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    • 1. 发明授权
    • Ultrasonograph
    • 超声波检查
    • US08172754B2
    • 2012-05-08
    • US12297335
    • 2006-04-18
    • Yoshinobu WatanabeYoshinao Tan-nakaTakao Suzuki
    • Yoshinobu WatanabeYoshinao Tan-nakaTakao Suzuki
    • A61B8/13
    • A61B8/0858A61B5/02007A61B5/021A61B8/463A61B8/469A61B8/485
    • An ultrasonic diagnostic apparatus according to the present invention includes: a transmitting section for driving an ultrasonic probe to transmit an ultrasonic wave toward a measuring region of a subject, including an arterial vascular wall; a receiving section for receiving a reflected wave, produced by getting the ultrasonic wave reflected from the subject, at the probe, thereby generating a received signal; a displacement detecting section for calculating the magnitude of displacement of each measuring point in the measuring region on the wall by analyzing the received signal; a tissue-to-present determining section, which defines at least one boundary between tissues included in the measuring region on the wall and which selects one of at least two areas divided by the boundary defined; and a property value calculating section for calculating a property value of the subject based on the magnitude of displacement of each measuring point. The distribution of property values of the measuring points in the area selected by the tissue-to-present determining section is presented as a two-dimensional image.
    • 根据本发明的超声波诊断装置包括:发送部分,用于驱动超声波探头以朝向被检体的测量区域发送超声波,包括动脉血管壁; 接收部分,用于接收通过从被检体反射的超声波在探头处产生的反射波,从而产生接收信号; 位移检测部分,用于通过分析接收信号来计算墙壁上测量区域中每个测量点的位移大小; 组织到当前确定部分,其限定包括在所述墙壁上的所述测量区域中的组织之间的至少一个边界,并且选择由所限定的边界划分的至少两个区域中的一个; 以及属性值计算部,其基于各测量点的位移大小来计算被检体的特性值。 由组织到当前确定部选择的区域中的测量点的属性值的分布被呈现为二维图像。
    • 2. 发明申请
    • ULTRASONOGRAPH
    • US20090275834A1
    • 2009-11-05
    • US12297335
    • 2006-04-18
    • Yoshinobu WatanabeYoshinao Tan-nakaTakao Suzuki
    • Yoshinobu WatanabeYoshinao Tan-nakaTakao Suzuki
    • A61B8/14
    • A61B8/0858A61B5/02007A61B5/021A61B8/463A61B8/469A61B8/485
    • An ultrasonic diagnostic apparatus according to the present invention includes: a transmitting section for driving an ultrasonic probe to transmit an ultrasonic wave toward a measuring region of a subject, including an arterial vascular wall; a receiving section for receiving a reflected wave, produced by getting the ultrasonic wave reflected from the subject, at the probe, thereby generating a received signal; a displacement detecting section for calculating the magnitude of displacement of each measuring point in the measuring region on the wall by analyzing the received signal; a tissue-to-present determining section, which defines at least one boundary between tissues included in the measuring region on the wall and which selects one of at least two areas divided by the boundary defined; and a property value calculating section for calculating a property value of the subject based on the magnitude of displacement of each measuring point. The distribution of property values of the measuring points in the area selected by the tissue-to-present determining section is presented as a two-dimensional image.
