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    • 2. 发明申请
    • DEPLOYMENT HANDLE FOR AN IMPLANT DEPLOYMENT DEVICE
    • 植入部署装置的部署手柄
    • WO2009086394A2
    • 2009-07-09
    • PCT/US2008088191
    • 2008-12-23
    • COOK WILLIAM EUROPCOOK INCHANSEN PALLE M
    • HANSEN PALLE M
    • A61F2/04
    • A61F2/95A61F2/966A61F2002/041A61F2002/9517
    • A deployment handle (112) for an implant deployment device (10) facilitates withdrawal of a sheath (18). The deployment handle (112) includes two separate actuators: a trigger (130) and a sliding actuator (330). The trigger (130) can be used to effect small step-wise movement of a carriage (120) that is connected to a sheath (18) to be withdrawn. The sliding actuator (330) can be used to effect continuous movement of a carriage (120) to withdraw a sheath (18). In order to transmit movement of either the trigger (130) or the sliding actuator (330) to the carriage (120), a flexible rack (380) is used. The flexible rack (380) includes upper teeth (390) and lower teeth (395) for engagement with the trigger (130) and the sliding actuator (330) respectively. The ability of the flexible rack (380) to bend back on itself means that unnecessary elongation of the deployment handle (112) is avoided.
    • 用于植入物展开装置(10)的展开手柄(112)便于收回护套(18)。 展开手柄(112)包括两个单独的致动器:触发器(130)和滑动致动器(330)。 触发器130可以用于实现连接到将被撤回的护套18的滑架120的小步进运动。 滑动致动器(330)可用于实现滑架(120)的连续移动以抽出护套(18)。 为了将触发器(130)或滑动致动器(330)的运动传递到托架(120),使用柔性机架(380)。 柔性齿条(380)包括分别与触发器(130)和滑动致动器(330)接合的上齿(390)和下齿(395)。 柔性齿条(380)向后弯曲的能力意味着避免了展开手柄(112)的不必要的伸长。
    • 4. 发明申请
    • CANNULA STENT
    • 肛门支架
    • WO03030786A3
    • 2003-08-21
    • PCT/US0232338
    • 2002-10-09
    • COOK WILLIAM EUROPCOOK INC
    • HANSEN PALLE MPARKER FRED TEHRLINSPIEL MICHAEL
    • A61F2/84A61F2/06A61F2/90
    • A61F2/91A61F2/915A61F2002/91516A61F2002/91525A61F2002/91533A61F2002/91558A61F2002/91575A61F2230/0054
    • A stent (30) formed from cannula and having flexible segments (31) and high hoop strength segments (32) alternating therealong. Longitudinal struts or tie bars (41) interconnect the segments. Minimal length reduction of the strut occurs upon expansion. In the high hoop strength segment (32), struts (37) in a zig-zag configuration (Gianturco Z-stent) are initially parallel in the unexpanded strut condition. In the flexible segment (31), struts (58) extend from a respective C shaped bend (59) to converge at the opposite ends thereof when unexpanded. In one embodiment, certain adjacent struts (39-41) of the hoop segment are spaced apart by elongated openings or gaps (46, 48) interposed therebetween and interconnected at their respective ends (42, 44) to form a T-shaped strut interconnection (45). The selected width (50, 51) of the first and third struts (54, 57) increases toward the ends (47, 48) of the elongated openings (46, 48) adjacent the strut interconnection (45). This strut width increase about one end of the strut significantly reduces the tensile strain exhibited about the opening end when the stent is radially expanded during manufacture. The tip length (52, 55) of the struts about the interconnection (45) is also adjusted (increased) along with the other C-shaped strut interconnections (59, 71) to further distribute the tensile strain developed during radial expansion.
