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    • 1. 发明申请
    • SYSTEM FOR EVALUATING CARDIAC SURGERY TRAINING
    • 评估心脏手术训练系统
    • US20110217684A1
    • 2011-09-08
    • US12921462
    • 2007-03-02
    • Young Kwang ParkYasuyuki ShiraishiMitsuo Umezu
    • Young Kwang ParkYasuyuki ShiraishiMitsuo Umezu
    • G09B23/30
    • G09B23/285A61B2017/00716
    • A system for evaluating training 1 comprises a pulsating flow generating unit 11 for imparting a pulsating flow to a designated fluid, a coronary artery flow generating unit 12 that branches off from that pulsating flow generating unit 11 and by which a flow condition of that pulsating flow can be converted to generate a coronary artery flow, and a surgery training unit 13 provided between the pulsating flow generating unit 11 and the coronary artery flow generating unit 12 and that operates to enable coronary artery bypass surgery training under pulsation. This system for evaluating training 1 has a circuit configured to enable the coronary artery flow fluid generated by the coronary artery flow generating unit 12 to pass through a simulated blood vessel that has been subjected to a designated treatment in training using the surgery training unit 13.
    • 用于评估训练1的系统包括用于向指定流体施加脉动流的脉动流产生单元11,从该脉动流产生单元11分支的冠状动脉流产生单元12,并且通过该脉动流 可以转换为产生冠状动脉血流,以及设置在脉动流产生单元11和冠状动脉血流产生单元12之间的手术训练单元13,其操作以在脉动下进行冠状动脉旁路手术训练。 用于评估训练1的系统具有电路,该电路构造成能够使冠状动脉血流产生单元12产生的冠状动脉流动流体通过使用手术训练单元13的训练中经受指定治疗的模拟血管。
    • 4. 发明申请
    • BLOOD VESSEL MODEL FOR MEDICAL TRAINING AND METHOD FOR MANUFACTURING SAME
    • 用于医疗训练的血液血管模型及其制造方法
    • US20120040323A1
    • 2012-02-16
    • US13257610
    • 2009-03-20
    • Young Kwang ParkMitsuo Umezu
    • Young Kwang ParkMitsuo Umezu
    • G09B23/28B23P11/00
    • G09B23/30G09B23/303Y10T29/49826
    • A blood vessel model for medical training not deforming with time and approximated to a real blood vessel without using any other tool when the blood vessel wall of the simulated blood vessel is incised or cut off. The blood vessel model 10 includes a simulated blood vessel 11 simulating a blood vessel and artificially fabricated and a base 12 supporting the simulated blood vessel 11. The simulated blood vessel 11 has a circumferentially exposed part and the other part buried in the base 12. The base 12 has a jointed part 24 disposed in a position below the simulated blood vessel 11 and formed by joining forming edges 26A, 26A of a cutout 26 extending along the simulated blood vessel 11 to impart a tensile stress in the diameter-increasing direction to the simulated blood vessel 11.
    • 用于医疗训练的血管模型,当模拟血管的血管壁切开或切断时,不随时间变形并且近似于真实血管而不使用任何其它工具。 血管模型10包括模拟血管并人工制造的模拟血管11和支撑模拟血管11的基部12.模拟血管11具有周向暴露部分,另一部分埋在基部12中。 底座12具有设置在模拟血管11下方的位置处的接合部分24,并且通过连接沿着模拟血管11延伸的切口26的成形边缘26A,26A形成,以在直径增加方向上施加拉伸应力 模拟血管11。
    • 5. 发明授权
    • Blood vessel model for medical training and method for manufacturing same
    • 用于医疗训练的血管模型及其制造方法
    • US08469717B2
    • 2013-06-25
    • US13257610
    • 2009-03-20
    • Young Kwang ParkMitsuo Umezu
    • Young Kwang ParkMitsuo Umezu
    • G09B23/28
    • G09B23/30G09B23/303Y10T29/49826
    • A blood vessel model for medical training not deforming with time and approximated to a real blood vessel without using any other tool when the blood vessel wall of the simulated blood vessel is incised or cut off. The blood vessel model 10 includes a simulated blood vessel 11 simulating a blood vessel and artificially fabricated and a base 12 supporting the simulated blood vessel 11. The simulated blood vessel 11 has a circumferentially exposed part and the other part buried in the base 12. The base 12 has a jointed part 24 disposed in a position below the simulated blood vessel 11 and formed by joining forming edges 26A, 26A of a cutout 26 extending along the simulated blood vessel 11 to impart a tensile stress in the diameter-increasing direction to the simulated blood vessel 11.
