1
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Howmedica, Peter C Richardson, Lawrence C Akers, Raymond W Augustin, May 9, 1995: US05414049 (165 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flus ...


2
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Howmedica Osteonics, Lerner David Littenberg Krumholz & Mentlik, November 16, 2004: US06818020 (96 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed contained by either a vacuum, an oxygen absorbent or by flus ...


3
Yoshio Yoshikawa, Takanari Nawata, Akira Amemiya, Toshio Komatsu, Yoshiaki Inoue, Megumu Yuyama: Oxygen absorbent. Mitsubishi Gas Chemical Company, Frishauf Holtz Goodman & Woodward, March 11, 1980: US04192773 (96 worldwide citation)

An oxygen absorbent comprising (a) metal halide-coated metal powder having at least one metal halide coated on the surface of at least one metal powder, the amount of metal halide coated being in the range of from about 0.001 part to about 10 parts by weight per 100 parts by weight of the metal powd ...


4
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Howmedica, Peter C Richardson, Lawrence C Akens, Raymond W Augustin, September 12, 1995: US05449745 (94 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flus ...


5
Shinichi Yamada, Isamu Sakuma, Yoshio Himeshima, Takao Aoki, Tadahiro Uemura, Akira Shirakura: Oxygen scavenger. Toray, Austin R Miller, September 1, 1992: US05143763 (93 worldwide citation)

An oxygen scavenger comprises an oxygen absorbent composition and an oxygen permeable film covering the oxygen absorbent composition and including an asymmetric porous membrane whose outer surface portion in the thickness direction of the asymmetric porous membrane is formed as a dense skin layer. S ...


6
Deh Chuan Sun, Casper F Stark: Non oxidizing polymeric medical implant. Howmedica, Peter C Richardson, Lawrence C Akers, Raymond W Augustin, March 17, 1998: US05728748 (92 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flus ...


7
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Howmedica, Peter C Richardson, Lawrence C Akers, Raymond W Augustin, July 22, 1997: US05650485 (92 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flus ...


8
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Howmedica, Peter C Richardson, Lawrence C Akers, Raymond W Augustin, August 6, 1996: US05543471 (83 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flus ...


9
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Stryker Technologies Corporation, Lerner David Littenberg Krumholz & Mentlik, January 16, 2001: US06174934 (80 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the step of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed container by either a vacuum, an oxygen absorbent or by flush ...


10
Deh Chuan Sun, Casper F Stark: Non-oxidizing polymeric medical implant. Stryker Technologies Corporation, Lerner David Littenberg Krumholz & Mentlik, December 16, 2003: US06664308 (67 worldwide citation)

A medical implant made of polymeric material having an increased oxidation resistance is formed by a method including the steps of placing a resin powder in a sealed container. A substantial portion of the oxygen is removed from the sealed contained by either a vacuum, an oxygen absorbent or by flus ...