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Original Article

Polymeric Materials: Current Status of Biocompatibility

Pages 79-98 | Published online: 11 Jul 2009

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Read on this site (5)

Issa Katime, Elena Díaz de Apodaca, Eduardo Mendizábal & Jorge E. Puig. (2000) ACRYLIC ACID/METHYL METHACRYLATE HYDROGELS. I. EFFECT OF COMPOSITION ON MECHANICAL AND THERMODYNAMIC PROPERTIES. Journal of Macromolecular Science, Part A 37:4, pages 307-321.
Read now
Luu Le Duc, Louis-Philippe Blanchard & Shadi Lal Malhotra. (1980) Scanning Electron Microscopic Study of Microporous Silicone Rubber Membranes for Possible Use in Oxygenators. Journal of Macromolecular Science: Part A - Chemistry 14:3, pages 389-408.
Read now
Robert G. Guidoin, John Awad, André Brassard, Dominique Domurado, François Lawny, Jacques Wetzer, Jean Noël Barbotin, Christian Calvot & Georges Broun. (1976) Blood Compatibility of Silicone Rubber Chemically Coated with Cross-Linked Albumin. Biomaterials, Medical Devices, and Artificial Organs 4:2, pages 205-224.
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R. G. Mason, B. A. Shinoda, W. C. Blackwelder & R. C. Elston. (1974) Blood Compatibility of Biomaterials: Further Evaluation of the Lindholm Test. Biomaterials, Medical Devices, and Artificial Organs 2:1, pages 21-30.
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Harvey Scott, Paul L. Kronick, Roger C. May, Robert H. Davis & Howard Balin. (1973) Construction and Properties of Hydrogel-Graft-Coated Copper-Bearing Intrauterine Devices for Rabbits. Biomaterials, Medical Devices, and Artificial Organs 1:4, pages 681-702.
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Articles from other publishers (39)