    • 用于医疗训练的血管模型,当模拟血管的血管壁切开或切断时,不随时间变形并且近似于真实血管而不使用任何其它工具。 血管模型10包括模拟血管并人工制造的模拟血管11和支撑模拟血管11的基部12.模拟血管11具有周向暴露部分,另一部分埋在基部12中。 底座12具有设置在模拟血管11下方的位置处的接合部分24,并且通过连接沿着模拟血管11延伸的切口26的成形边缘26A,26A形成,以在直径增加方向上施加拉伸应力 模拟血管11。
    • 6. 发明授权
    • Mold for producing simulated blood vessel, method of producing simulated blood vessel and simulated blood vessel
    • 用于生产模拟血管的模具,模拟血管的生产方法和模拟血管
    • US08636520B2
    • 2014-01-28
    • US13003922
    • 2009-01-28
    • Kiyotaka IwasakiMitsuo UmezuTakashi Tanaka
    • Kiyotaka IwasakiMitsuo UmezuTakashi Tanaka
    • G09B23/28
    • G09B23/288G09B23/30
    • Disclosed is a method whereby a narrowed part similar to an actual lesioned blood vessel can be easily obtained. A mold (10) comprises first and second molded members (16, 17) having inner spaces (29, 40, 57) passing through in the axial direction and an axial member (18) detachably inserted through the individual inner spaces (29, 40, 57) of the individual molded members (16, 17). The molded members (16, 17) have tapered front parts (27, 27) respectively. In the state of facing the front ends (20) of the tapered front parts (27) to each other and thus forming a concave (12), the axial member (18) is attached. A first material (75) made of a mixed material comprising calcium carbonate or the like and silicone or the like is applied to the concave (12). A second material (76) such as silicone is applied to the entire outer periphery of the mold (10). After hardening the materials (75, 76), the mold (10) is withdrawn by detaching the axial member (18) and dividing the concave (12). Thus, a simulated blood vessel (78) having a simulated narrowed part of the blood vessel caused by calcification can be obtained.
    • 公开了可以容易地获得与实际损伤的血管类似的变窄部分的方法。 模具(10)包括具有沿轴向通过的内部空间(29,40,57)的第一和第二模制构件(16,17),以及可拆卸地插入穿过各个内部空间(29,40)的轴向构件 ,57)各个模制构件(16,17)。 模制构件(16,17)分别具有锥形前部(27,27)。 在将锥形前部(27)的前端(20)彼此面对并因此形成凹部(12)的状态下,安装轴向构件(18)。 由包含碳酸钙等的混合材料和硅树脂等制成的第一材料(75)施加到凹部(12)上。 将诸如硅树脂的第二材料(76)施加到模具(10)的整个外周。 在硬化材料(75,76)之后,通过拆卸轴向构件(18)并分开凹部(12)来撤回模具(10)。 因此,可以获得由钙化引起的具有模拟的血管狭窄部分的模拟血管(78)。
    • 7. 发明授权
    • Diaphragm pump
    • 隔膜泵
    • US5458468A
    • 1995-10-17
    • US218153
    • 1994-03-25
    • Chun-Xia YeMitsuo UmezuAllen H. Nugent
    • Chun-Xia YeMitsuo UmezuAllen H. Nugent
    • F04B43/02A61F2/24A61M1/10F04B43/06F04B53/10
    • F04B43/06A61F2/2406A61M1/1037A61M1/1096F04B53/104A61M1/106
    • A pump (10) has a housing (11), a base (12) and a flexible diaphragm (13) between the housing and the base. The diaphragm (13) and the base (12) define a driving chamber and the diaphragm (13) and the housing (11) define a pump chamber. The driving chamber is coupled to a pump driver adapted to direct fluid to and from the driving chamber to drive the diaphragm. The pump chamber is of generally conical form with its outlet (21) being located at the apex of the conical pump chamber and the inlet (22) being disposed at an angle inclined to the plane of the base of the conical pump chamber and being generally tangential to the outer portion of the base of pump chamber such that flow through the pump chamber is in the form of a continuous spiral vortex.