    • 根据本发明的超声波诊断装置包括:发送部分,用于驱动超声波探头以朝向被检体的测量区域发送超声波,包括动脉血管壁; 接收部分,用于接收通过从被检体反射的超声波在探头处产生的反射波,从而产生接收信号; 位移检测部分,用于通过分析接收信号来计算墙壁上测量区域中每个测量点的位移大小; 组织到当前确定部分,其限定包括在所述墙壁上的所述测量区域中的组织之间的至少一个边界,并且选择由所限定的边界划分的至少两个区域中的一个; 以及属性值计算部,其基于各测量点的位移大小来计算被检体的特性值。 由组织到当前确定部选择的区域中的测量点的属性值的分布被呈现为二维图像。
    • 3. 发明申请
    • ULTRASONOGRAPH
    • US20100312110A1
    • 2010-12-09
    • US12160447
    • 2007-01-10
    • Takao SuzukiHisashi HagiwaraMakoto KatoYoshinao Tan-naka
    • Takao SuzukiHisashi HagiwaraMakoto KatoYoshinao Tan-naka
    • A61B8/14
    • A61B8/0858A61B5/02007A61B5/021A61B8/13A61B8/485
    • An ultrasonic diagnostic apparatus according to the present invention includes: a transmitting section 102 driving an ultrasonic probe; a receiving section 103 receiving an ultrasonic echo, produced by getting an ultrasonic wave reflected by a subject, at the probe to generate a received signal; a tissue tracking section 105 for tracking the motion of each tissue of the subject based on the received signal and outputting location tracking information; a radius and wall thickness calculating section calculating the radius and wall thickness of the blood vessel; a tissue attribute value calculating section 108 calculating radial and circumferential elasticities of the vascular wall of the vessel based on information about the blood pressure of the subject provided externally, the tracking information, and the radius and wall thickness of the vessel; and a display section 107 presenting the radial and circumferential elasticities. While the transmitting section and the receiving section are transmitting or receiving the ultrasonic wave, the tissue attribute value calculating section calculates the radial elasticities one after another based on the tracking information and the information about the blood pressure, and the display section presents the radial elasticities. But while the transmission and reception of the ultrasonic waves are suspended, the tissue attribute value calculating section calculates the circumferential elasticity based on the tracking information, the information about the blood pressure, and the radius and wall thickness of the blood vessel and the display section presents the circumferential elasticities.
    • 根据本发明的超声波诊断装置包括:驱动超声波探头的发送部分102; 接收部103,其通过在被检测体上取得被检体反射的超声波而接收超声波回波,生成接收信号; 组织跟踪部分105,用于基于所接收的信号跟踪对象的每个组织的运动并输出位置跟踪信息; 计算血管的半径和壁厚的半径和壁厚计算部; 组织属性值计算部分108,根据关于外部提供的对象的血压,跟踪信息以及血管的半径和壁厚的信息,计算血管壁的血管壁的径向和周向弹性; 以及呈现径向和周向弹性的显示部分107。 当发送部分和接收部分正在发送或接收超声波时,组织属性值计算部分基于跟踪信息和关于血压的信息来一个接一个地计算径向弹性,并且显示部分呈现径向弹性 。 但是,在超声波的发送接收停止的情况下,组织属性值计算部根据跟踪信息,关于血压的信息以及血管的半径和壁厚以及显示部来计算周边弹性 呈现圆周弹性。
    • 5. 发明申请
    • ULTRASONIC DIAGNOSTIC APPARATUS
    • 超声诊断设备
    • US20090143675A1
    • 2009-06-04
    • US12067203
    • 2006-09-14
    • Takao SuzukiMakoto KatoHisashi HagiwaraYoshinao Tan-Naka
    • Takao SuzukiMakoto KatoHisashi HagiwaraYoshinao Tan-Naka
    • A61B8/04A61B8/00
    • A61B8/0858A61B5/02007A61B8/485
    • The present invention aims at providing an ultrasonic diagnostic apparatus capable of acquiring more accurate tissue character values such as strain, an average elastic modulus, and an average viscosity.The ultrasonic diagnostic apparatus of the present invention detects tissue boundaries of a subject in accordance with a received signal based on an ultrasonic echo from a receiving section 103, by means of a boundary detection section 110; and tracks motions of the tissue boundaries of the subject by means of a tissue tracking section 108. A tissue character value computing section 109 computes tissue character values of the subject from the motions of the tissue boundaries of the subject tracked by the tissue tracking section 108 and a blood pressure value of the subject acquired from a blood pressure value acquisition section 112.
