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    • 2. 发明申请
    • DEVICE
    • 设备
    • WO2017212254A1
    • 2017-12-14
    • PCT/GB2017/051642
    • 2017-06-07
    • MATORTHO LIMITED
    • GILLIES, Ronald MarkCOLLINS, Simon
    • A61B17/88B24B5/14
    • A61B17/8863A61F2002/30332B24B5/14
    • A redressing device (100) for redressing a tapered portion (12) of an orthopaedic implant (10) comprising: a grinding member (110) adapted to engage the tapered portion (12); an adjustable guide element (130) for defining, at least in part, the degree of redressing required for said tapered portion (12) by a user; and a drive shaft (120) for driving movement of said grinding member (110). A device for retaining debris produced during redressing a tapered portion (12) of an orthopaedic implant (12), a surgical kit for redressing a tapered portion (12) of an orthopaedic implant (10) and a method of redressing a tapered portion (12) of an orthopaedic implant (10) are also provided.
    • 一种矫正装置(100),用于矫正整形外科植入物(10)的锥形部分(12),所述矫正装置(100)包括:适于接合所述锥形部分(12)的研磨构件(110); 可调节的引导元件(130),用于至少部分地限定用户对所述锥形部分(12)所需的矫正度; 和用于驱动所述研磨构件(110)的运动的驱动轴(120)。 一种用于在修复整形外科植入物(12)的锥形部分(12)期间产生的碎屑的装置,一种用于矫正整形外科植入物(10)的锥形部分(12)的手术套件以及一种矫正锥形部分(12)的方法 )的整形外科植入物(10)也被提供。
    • 6. 发明申请
    • PLASTICS IMPLANT REVISION AND REMOVAL SYSTEM
    • 塑料植入修改和拆除系统
    • WO2016009167A1
    • 2016-01-21
    • PCT/GB2015/000216
    • 2015-07-20
    • SRA DEVELOPMENTS LIMITED
    • YOUNG, Michael John Radley
    • A61B17/16A61B17/88A61B17/92
    • A61B17/921A61B17/1615A61B17/1631A61B17/164A61B17/17A61B17/320068A61B17/3423A61B17/3472A61B17/7275A61B17/8847A61B17/8863A61B2017/320072
    • A fractured hollow bone (1) can be supported by forming a rigid plastics implant (5) within a cavity (2) of the bone (1), extending across the fracture (4). An access port (7) is used to aid removal or revision of the implant (5). This comprises a hollow cylinder (9), a distal end of which is inserted through an aperture (16) in an end of the bone (1) into the cavity (2) to surround a proximal end (15) of the implant (5). The access port (7) is connectable to a source of torsional-mode ultrasonic vibrations, which soften the plastics material of the implant (5), improving engagement between the implant (5) and a threaded formation (11) within the distal end of the access port (7). Removal of the source of ultrasonic vibrations allows the access port (7) to act as a guide passage (14), in line with the elongate implant (5). A cutting tool introduced through the access port (7) is thus guided so that it can be used to hollow out the implant (5). Once sufficiently hollowed-out, the implant (5) collapses within its surrounding balloon (6). The engagement of the access port (7) with the proximal end (15) of the implant (5) allows the implant (5) and balloon (6) to be drawn out of the cavity (2). A particularly suitable cutting tool has a roughly cylindrical operative head (21) comprising four equally- spaced fins (24) separated by four part-circular grooves (25). The fins (24) and grooves (25) extend helically between the distal (26) and proximal (28) ends of the operative head (21). The distal end (26) is concave. When activated by torsional-mode ultrasonic vibrations, the distal tips of the fins (24) in particular produce an effective longitudinal cutting action. Debris and softened plastics material flow proximally along the grooves (25) away from the distal end (26) where most cutting occurs.
    • 骨折的中空骨(1)可以通过在骨骼(1)的空腔(2)内形成刚性的塑料植入物(5)来支撑,延伸穿过骨折(4)。 进入口(7)用于帮助植入物(5)的移除或修复。 这包括中空圆筒(9),其远端通过骨头(1)的端部中的孔(16)插入空腔(2)中,以围绕植入物(5)的近端(15) )。 进入口(7)可连接到扭转模式的超声波振动源,其软化植入物(5)的塑料材料,改善植入物(5)与螺纹结构(11)之间的接合 访问端口(7)。 移除超声振动源允许进入口(7)作为与细长植入物(5)一致的引导通道(14)。 因此,通过进入口(7)引入的切削工具被引导,使得其可以用于挖出植入物(5)。 一旦充分挖空,植入物(5)在其周围的气囊(6)内塌缩。 进入口(7)与植入物(5)的近端(15)的接合允许植入物(5)和球囊(6)从空腔(2)中拉出。 特别合适的切削工具具有大致圆柱形的操作头部(21),其包括由四个部分圆形凹槽(25)分开的四个等间隔的翅片(24)。 翅片(24)和凹槽(25)在操作头部(21)的远端(26)和近端(28)端部之间螺旋地延伸。 远端(26)是凹的。 当由扭转模式的超声波振动激活时,翅片(24)的远端特别产生有效的纵向切割动作。 碎屑和软化的塑料材料沿着远离远端(26)的凹槽(25)向近侧流动,其中发生大多数切割。
    • 10. 发明申请
    • TIGHTENING JOINTS FOR VERSATILE MODULAR SYSTEMS FOR OSTEOSYNTHESIS
    • 用于骨质疏松的各种模块化系统的紧密接合
    • WO2015117207A1
    • 2015-08-13
    • PCT/BG2014/000006
    • 2014-02-06
    • NESTOROV, Stanislav Georgiev
    • NESTOROV, Stanislav Georgiev
    • A61B17/64A61B17/68A61B17/70A61B17/86
    • A61B17/686A61B17/6466A61B17/8004A61B17/8066A61B17/8863A61B2017/681A61B2017/867
    • The invention provides improved tightening joints for elements of versatile modular systems for osteosynthesis designed for orthopedics and traumatology as well their application. The tightening joints of the invention are three as the second and third are embodiments of the first joint. In the first tightening joint (Fig. 4) a rotational wedge-shaped body called clamp is moved along the hole in the other body and pressed against a rod inserted in a cross hole, which intersects the first hole. In the second tightening joint, the clamp is formed as a hemispherical nut in which is screwed the threaded shank of the bone screw, previously screwed in a bone fragment (Fig. 6). In the third tightening joint, the clamp is formed as a sphere having slots (Fig. 7). The versatile modular system for internal osteosynthesis includes bone screws, rods and plates which can be mounted on the rods. The versatile modular system for external osteosynthesis includes bone screws (pins), rods, screwholders and connection modules.
    • 本发明为骨科和创伤学以及其应用设计的用于骨接合术的通用模块化系统的元件提供改进的紧固接头。 本发明的紧固接头是三个,第二和第三是第一接头的实施例。 在第一紧固接头(图4)中,称为夹具的旋转楔形体沿着另一体的孔移动并且压靠在插入与第一孔相交的十字孔中的杆上。 在第二紧固接头中,夹具形成为半球形螺母,其中螺纹拧入骨螺钉的螺纹柄,预先拧入骨片中(图6)。 在第三紧固接头中,夹具形成为具有槽的球(图7)。 用于内部骨接合术的多用途模块化系统包括可以安装在杆上的骨螺钉,杆和板。 用于外部骨接合术的多功能模块化系统包括骨螺钉(销钉),杆,螺丝刀和连接模块。