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    • 3. 发明授权
    • Mobile ultrasonic diagnostic device
    • 移动式超声波诊断装置
    • US09482747B2
    • 2016-11-01
    • US14369989
    • 2012-12-07
    • HITACHI ALOKA MEDICAL, LTD.
    • Masa YamamotoKeigo Ninomiya
    • G01S7/52A61B8/00A61B8/14
    • G01S7/52A61B8/14A61B8/4427A61B8/54A61B8/56
    • A mobile ultrasonic diagnostic device comprising: a battery; an adapter connection detection unit that detects the connection status of an AC adapter that supplies power to each constituent element of the device; and a processing determination unit (determination unit) that determines the processing for each constituent element on the basis of the connection status of the AC adapter. Each constituent element (a processing unit and constituent elements other than the processing unit) are processed on the basis of the processing determined by the processing determination unit (determination unit), and, as a result, the device can be safely used even if there is a possibility that power cannot be supplied from the battery.
    • 一种移动式超声波诊断装置,包括:电池; 适配器连接检测单元,其检测向所述设备的每个构成元件供电的AC适配器的连接状态; 以及处理确定单元(确定单元),其基于AC适配器的连接状态来确定针对每个构成元件的处理。 基于由处理确定单元(确定单元)确定的处理,处理每个构成要素(处理单元和处理单元以外的构成要素),结果,即使在该处理单元 是不能从电池供电的可能性。
    • 5. 发明申请
    • ULTRASONIC MEDICAL DEVICE
    • 超声医疗器械
    • US20160120511A1
    • 2016-05-05
    • US14891732
    • 2014-05-27
    • THE UNIVERSITY OF TOKYOHITACHI ALOKA MEDICAL LTD.)
    • Takashi AzumaAkira SasakiRyosuke AoyagiShu TakagiKazunori ItaniKeisuke FujiwaraHideki Takeuchi
    • A61B8/08A61N7/02
    • A61B8/485A61B8/085A61B2018/00589A61N7/02A61N2007/0052
    • A modulation frequency control unit (36) controls a displacement-use transmission unit (34) such that displacement-use ultrasonic beam (EB) is subjected to modulation processing using a relatively high modulation frequency and a relatively low modulation frequency. A displacement measurement unit (24) measures the displacement of a tissue in a treatment area (P) at each of the modulation frequencies, and a coagulation measurement unit (25) measures local coagulation in the treatment area (P) on the basis of the measurement result of the displacement at the relatively high modulation frequency, and measures wide-area coagulation in the treatment area (P) on the basis of the measurement result of the displacement at the relatively low modulation frequency. Consequently, for example, the presence or absence of local coagulation immediately after coagulation has occurred, and the like, can be measured with high accuracy, and further, for example, the size of wide-area coagulation after coagulation has progressed, and the like, can be measured with high accuracy.
    • 调制频率控制单元(36)控制位移使用传输单元(34),使得位移使用超声波束(EB)使用相对较高的调制频率和相对较低的调制频率进行调制处理。 位移测量单元(24)测量每个调制频率处的处理区域(P)中的组织的位移,并且凝固测量单元(25)基于所述调节频率来测量处理区域(P)中的局部凝结 在相对较高的调制频率下进行位移的测量结果,并且以相对较低调制频率的位移测量结果为基础测量处理区域(P)中的广域凝结。 因此,例如,可以高精度地测量凝固后立即凝固的存在或不存在等,并且例如凝固后的广泛区域凝固的尺寸进行等 ,可以高精度地测量。
    • 7. 发明申请
    • ULTRASONIC PROBE
    • 超声探头
    • US20150276685A1
    • 2015-10-01
    • US14438795
    • 2013-10-30
    • HITACHI ALOKA MEDICAL, LTD.
    • Takeo YasuharaHidetsugu KatsuraToru Watanabe
    • G01N29/24A61B18/04A61N7/00G01N29/32
    • G01N29/24A61B8/12A61B8/445A61B8/4483A61B8/4494A61B8/546A61B18/04A61N7/00G01N29/32
    • A probe that is inserted into a body cavity, wherein an inner unit (inner assembly) comprises an oscillator unit, an intermediate substrate, an electronic circuit substrate, and a backing member. An exhaust heat sheet is joined to an area at the perimeter of the rear surface of the electronic circuit substrate. The exhaust heat sheet comprises a main body part and a plurality of wings that extend to the outside from the main body part. The plurality of wings include a right wing and a left wing. The wings are inserted into two slits formed in a probe head case (heat radiating shell), and the end parts of the wings are accommodated in and adhered to two recessed sections formed in the outer surface of the probe head case. Thus, heat generated inside the probe head case can be directly transferred to the outer surface of the probe head case.