Alan J. Melvin, Alan S. Litsky & Natalia Juncosa-Melvin. (2017) FiberSecure suture compared to braided polyester suture. Journal of Biomedical Materials Research Part B: Applied Biomaterials 105:5, pages 1126-1130.
Crossref
Alan J. Melvin, Alan S. Litsky, Joel L. Mayerson, Keith Stringer & Natalia Juncosa-Melvin. (2012) Extended healing validation of an artificial tendon to connect the quadriceps muscle to the Tibia: 180-day study. Journal of Orthopaedic Research 30:7, pages 1112-1117.
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Alan Melvin, Alan Litsky, Joel Mayerson, Keith Stringer, David Melvin & Natalia Juncosa-Melvin. (2011) An artificial tendon to connect the quadriceps muscle to the Tibia. Journal of Orthopaedic Research 29:11, pages 1775-1782.
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Alan J. Melvin, David B. Melvin, William J. Kitzmiller, Kyle R. Fath, Paul W. Biddinger & Natalia Juncosa‐Melvin. (2011) A soft‐tissue coupling for wound closure. Journal of Biomedical Materials Research Part B: Applied Biomaterials 97B:1, pages 184-189.
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Alan Melvin, Alan Litsky, Joel Mayerson, David Witte, David Melvin & Natalia Juncosa-Melvin. (2010) An artificial tendon with durable muscle interface. Journal of Orthopaedic Research 28:2, pages 218-224.
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David B. Melvin, Brad Klosterman, Beth R. Gramza, Mark T. Byrne, Stephen L. Weisbrode, Alan S. Litsky & Stephen J. Clarson. (2003) A Durable Load Bearing Muscle to Prosthetic Coupling. ASAIO Journal 49:3, pages 314-319.
Crossref
L.J. Puig, J.C. Sánchez-Díaz, M. Villacampa, E. Mendizábal, J.E. Puig, A. Aguiar & I. Katime. (2001) Microstructured Polyacrylamide Hydrogels Prepared Via Inverse Microemulsion Polymerization. Journal of Colloid and Interface Science 235:2, pages 278-282.
Crossref
Hideki Sugimoto, Eiji Nakanishi & Sadao Hibi. (1998) pH response of coloured copolypeptide hydrogel containing tryptophan treated with trifluoroacetic acid. Polymer 39:23, pages 5739-5745.
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Hideki Sugimoto, Eiji Nakanishi, Katsuo Susaki & Sadao Hibi. (1998) pH Response of Colored Copolypeptide Hydrogel Containing Tryptophan Treated with Nitric Acid. Polymer Journal 30:8, pages 622-627.
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M.Dolores Blanco, Olga García, Rosa Olmo, JoséM. Teijón & Issa Katime. (1996) Release of 5-fluorouracil from poly(acrylamide-co-monopropyl itaconate) hydrogels. Journal of Chromatography B: Biomedical Sciences and Applications 680:1-2, pages 243-253.
Crossref
A. T. Royappa, S. T. Lopina & L. G. Cima. (2011) Synthesis and Characterization of Tetraethylene Glycolpoly(Ethylene Oxide) Hydrogels for Tissue Engineering Applications. MRS Proceedings 331.
Crossref
F. J. Liou, G. C. C. Niu & Y. J. Wang. (2003) Preparation and characterization of two HEMA/PVA copolymers: Poly[HEMA‐co‐(PVA‐AA)] and poly[HEMA‐co‐(PVA‐MA)]. Journal of Applied Polymer Science 46:11, pages 1967-1972.
Crossref
L. D. Uzhinova, N. A. Plat� & S. M. Krasovskaja. (1991) Interactions of biospecific sorbents with physiologically active substances. Journal of Materials Science: Materials in Medicine 2:4, pages 189-192.
Crossref
Eiji Nakanishi, Yoshihiro Shimizu, Kiyoyuki Ogura, Sadao Hibi & Toshio Hayashi. (1991) Effects of Side Chain Length on Membrane Properties of Copoly(N-hydroxyalkyl L-glutamine) Hydrogels. Polymer Journal 23:9, pages 1061-1068.
Crossref
Eiji Nakanishi, Eigo Sugiyama, Yoshihiro Shimizu, Sadao Hibi, Matsuo Maeda & Toshio Hayashi. (1991) Mechanical Properties of Copoly(N-hydroxyethyl L-glutamine-co-N-hydroxypentyl L-glutamine) Hydrogels. Polymer Journal 23:8, pages 983-990.
Crossref
C. T. Chiang, F. J. Liou, G. C. C. Niu, Y. A. Fu & Y. J. Wang. (2004) A poly‐HEMA based aqueous humor draining device. Journal of Applied Biomaterials 1:4, pages 321-327.
Crossref
V. Kalliyana Krishnan, A. Jayakrishnan & Joseph D. Francis. (1990) Radiation grafting of hydrophilic monomers on to plasticized poly(vinyl chloride) sheets. Journal of Materials Science: Materials in Medicine 1:4, pages 185-191.
