的另一数据存储在第四缓冲器中; 确定N2 / N1是否在允许值内,其中N2是存储在第四缓冲器中的数据的数量; 并且当确定N 2 / N 1在允许值内时,基于存储在第四缓冲器中的数据来计算平均行程体积变化的数据。