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    • 2. 发明授权
    • Ultrasonic probe
    • 超声波探头
    • US5296777A
    • 1994-03-22
    • US908872
    • 1992-07-07
    • Yoshitaka MineSusumu HikiMakoto Hirama
    • Yoshitaka MineSusumu HikiMakoto Hirama
    • B06B1/06H01L41/08
    • B06B1/0629
    • An ultrasonic probe has a plurality of ultrasonic transducer elements arranged in a row. A plurality of signal electrodes are provided at one side of the transducer elements. An earth electrode is provided at the other side of the transducer elements. Each of a plurality of signal conductive members is connected to a corresponding signal electrode. An earth conductive member is connected to the earth electrode. The signal conductive members are located close enough to the earth conductive member to sufficiently reduce a mutual inductance generated between said signal conductive members. Therefore, an amount of crosstalk generated between the signal conductive members is reduced.
    • 超声波探头具有排成行的多个超声波换能器元件。 多个信号电极设置在换能器元件的一侧。 在换能器元件的另一侧设置有接地电极。 多个信号导电构件中的每一个连接到对应的信号电极。 接地导体与接地电极连接。 信号导电部件位于与接地导电部件足够近的位置,以充分减小在所述信号传导部件之间产生的互感。 因此,在信号导电部件之间产生的串扰量减少。
    • 3. 发明授权
    • Ultrasonic probe device
    • 超声波探头装置
    • US5274296A
    • 1993-12-28
    • US729845
    • 1991-07-12
    • Susumu HikiYoshitaka Mine
    • Susumu HikiYoshitaka Mine
    • B06B1/06H01L41/08
    • B06B1/0622
    • An ultrasonic probe device has an ultrasonic transducer unit including a plurality of ultrasonic transducer elements electrically isolated from one another. A backing member for mechanically damping the ultrasonic transducer unit is arranged on the ultrasonic transducer unit. A plurality of signal lines is connected to the transducer elements, respectively, and extends on the backing member. The backing member is molded from a composition containing rubber material and a metal oxide which is unreducible by the heat applied during a molding process of the backing member.
    • 超声波探头装置具有包括彼此电隔离的多个超声换能器元件的超声换能器单元。 用于机械地阻尼超声波换能器单元的背衬构件布置在超声波换能器单元上。 多个信号线分别连接到换能器元件并且在背衬构件上延伸。 背衬构件由含有橡胶材料和金属氧化物的组合物模制而成,该金属氧化物在背衬构件的模制过程中不受热施加。
    • 5. 发明授权
    • Ultrasonic diagnosis system and image data display control program
    • 超声诊断系统和图像数据显示控制程序
    • US09173632B2
    • 2015-11-03
    • US13336118
    • 2011-12-23
    • Eiichi ShikiYoshitaka Mine
    • Eiichi ShikiYoshitaka Mine
    • G06T15/00A61B8/08G06T7/00G06T19/00A61B8/00
    • A61B8/08A61B8/463A61B8/466A61B8/483G06F19/00G06T7/12G06T19/00G06T19/003G06T2207/10132G06T2207/30101
    • An ultrasonic diagnosis system that generates virtual endoscopic image data on a lumen of an organ of an object based on volume data acquired by three-dimensional scanning of the object, includes: a unit that sets a three-dimensional region of interest for the volume data; a unit that sets a center line of the lumen of the organ in the volume data based on the acquired volume data; a unit that detects a reference point at which a reference plane of the three-dimensional region of interest and the center line intersect with each other; a unit that sets a viewpoint and a view direction based on the reference point; a virtual endoscopic image data generating unit that processes the volume data based on the viewpoint and the view direction to generate the virtual endoscopic image data; and a display unit that displays the generated virtual endoscopic image data.