    • 本发明的目的在于提供一种能够获得更精确的组织特征值的超声波诊断装置,例如应变,平均弹性模量和平均粘度。 本发明的超声波诊断装置借助于边界检测部110,根据来自接收部103的超声波回波的接收信号来检测被检体的组织边界; 并且通过组织跟踪部分108跟踪对象的组织边界的运动。组织字符值计算部分109根据由组织跟踪部分108跟踪的对象的组织边界的运动来计算对象的组织字符值 以及从血压值获取部112获取的被检者的血压值。
    • 6. 发明申请
    • ULTRASONIC DIAGNOSTIC APPARATUS
    • 超声诊断设备
    • US20090118615A1
    • 2009-05-07
    • US11995993
    • 2006-07-20
    • Makoto KatoYoshinao Tan-NakaHisashi HagiwaraTakao Suzuki
    • Makoto KatoYoshinao Tan-NakaHisashi HagiwaraTakao Suzuki
    • A61B8/00
    • A61B8/08A61B5/02007A61B8/0891A61B8/485
    • The present invention aims at providing an ultrasonic diagnostic apparatus capable of displaying a stable spatial distribution of elastic characteristics for each hear beat without depending on the accuracy or stability of measurement of blood pressure and without involvement of measurement of blood pressure.In an ultrasonic diagnostic apparatus of the present invention, an ultrasonic reflected wave transmitted from an ultrasonic probe 13 and reflected by biomedical tissue is input to a computing section 19 by way of a receiving section 15, a delay time control section 16, a phase detection section 17, and a filter section 18. In accordance with the phase detection signal acquired from the phase detection section 17, the computing section 19 computes a relative elastic characteristic which is an elastic characteristic normalized by an elastic characteristic of an arbitrary reference area in the biomedical tissue. A distribution of relative elastic characteristics computed by the computing section is displayed on a display section 21.
    • 本发明的目的在于提供一种超声波诊断装置,其能够在不依赖于血压测量的准确性或稳定性的情况下显示每个听觉搏动的弹性特性的稳定空间分布,而不涉及血压测量。 在本发明的超声波诊断装置中,从超声波探头13发送并被生物医学组织反射的超声波反射波通过接收部15,延迟时间控制部16,相位检测 部分17和滤波器部分18.根据从相位检测部分17获取的相位检测信号,计算部分19计算相对弹性特性,该相对弹性特性是由弹性特性标准化的任意参考区域的弹性特性 生物医学组织。 由计算部分计算的相对弹性特性的分布被显示在显示部分21上。
    • 7. 发明授权
    • Ultrasonic diagnostic apparatus
    • 超声波诊断仪
    • US07946987B2
    • 2011-05-24
    • US11995993
    • 2006-07-20
    • Makoto KatoYoshinao Tan-nakaHisashi HagiwaraTakao Suzuki
    • Makoto KatoYoshinao Tan-nakaHisashi HagiwaraTakao Suzuki
    • A61B8/00
    • A61B8/08A61B5/02007A61B8/0891A61B8/485
    • The present invention aims at providing an ultrasonic diagnostic apparatus capable of displaying a stable spatial distribution of elastic characteristics for each heart beat without depending on the measurement of blood pressure and the accuracy or stability of such measurement, where an ultrasonic wave transmitted from an ultrasonic probe 13 and reflected by biomedical tissue is input to a computing section 19 by way of a receiving section 15, a delay time control section 16, phase detection section 17 and filter section 18. In accordance with the phase detection signal acquired from the phase detection section 17, the computing section 19 computes a relative elastic characteristic which is an elastic characteristic normalized by an elastic characteristic of an arbitrary reference area in the biomedical tissue. A distribution of relative elastic characteristics computed by the computing section is displayed on a display section 21.
