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    • 16. 发明授权
    • Deflectable medical therapy delivery device having common lumen profile
    • 具有共同流明特征的偏转药物治疗递送装置
    • US07818040B2
    • 2010-10-19
    • US10655980
    • 2003-09-05
    • Stanten C. SpearJames F. KelleyJohnson E. Goode
    • Stanten C. SpearJames F. KelleyJohnson E. Goode
    • A61B8/14
    • A61M25/0147A61M25/0141A61M2025/015
    • A method of locating a target site for delivering a therapy to a patient that includes advancing a delivery device having a steerable portion and a deflectable tip having a tapered portion to an area along a first site. A contrast media is delivered through a thru lumen and outward from a distal end of the delivery device in fluid communication with the thru lumen to position the contrast media along the first site and the delivery device is further advanced toward the first site and within the first site, or the delivery device is further advanced toward the first site and within the first site without the contrast. The contrast media is then delivered from the distal end of the delivery device within the first site to locate the target site.
    • 一种定位用于将治疗递送给患者的目标部位的方法,包括将具有可转向部分的输送装置和具有锥形部分的可偏转尖端推进到沿着第一部位的区域。 造影剂通过内腔输送并且从输送装置的远端向外输送,其与穿过腔流体连通以沿着第一部位定位造影剂,并且输送装置进一步朝向第一部位前进,并且在第一部位内 或者传送设备进一步向着第一站点和第一站点前进而没有对比。 然后将造影剂从第一位点内的递送装置的远端递送以定位目标部位。
    • 18. 发明授权
    • Ultrasonically welded, staked or swaged components in an implantable medical device
    • 在植入式医疗设备中超声波焊接,固定或锻造组件
    • US07187974B2
    • 2007-03-06
    • US10199601
    • 2002-07-19
    • Daniel C. HaegCraig L. WiklundJames F. Kelley
    • Daniel C. HaegCraig L. WiklundJames F. Kelley
    • A61N1/375
    • A61N1/375
    • The present invention generally relates to an improved implantable medical device (IMD) and more particularly to an ultrasonically weld perforated lid for an IMD to form a hermetic seal between the IMD and the perforated lid. Appropriately configured perforated lids retain one or more components within a cavity or port formed in a part of an IMD. Such lids preferably secure a pierceable resilient grommet, septum or other resilient member in a cavity or port. When an adjustment instrument, a pull tool or a syringe is temporarily inserted therethrough and later extracted, the resilient member heals (i.e., seals and/or reseals). Preferably, the resilient member abuts a mechanical stop and is compressed slightly during assembly and ultrasonic welding of the lid. The resilient member preferably has a lateral dimension like the cavity or port so that when the lid compresses the resilient member it expands slightly and contacts the interior cavity surfaces thus improving the seal.
    • 本发明总体上涉及一种改进的可植入医疗装置(IMD),更具体地涉及用于IMD的超声波焊接多孔盖,以在IMD和多孔盖之间形成气密密封。 适当配置的穿孔盖在IMD的一部分中形成的腔或端口内保留一个或多个部件。 这种盖子优选地将可刺破的弹性垫圈,隔膜或其它弹性构件固定在空腔或端口中。 当调节工具,拉动工具或注射器临时插入其中并随后抽出时,弹性部件愈合(即,密封和/或回收)。 优选地,弹性构件邻接机械止动件并且在盖的组装和超声波焊接期间被稍微压缩。 优选地,弹性构件具有类似于腔或端口的侧向尺寸,使得当盖子压缩弹性构件时,其稍微膨胀并与内腔表面接触,从而改善密封。
    • 19. 发明授权
    • Attachment apparatus for an implantable medical device employing
ultrasonic energy
    • 用于使用超声波能量的可植入医疗装置的附件装置
    • US5919215A
    • 1999-07-06
    • US140969
    • 1998-08-27
    • Craig L. WiklundDaniel C. HaegJames F. Kelley
    • Craig L. WiklundDaniel C. HaegJames F. Kelley
    • A61N1/375
    • A61N1/3752Y10T29/49925
    • A method and apparatus for attaching a pre-formed header module, e.g. a connector header module or an electrode bearing header module, etc., to a hermetically sealed enclosure of the implantable medical device, typically including electronic integrated circuits, batteries, electromechanical pumps, or the like, are disclosed. A plurality of upstanding tabs that are fixed to the hermetically sealed enclosure, e.g. to the enclosure attachment surface, extend into a like plurality of tab channels formed in the header module housing. The upstanding tab(s) are inserted into the respective tab channel(s) during seating of the module and enclosure attachment surfaces and effects an initial alignment of the header module with the hermetically sealed enclosure. Each attachment tab has a retention feature formed on or in the tab that is designed to accommodate the flow of the thermoplastic material during the application of ultrasonic energy in the region of the tab channel and to cooperate with the solidified mass of thermoplastic material. During application of the ultrasonic energy, the thermoplastic material melts and flows into the remaining space of the tab channel and encapsulate the attachment tab including the retention feature. Upon termination of the ultrasonic energy, the thermoplastic housing material cools and solidifies and forms a continuous mass that encapsulates the surface of the attachment tab and the retention feature.
    • 一种用于附接预成形头部模块的方法和装置,例如, 公开了通常包括电子集成电路,电池,机电泵等的可植入医疗装置的气密密封外壳中的连接器插头模块或电极支承插头模块等。 多个直立突出部,固定在密封的外壳上,例如。 到壳体附接表面,延伸到形成在头部模块壳体中的相似的多个突片通道。 在模块和机壳连接表面的座位期间,将直立的插片插入到相应的标签通道中,并且实现了头部模块与密封外壳的初始对准。 每个附接翼片具有形成在翼片上或翼片中的保持特征,该保持特征被设计成在翼片通道的区域中施加超声波能量期间适应热塑性材料的流动并且与固化的热塑性材料块配合。 在施加超声波能量期间,热塑性材料熔化并流入突片通道的剩余空间并且封装包括保持特征的连接片。 在超声波能量终止时,热塑性外壳材料冷却并固化并形成包封附着突片的表面和保持特征的连续质量。