Crossref
M. Mutlu & E. Piskin. (1990) Blood plasma proteins on polyurethane and alkylsiloxane plasma-treated polyurethane surfaces. Dynamic approach by stimulus-response technique. Medical & Biological Engineering & Computing 28:3, pages 232-236.
Crossref
M D Cole, G M O'Connor, F Raafai & H E Willshaw. (1989) A new synthetic material for the brow suspension procedure.. British Journal of Ophthalmology 73:1, pages 35-38.
Crossref
Mehmet Mutlu, Meral T. Ercan & Erhan Pişkin. (1989) Blood plasma proteins and blood cells on polyurethane and alkylsiloxane plasma treated polyurethane surfaces. A dynamic approach by stimulus-response technique. Part I: Adsorption data. Clinical Materials 4:1, pages 61-76.
Crossref
Malcolm B. Huglin & Mahmoud M.A.-M. Rehab. (1987) Mechanical and thermodynamic properties of butyl acrylate-N-vinylpyrrolidone hydrogels. Polymer 28:13, pages 2200-2206.
Crossref
Nicolai A. Platé & Lev I. Valuev. 1986. Biopolymers/Non-Exclusion HPLC. Biopolymers/Non-Exclusion HPLC 95 137 .
Allan S. Hoffman & Buddy D. Ratner. (1979) The radiation grafting of acrylamide to polymer substrates in the presence of cupric ion ? I. A preliminary study. Radiation Physics and Chemistry (1977) 14:3-6, pages 831-840.
Crossref
Adriaan Bantjes. (2007) Clotting Phenomena at the Blood‐Polymer Interface and Development of Blood Compatible Polymeric Surfaces. British Polymer Journal 10:4, pages 267-274.
Crossref
Paul Predecki, P. A. Russell & M. M. Newman. (2004) Blood‐compatible materials by fluid perfusion. Journal of Biomedical Materials Research 11:5, pages 767-786.
Crossref
Allan S. Hoffman, Thomas A. Horbett & Buddy D. Ratner. (1977) INTERACTIONS OF BLOOD AND BLOOD COMPONENTS AT HYDROGEL INTERFACES. Annals of the New York Academy of Sciences 283:1 The Behavior, pages 372-382.
Crossref
STEPHEN D. BRUCK. 1977. Macromolecular Chemistry?11. Macromolecular Chemistry?11 221 226 .
Stephen D. Bruck. (2004) Interactions of synthetic and natural surfaces with blood in the physiological environment. Journal of Biomedical Materials Research 11:1, pages 1-21.
Crossref
Helen E. Kambic, Raymond J. Kiraly & Yukihiko Nosé. (2004) A simple in vitro screening test for blood compatibility of materials . Journal of Biomedical Materials Research 10:4, pages 561-570.
Crossref
S. Bruck. 1976. Blood Vessels. Blood Vessels 117 130 .
Buddy D. Ratner, Thomas Horbett, Allan S. Hoffman & Stephen D. Hauschka. (2004) Cell adhesion to polymeric materials: Implications with respect to biocompatibility. Journal of Biomedical Materials Research 9:5, pages 407-422.
Crossref
Stephen D. Bruck. (1975) Biomedical applications of polymeric materials and their interactions with blood components: a critical review of current developments. Polymer 16:6, pages 409-417.
Crossref
Robert A. Abrahams & Samuel H. Ronel. (2004) Biocompatible implants for the sustained zero‐order release of narcotic antagonists. Journal of Biomedical Materials Research 9:3, pages 355-366.
Crossref
Bruce W. Morrissey & Robert R. Stromberg. 1975. Biomedical Applications of Polymers. Biomedical Applications of Polymers 57 68 .
Buddy D. Ratner & Allan S. Hoffman. 1975. Biomedical Applications of Polymers. Biomedical Applications of Polymers 159 171 .
K. Affeld, R. Mohnhaupt, A. Mohnhsupt, E. S. B�cherl & E. S. B�cherl. (1974) Entwicklung implantierbarer BlutpumpenDevelopment of implantable blood pumps. Langenbecks Archiv f�r Chirurgie 335:1-3, pages 13-40.
Crossref
Bruce W Morrissey & Robert R Stromberg. (1974) The conformation of adsorbed blood proteins by infrared bound fraction measurements. Journal of Colloid and Interface Science 46:1, pages 152-164.
Crossref
Stephen D. Bruck. (2004) Aspects of three types of hydrogels for biomedical applications. Journal of Biomedical Materials Research 7:5, pages 387-404.
Crossref
John L. Brash, Bruce K. Fritzinger & Stephen D. Bruck. (2004) Development of block copolyether‐urethane intra‐aortic balloons and other medical devices. Journal of Biomedical Materials Research 7:4, pages 313-334.
Crossref

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