    • 本发明的目的是提供一种超声波诊断装置,其能够显示针对每个心跳的弹性特性的稳定的空间分布,而不依赖于血压的测量以及这种测量的精度或稳定性,其中超声波从超声波探头 通过接收部分15,延迟时间控制部分16,相位检测部分17和滤波器部分18将由生物医学组织反射的信号输入到计算部分19.根据从相位检测部分获取的相位检测信号 如图17所示,计算部19计算作为通过生物医学组织中的任意基准面积的弹性特征标准化的弹性特性的相对弹性特性。 由计算部分计算的相对弹性特性的分布被显示在显示部分21上。
    • 8. 发明授权
    • Remote ultrasonic diagnostic subject-side apparatus, remote ultrasonic diagnostic examiner-side apparatus and remote ultrasonic diagnostic system
    • 远程超声波诊断主体侧设备,远程超声波诊断检测仪器和远程超声波诊断系统
    • US07905834B2
    • 2011-03-15
    • US10597660
    • 2005-02-02
    • Yoshinobu WatanabeHisashi HagiwaraYoshinao TannakaTakao Suzuki
    • Yoshinobu WatanabeHisashi HagiwaraYoshinao TannakaTakao Suzuki
    • A61B8/00
    • A61B8/565A61B8/13
    • A subject-side apparatus 10A is provided with a cine memory 15 for sequentially storing an ultrasonic signal that is received by an ultrasonic wave transmission/reception portion 12 per each frame. Every time after freezing when moving a pointer for designating a frame to be reproduced in a hospital-side apparatus 20A, a communication line interface 14 of the subject-side apparatus reproduces a frame that is required to be retransmitted by a console 24 of the hospital-side apparatus from the cine memory, and retransmits it to a communication line interface 21 of the hospital-side apparatus via a communication line 30. Then, an ultrasonic image of the retransmitted frame is displayed on a monitor 23. When an examiner performs a diagnosis with respect to a subject in a remote location via the communication line, an ultrasonic image can be displayed with sufficiently suppressed degradation of an image quality compared with an image quality of an original image, even at a low data rate of the communication line.
    • 被检体侧设备10A设置有电影存储器15,用于顺序地存储每个帧由超声波发送/接收部分12接收的超声波信号。 每当在医院侧设备20A中移动用于指定要再现的帧的指针时,每次冻结后,被摄体侧设备的通信线路接口14再现由医院的控制台24需要重发的帧 并且经由通信线路30将其重新发送到医院侧装置的通信线路接口21.然后,重新发送的帧的超声波图像被显示在监视器23上。当检查者执行 通过通信线路在远程位置对被摄体的诊断,即使在通信线路的低数据速率下,与原始图像的图像质量相比,也可以充分抑制图像质量的劣化,从而显示超声波图像。
    • 9. 发明授权
    • Biological signal monitor device
    • 生物信号监测装置
    • US07575551B2
    • 2009-08-18
    • US10569661
    • 2004-08-30
    • Yoshinobu WatanabeHisashi HagiwaraYoshinao TannakaTakao Suzuki
    • Yoshinobu WatanabeHisashi HagiwaraYoshinao TannakaTakao Suzuki
    • A61B8/00
    • A61B5/02007A61B8/0858A61B8/58G01S7/5206G01S15/8979Y10S128/916
    • There is provided an excellent biological signal monitor device that allows a living tissue moving in accordance with a body motion or a vibration to be observed as if it were standing still. A reverse correction processing unit (114) subjects a B-mode image to reverse correction based on a movement amount of the living tissue detected by a movement amount detection unit (113), and outputs the B-mode image corresponding to the living tissue moving in accordance with a body motion as quasi-still image information. An arithmetic processing unit (115) subjects the quasi-still image information from the reverse correction processing unit (114) to arithmetic processing such as averaging and filter processing, so as to remove a random noise component. As a result, it is possible to display, for example, a contour portion of a blood vessel wall as the living tissue clearly.
    • 提供了一种优良的生物信号监测装置,其允许活体组织根据身体运动或振动进行移动,就像静止状态一样被观察。 反向校正处理单元(114)根据由移动量检测单元(113)检测到的生物体组织的移动量对B模式图像进行反向校正,并输出与活组织移动对应的B模式图像 根据身体运动作为准静止图像信息。 算术处理单元(115)对来自反向校正处理单元(114)的准静止图像信息进行诸如平均和滤波处理之类的算术处理,以便去除随机噪声分量。 结果,可以清楚地显示例如血管壁的轮廓部分作为活体组织。