1
Koji Watanabe, Miyoshi Okamoto, Yuichi Mori, Yasuharu Noishiki: Artificial vascular graft. Toray, Wegner & Bretschneider, September 22, 1987: US04695280 (25 worldwide citation)

The present invention relates to an artificial vascular graft having ultra fine fibers smaller than 0.5 denier in fineness as part of the inner wall. The artificial vascular graft of this invention is very flexible and produces very low blood leakage. The ease of performing anastomoses is greatly im ...


2
Watanabe Koji, Okamoto Miyoshi, Mori Yuich, Noishiki Yasuharu: Artificial vascular graft.. Toray Industries, December 19, 1984: EP0128741-A1 (6 worldwide citation)

The present invention relates to an artificial vascular graft having ultra fine fibers smaller than 0.5 denier in fineness as part of the inner wall. The artificial vascular graft of this invention is very flexible and produces very low blood leakage. The ease of performing anastomoses is greatly im ...


3
Xiao Zhang, Elvie Escorrow Brown: Nanocrystalline cellulose materials and methods for their preparation. Washington State University, Pepper Hamilton, August 8, 2017: US09724213 (1 worldwide citation)

Disclosed herein are methods for producing nanocrystalline cellulose and oxidized nanocrystalline cellulose from biomass. Also disclosed are methods for forming materials, and the materials formed from a fibrin matrix that incorporates the nanocrystalline cellulose and/or the oxidized nanocrystallin ...


4
Matthew F Ogle, Jason C Isenburg: Vascular medical devices with sealing elements and procedures for the treatment of isolated vessel sections. Nectero Medical, Knobbe Martens Olson & Bear, February 13, 2018: US09889279

Devices for the isolation of a selected portion of a vessel are described. In some embodiments, the device has an introducer sheath and a sealing catheter that are movable relative to each other to create an isolated volume with adjustable size and location. The methods for the treatment of vascular ...


5
Bernhard Winkler, Martin Grapow, Friedrich Eckstein, Aldo Ferrari, Dimos Poulikakos, Simone Bottan, Maximilian Fischer, Tobias Lendenmann: Artificial vascular graft. UNIVERSIT√ĄTSSPITAL BASEL, Soroker Agmon Nordman, January 29, 2019: US10188499

The invention relates to an artificial vascular graft comprising a primary scaffold structure encompassing an inner space of the artificial vascular graft, said primary scaffold structure having an inner surface facing towards said inner space and an outer surface facing away from said inner space, ...


6
Flugelman Moshe Y, Preis Meir, Gluzman Zoya, Koren Belly, Weisz Anat, Cohen Tzafra: Artificial vascular grafts, and methods of producing and using same. M G V S, April 16, 2003: EP1301146-A2

The present invention provides an artificial vascular graft and methods of generating same. The artificial vascular graft includes a synthetic tubular element having a luminal surface being coated with a plurality of endothelial cells and/or smooth muscle cells being genetically transformed to expre ...


7
Shan hui Hsu, Kun Che Hung: Biocompatible and biodegradable elastomer. National Taiwan University, WPAT P C Intellectual Property Attorneys, Anthony King, November 7, 2017: US09808556

The present invention provides a biocompatible and biodegradable elastomer, comprising a hard segment and a soft segment. The hard segment is formed by reacting diisocyanate and a chain extender; and the soft segment is comprising a biodegradable oligomer diol, wherein the biodegradable oligomer dio ...


8
Shan hui Hsu, Kun Che Hung, Shenghong A Dai, Chun Yi Lu: Biocompatible and biodegradable elastomer. National Taiwan University, WPAT P C Intellectual Property Attorneys, Anthony King, September 5, 2017: US09750598

The present invention provides a biocompatible and biodegradable elastomer, comprising a hard segment and a soft segment. The hard segment is formed by reacting diisocyanate and a chain extender; and the soft segment is comprising a biodegradable oligomer diol, wherein the biodegradable oligomer dio ...


9
Huang Fangjiong, Xu Shangdong: Three-collateral bracket vascellum for arcus aortae. Huang Fangjiong, zhangre hua, April 2, 2008: CN200610152750

The present invention relates to aortic arch three collateral support blood vessels comprising an aorta support vascular that comprises an aorta ascenden section, an aortic arch section and an aorta section; the aorta support vascular also comprises three collateral artery support vasculars which ar ...


10
Feng Yakai, Guo Jintang, Meng Fanru, Xiao Ruofang: Nano fibre artificial vascular graft modifying internal layer and preparation method thereof. Tianjin University, Lu Yi, May 12, 2010: CN200910228840

The invention discloses a nano fibre artificial vascular graft modifying internal layer and a preparation method thereof. The method comprises the following steps: (1) dissolving gelatin in glacial acetic acid to prepare into solution; (2) taking the aqueous solution of the solution and crosslinking ...