    • 一种超声诊断系统,其基于通过对象的三维扫描取得的体数据,在对象器官的管腔上生成虚拟内窥镜图像数据,包括:设定体数据的三维感兴趣区域的单元 ; 基于获取的体积数据,在体数据中设置器官的管腔的中心线的单元; 检测所述三维感兴趣区域的基准面与所述中心线相交的基准点的单位; 基于参考点设置视点和视图方向的单元; 虚拟内窥镜图像数据生成单元,其根据视点和视野方向对体数据进行处理,生成虚拟内窥镜图像数据; 以及显示单元,其显示生成的虚拟内窥镜图像数据。
    • 8. 发明授权
    • Ultrasound imaging using flash echo imaging technique
    • 超声成像使用闪光回波成像技术
    • US06450961B1
    • 2002-09-17
    • US09587611
    • 2000-06-05
    • Eiichi ShikiYoshitaka Mine
    • Eiichi ShikiYoshitaka Mine
    • A61B814
    • A61B8/06A61B8/13A61B8/543
    • A diagnostic ultrasound apparatus is provided for obtaining an image of an object into which an ultrasound contrast agent is injected. The apparatus has a transducer 1 for transmitting and receiving an ultrasound wave to and from the object and transmitting means (2, 81, 83) transmitting an ultrasound pulse into the object by driving the transducer under a first transmitting condition exerting a given destruction capability on the ultrasound contrast agent and a second transmitting condition having a destruction capability lower than that of the first condition. First image producing (3, 5) receive an ultrasound echo of the ultrasound pulse transmitted under the first transmitting condition and produce a first color-displayed image based on phase displacement information about the ultrasound echo. Additionally, second image producing means (3, 4) receive an ultrasound echo of the transmitted ultrasound pulse and produce a second image based on amplitude information about the ultrasound echo. The first and second images are displayed by display means (6, 82). According to this diagnostic ultrasound apparatus, for imaging a CFM image based on a flash echo phenomenon caused in an object in which a contrast agent injected, one interval during which the phenomenon will be caused and the other interval during which it will not be caused can be determined appropriately and images can be displayed effectively over those intervals.
    • 提供了一种用于获得注射了超声造影剂的物体的图像的诊断超声装置。 该装置具有用于向物体发送和接收超声波的换能器1和通过在给予破坏能力的第一发送条件下驱动换能器而将超声脉冲发送到物体的发送装置(2,81,83) 所述超声造影剂和具有比所述第一条件的破坏能力低的破坏能力的第二发送条件。 第一图像产生(3,5)接收在第一发送条件下发送的超声脉冲的超声回波,并且基于关于超声回波的相位位移信息产生第一彩色显示图像。 此外,第二图像产生装置(3,4)接收所发送的超声波脉冲的超声回波,并且基于关于超声回波的振幅信息产生第二图像。 第一和第二图像由显示装置(6,82)显示。 根据该诊断用超声波装置,为了根据在注射造影剂的物体中引起的闪光回波现象来对CFM图像进行成像,可能导致出现这种现象的一个间隔和不会引起的其它间隔, 适当确定图像可以在这些间隔内有效显示。
    • 9. 发明授权
    • Method of ultrasound imaging and diagnostic ultrasound system
    • 超声成像和诊断超声系统的方法
    • US5628322A
    • 1997-05-13
    • US645751
    • 1996-05-14
    • Yoshitaka Mine
    • Yoshitaka Mine
    • G01P5/20A61B8/06G01N29/036G01N29/06G01S7/52G01S15/58G01S15/89A61B8/00
    • G01S15/8979G01N29/036G01N29/0609G01S15/582G01S7/52038G01N2291/017G01N2291/02466G01N2291/02491G01S15/8918G01S15/8984
    • Using a Doppler technique, contrast echo imaging is carried out in order to properly measure the velocity of a contrast medium injected into a patient body by intravenous injection. A diagnostic ultrasound system includes: a unit for extracting a Doppler shift of a nonlinear echo component from a received echo, the nonlinear echo component being attributable to reflection of an ultrasound beam from the ultrasound contrast medium injected into blood. A unit converts a Doppler shift f.sub.d into a velocity component v according to the following conversion expression:v =Vcos.theta.=Cf.sub.d /(2f.sub.set +f.sub.d)where C denotes a sound velocity, V denotes a moving velocity of a blood flow in a patient body, v denotes a component of a moving velocity V in a direction of an ultrasound beam, .theta. denotes an angle of an ultrasound beam with respect to a moving direction of an object, f.sub.set denotes a set frequency used for velocity conversion, and f.sub.d denotes a Doppler shift. Further, a unit displays velocity information concerning the blood flow on the basis of the velocity component v. Preferably, the set frequency f.sub.set is the frequency of a reference signal employed in the system, which is set outside a frequency band of the ultrasound beam being transmitted.
    • 使用多普勒技术,进行对比回波成像,以便通过静脉注射适当地测量注入患者体内的造影剂的速度。 诊断超声系统包括:用于从接收到的回波中提取非线性回波分量的多普勒频移的单元,所述非线性回波分量归因于来自注射到血液中的超声波造影剂的超声波束的反射。 单位根据以下转换表达式将多普勒频移fd转换为速度分量v:v =Vcosθ= Cfd /(2fset + fd)其中C表示声速,V表示患者血流的移动速度 身体,v表示超声波束方向上的移动速度V的分量,θ表示超声波束相对于物体的移动方向的角度,fset表示用于速度变换的设定频率,fd表示 多普勒频移。 此外,单位基于速度分量v显示关于血流的速度信息。优选地,设定频率fset是系统中使用的参考信号的频率,其设置在超声波束的频带外 传输。