    • 由套管形成并具有柔性段(31)和高箍环段(32)的支架(30),所述柔性段(31)和/或环箍强度段(32)沿其交替。 纵向支柱或连接杆(41)将各段相互连接。 扩张时发生支柱的最小长度减小。 在高箍强度段(32)中,曲折形状的支柱(37)(Gianturco Z支架)最初在未膨胀的支柱条件下平行。 在柔性段(31)中,当未膨胀时,支柱(58)从相应的C形弯曲部(59)延伸到其相对端处会聚。 在一个实施例中,环形段的某些相邻的支柱(39-41)通过插入其间的细长开口或间隙(46,48)间隔开,并在它们各自的端部(42,44)处互连,以形成T形支柱互连 (45)。 第一和第三支柱(54,57)的所选择的宽度(50,51)朝着与支柱互连(45)相邻的细长开口(46,48)的端部(47,48)增加。 当支架在制造期间径向膨胀时,该支撑宽度围绕支柱的一端增加显着地减小了围绕开口端呈现的拉伸应变。 支撑在互连(45)上的支柱的尖端长度(52,55)也与其他C形支柱互连(59,71)一起被调整(增加),以进一步分配在径向膨胀期间产生的拉伸应变。
    • 6. 发明专利
    • DK1434540T3
    • 2006-11-20
    • DK02773734
    • 2002-10-09
    • COOK WILLIAM EUROPCOOK INC
    • HANSEN PALLE MEHRLINSPIEL MICHAELPARKER FRED T
    • A61F2/06A61F2/84A61F2/90
    • A stent ( 30 ) formed from cannula and having flexible segments ( 31 ) and high hoop strength segments ( 32 ) alternating therealong. Longitudinal struts or tie bars ( 41 ) interconnect the segments. Minimal length reduction of the strut occurs upon expansion. In the high hoop strength segment ( 32 ), struts ( 37 ) in a zig-zag configuration (Gianturco Z-stent) are initially parallel in the unexpanded strut condition. In the flexible segment ( 31 ), struts ( 58 ) extend from a respective C-shaped bend ( 59 ) to converge at the opposite ends thereof when unexpanded. In one embodiment, certain adjacent struts ( 39-41 ) of the hoop segment are spaced apart by elongated openings or gaps ( 46, 48 ) interposed therebetween and interconnected at their respective ends ( 42, 44 ) to form a T-shaped strut interconnection ( 45 ). The selected width ( 50, 51 ) of the first and third struts ( 54, 57 ) increases toward the ends ( 47, 48 ) of the elongated openings ( 46, 48 ) adjacent the strut interconnection ( 45 ). This strut width increase about one end of the strut significantly reduces the tensile strain exhibited about the opening end when the stent is radially expanded during manufacture. The tip length ( 52, 55 ) of the struts about the interconnection ( 45 ) is also adjusted (increased) along with the other C-shaped strut interconnections ( 59, 71 ) to further distribute the tensile strain developed during radial expansion.
    • 8. 发明专利
    • Cannula stent
    • HK1065936A1
    • 2005-03-11
    • HK04108906
    • 2004-11-11
    • COOK WILLIAM EUROPCOOK INC
    • HANSEN PALLE MPARKER FRED TEHRLINSPIEL MICHAEL
    • A61F20060101A61F2/06A61F2/84A61F2/90
    • A stent ( 30 ) formed from cannula and having flexible segments ( 31 ) and high hoop strength segments ( 32 ) alternating therealong. Longitudinal struts or tie bars ( 41 ) interconnect the segments. Minimal length reduction of the strut occurs upon expansion. In the high hoop strength segment ( 32 ), struts ( 37 ) in a zig-zag configuration (Gianturco Z-stent) are initially parallel in the unexpanded strut condition. In the flexible segment ( 31 ), struts ( 58 ) extend from a respective C-shaped bend ( 59 ) to converge at the opposite ends thereof when unexpanded. In one embodiment, certain adjacent struts ( 39-41 ) of the hoop segment are spaced apart by elongated openings or gaps ( 46, 48 ) interposed therebetween and interconnected at their respective ends ( 42, 44 ) to form a T-shaped strut interconnection ( 45 ). The selected width ( 50, 51 ) of the first and third struts ( 54, 57 ) increases toward the ends ( 47, 48 ) of the elongated openings ( 46, 48 ) adjacent the strut interconnection ( 45 ). This strut width increase about one end of the strut significantly reduces the tensile strain exhibited about the opening end when the stent is radially expanded during manufacture. The tip length ( 52, 55 ) of the struts about the interconnection ( 45 ) is also adjusted (increased) along with the other C-shaped strut interconnections ( 59, 71 ) to further distribute the tensile strain developed during radial expansion.