    • 插入体腔的探针,其中内部单元(内部组件)包括振荡器单元,中间基板,电子电路基板和背衬构件。 排气加热片接合到电子电路基板的后表面周边的区域。 排气热板包括从主体部分延伸到外部的主体部分和多个翼部。 多个翼包括右翼和左翼。 将翅片插入形成在探针头壳体(散热壳体)中的两个狭缝中,并且翼部的端部容纳在形成于探针头壳体的外表面中的两个凹部中并粘附到两个凹部。 因此,探头头壳体内产生的热量可以直接传递到探针头壳体的外表面。
    • 9. 发明申请
    • ULTRASONIC DIAGNOSTIC APPARATUS AND ELASTIC EVALUATION METHOD
    • 超声诊断设备和弹性评估方法
    • US20150173720A1
    • 2015-06-25
    • US14635159
    • 2015-03-02
    • Hitachi Aloka Medical, Ltd.
    • Hideki YOSHIKAWA
    • A61B8/08A61B8/00
    • A61B8/485A61B8/463A61B8/469A61B8/488A61B8/5207A61B8/5223A61B8/5269G01S7/52042G01S7/52063G01S7/52071G01S7/52074
    • An ultrasonic diagnostic apparatus and a method having a highly-reliable elastic evaluation unit for tissues. The invention includes a signal processing unit that processes received data obtained after ultrasonic waves are transmitted and received to/from an inspection target through a probe. An ROI detection unit of the processing unit obtains a distance index indicating a region proper for an elastic evaluation based on brightness distribution of the received data obtained by transmitting and receiving first ultrasonic waves to/from the probe, and sets an ROI based on the distance index. Then, second ultrasonic waves are transmitted to the ROI to generate shear waves. An elastic evaluation unit calculates a shear wave velocity based on received data obtained by transmitting and receiving third ultrasonic waves in the ROI, and outputs the shear wave velocity and an elastic evaluation value of the ROI as a reliability index.
    • 一种超声波诊断装置和具有用于组织的高可靠性弹性评价单元的方法。 本发明包括信号处理单元,该信号处理单元处理通过探头将超声波发送和接收到检查对象之后获得的接收数据。 处理单元的ROI检测单元基于通过从探头发送和接收第一超声波获得的接收数据的亮度分布,获得指示用于弹性评估的适当区域的距离指标,并且基于距离 指数。 然后,第二超声波被传送到ROI以产生剪切波。 弹性评估单元基于通过在ROI中发送和接收第三超声波获得的接收数据来计算剪切波速度,并输出剪切波速度和ROI的弹性评估值作为可靠性指标。
    • 10. 发明申请
    • ULTRASONIC DIAGNOSIS DEVICE AND TRANSMISSION/RECEPTION METHOD
    • 超声诊断装置及传输/接收方法
    • US20150173718A1
    • 2015-06-25
    • US14413174
    • 2014-01-29
    • HITACHI ALOKA MEDICAL, LTD.
    • Marie TabaruHideki YoshikawaRei AsamiKunio HashibaHiroshi Masuzawa
    • A61B8/08A61B8/00
    • A61B8/485A61B8/08A61B8/085A61B8/463A61B8/5207A61B8/5223G01S7/52042
    • There is provided an ultrasonic diagnostic apparatus capable of measuring hardness information of a subject with high time resolution and spatial resolution.The apparatus is provided with a ultrasonic probe 1 and a displacement generation unit 10 configured to displace an inside of a subject and is configured to transmit an ultrasonic beam for displacement detection to a plurality of detection positions of the subject from the ultrasonic probe 1, and to detect a shear wave velocity based on the displacement at the plurality of detection positions in a control unit 3 by using a reflection signal detected in a detection unit 20, thereby outputting hardness information of the subject. The ultrasonic beam for displacement detection is transmitted to one of the plurality of detection positions. A waveform analysis unit 26 of the control unit 3 is configured to perform a change control of analyzing a shear wave resulting from the displacement to thus transmit the ultrasonic beam for displacement detection to another position of the plurality of detection positions. Thereby, it is possible to measure the shear wave velocity with high time resolution and spatial resolution, so that it is possible to obtain the hardness information of the subject with high precision.
    • 提供了能够以高时间分辨率和空间分辨率来测量被检体的硬度信息的超声波诊断装置。 该装置设置有超声波探头1和位移产生单元10,其被配置为使被检体的内部移位,并且被配置为从超声波探头1向被检体的多个检测位置发送用于位移检测的超声波束,以及 通过使用在检测单元20中检测到的反射信号,基于控制单元3中的多个检测位置处的位移检测剪切波速度,从而输出被检体的硬度信息。 用于位移检测的超声波束被发送到多个检测位置中的一个。 控制单元3的波形分析单元26被配置为执行分析由位移产生的剪切波的变化控制,从而将用于位移检测的超声波束发送到多个检测位置的另一位置。 由此,可以以高时间分辨率和空间分辨率测量剪切波速度,从而可以高精度地获得被检体的硬度信息。