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    • 2. 发明申请
    • GUIDEWIRE WITH INTEGRAL RADIOPAQUE MARKERS
    • GUIDEWIRE与INTEGRAL RADIOPAQUE MARKERS
    • WO2013138018A1
    • 2013-09-19
    • PCT/US2013/026535
    • 2013-02-16
    • MEDTRONIC VASCULAR INC.
    • STIGER, MarkTHOMAS, Richard
    • A61M25/09
    • A61M25/09A61L31/022A61L31/146A61L31/18A61M2025/09075A61M2025/09108A61M2025/09133A61M2025/09166C23F4/00
    • Embodiments hereof relate to a guidewire (110) formed from an elongated shaft, at least a portion of the shaft having an outer layer (104), a plurality of channels (114) formed through the outer layer, and an inner core (106). The outer layer (104) is formed from a material non susceptible to erosion by an erosion agent and the inner core is formed from a radiopaque material (118) susceptible to erosion by the erosion agent. When exposed to the erosion agent, core material adjacent to the channels is removed to form a pattern of integral radiopaque segments or markers with a plurality of voids therebetween. By controlling the location of channels (114) and the rate of erosion of the core material, the pattern of integral radiopaque segments and voids (116) allow for in situ measurement when viewed under fluoroscopy.
    • 本发明的实施方式涉及由细长轴形成的导丝(110),所述轴的至少一部分具有外层(104),穿过外层形成的多个通道(114)和内芯(106) 。 外层(104)由不易受侵蚀剂侵蚀的材料形成,并且内芯由易受侵蚀剂腐蚀的不透射线材料(118)形成。 当暴露于侵蚀剂时,去除与通道相邻的芯材料,以形成其间具有多个空隙的整体不透射线段或标记的图案。 通过控制通道(114)的位置和芯材的侵蚀速率,整体不透射线段和空隙(116)的图案允许在荧光透视下观察时的原位测量。
    • 9. 发明申请
    • MODULAR AORTIC ARCH PROSTHETIC ASSEMBLY AND METHOD OF USE THEREOF
    • WO2018106573A1
    • 2018-06-14
    • PCT/US2017/064439
    • 2017-12-04
    • MEDTRONIC VASCULAR INC.
    • PERKINS, KeithBROOKS, DennisSTIGER, Mark
    • A61F2/07
    • A prosthetic assembly configured for endovascular placement within an aortic arch and method of use thereof. The prosthetic assembly includes a proximal aortic stent-graft prosthesis configured to be positioned within a proximal portion of the aortic arch adjacent to the brachiocephalic artery, a distal aortic stent-graft prosthesis configured to be positioned within a distal portion of the aortic arch adjacent to the left subclavian artery, a first branch stent-graft prosthesis configured to be positioned within the brachiocephalic artery and a second branch stent-graft prosthesis configured to be positioned in one of the left common carotid and the left subclavian artery. When deployed, a proximal end of the first branch stent-graft prosthesis is disposed within a lumen of the proximal aortic stent-graft prosthesis to proximally displace the ostium of the brachiocephalic artery. When deployed, a proximal end of the distal aortic stent- graft prosthesis is disposed within the distal end of the proximal aortic stent-graft prosthesis to form an overlap between the proximal and distal aortic stent-graft prostheses. The overlap is relatively increased by the first branch stent-graft prosthesis proximally displacing the ostium of the brachiocephalic artery.