    • 泵(10)在壳体和基座之间具有壳体(11),基座(12)和柔性隔膜(13)。 隔膜(13)和底座(12)限定驱动室,隔膜(13)和壳体(11)限定泵室。 驱动室耦合到泵驱动器,该泵驱动器适于将流体引导到驱动室和从驱动室驱动隔膜。 泵室是大致锥形的,其出口(21)位于锥形泵室的顶点处,并且入口(22)以与锥形泵室的底部平面倾斜的角度设置,并且通常 与泵室的底部的外部部分相切,使得通过泵室的流动是连续螺旋涡流的形式。
    • 10. 发明申请
    • SYSTEM FOR FORMING AND MAINTAINING BIOLOGICAL TISSUE
    • 造成和维持生物组织的系统
    • US20100261262A1
    • 2010-10-14
    • US12681049
    • 2008-10-10
    • Kiyotaka IwasakiMitsuo UmezuKoji KojimaCharles Alfred Vacanti
    • Kiyotaka IwasakiMitsuo UmezuKoji KojimaCharles Alfred Vacanti
    • A01N1/02
    • A61F2/062C12M29/12C12M29/18C12M35/04C12M41/26
    • A system (10) for forming and maintaining a biological tissue by which a biological tissue can be artificially formed by culturing cells, which comprises a pulse pump (12), a circulation pathway (13) having such a circuit structure as allowing a liquid cell culture medium discharged from the pulse pump (12) to return into the pulse pump (12), and a cell culture section (14A) and a gas exchange section (14B) provided along the circulation pathway (13). The cell culture section (14A) holds a cell holder (H) in such a manner to form a first channel wherein the liquid cell culture medium flowing in the circulation pathway (13) passes through the cell holder (H) and returns into the circulation pathway (13) and a second channel wherein the liquid cell culture medium flowing in the circulation pathway (13) passes outside the cell holder (H) and returns into the circulation pathway (13), thereby bringing about a difference in pressure between the liquid cell culture medium passing through the respective channels. The gas exchange section (14B) supplies a mixed gas containing oxygen and carbon oxide to the liquid cell culture medium circulating within the circulation pathway (13) and thus controls the pH value of the liquid cell culture medium at a definite level.
    • 一种用于形成和维持生物组织的系统(10),通过该生物组织可以通过培养细胞人造地形成生物组织,所述系统包括脉冲泵(12),具有允许液体细胞的电路结构的循环通路(13) 从脉冲泵(12)排出的返回到脉冲泵(12)的培养基,沿着循环通路(13)设置的细胞培养部(14A)和气体交换部(14B)。 细胞培养部(14A)以形成第一通道的方式保持细胞保持器(H),其中在循环路径(13)中流动的液体细胞培养基通过细胞保持器(H)并返回循环 通路(13)和第二通道,其中在所述循环通路(13)中流动的液体细胞培养基通过所述细胞保持器(H)的外部并返回到所述循环通路(13)中,从而导致所述液体 通过相应通道的细胞培养基。 气体交换部(14B)将含有氧和碳氧化物的混合气体供给到在循环路径(13)内循环的液体细胞培养基,从而将液体细胞培养基的pH值控制在一定水平。