TY - JOUR

T1 - Coating of Titanium Implant Materials with Thin Polymeric Films for Binding the Signaling Protein BMP2

AU - Lorenz, Corinna

AU - Hoffmann, Andrea

AU - Gross, Gerhard

AU - Windhagen, Henning

AU - Dellinger, Philip

AU - Möhwald, Kai

AU - Dempwolf, Wibke

AU - Menzel, Henning

PY - 2011/2/1

Y1 - 2011/2/1

N2 - A fast and simple approach for immobilization using copolymers as interlayers is reported. The synthesized copolymers form stable self-assembled layers on implant materials like, e.g., titanium in a simple coating/drying/washing sequence and have functional groups which can bind proteins from an aqueous solution. The copolymer films have been characterized via ellipsometry and contact angle measurements and were tested for biocompatibility. An immunoassay was used to determine the amount of BMP2 and demonstrated an approximately 10-fold increase as compared to previously used self-assembled monolayers.1 A BMP2-responsive cell line with luciferase detection was used to determine the biological activity of the bound signaling protein. Copolymers were prepared that attach easily to titanium/titanium oxide surfaces and bind proteins without further modification. The structure of the partially crosslinked copolymer allows binding of the protein not only at the surface but also within the film. The growth factor BMP2 can be bound to the copolymer and remains biologically active.

AB - A fast and simple approach for immobilization using copolymers as interlayers is reported. The synthesized copolymers form stable self-assembled layers on implant materials like, e.g., titanium in a simple coating/drying/washing sequence and have functional groups which can bind proteins from an aqueous solution. The copolymer films have been characterized via ellipsometry and contact angle measurements and were tested for biocompatibility. An immunoassay was used to determine the amount of BMP2 and demonstrated an approximately 10-fold increase as compared to previously used self-assembled monolayers.1 A BMP2-responsive cell line with luciferase detection was used to determine the biological activity of the bound signaling protein. Copolymers were prepared that attach easily to titanium/titanium oxide surfaces and bind proteins without further modification. The structure of the partially crosslinked copolymer allows binding of the protein not only at the surface but also within the film. The growth factor BMP2 can be bound to the copolymer and remains biologically active.

KW - Biological application of polymers

KW - Copolymerization

KW - Implant

KW - Modification

KW - Proteins

UR - http://www.scopus.com/inward/record.url?scp=79251543952&partnerID=8YFLogxK

U2 - 10.1002/mabi.201000342

DO - 10.1002/mabi.201000342

M3 - Article

C2 - 21080383

AN - SCOPUS:79251543952

VL - 11

SP - 234

EP - 244

JO - Macromolecular bioscience

JF - Macromolecular bioscience

SN - 1616-5187

IS - 2

ER -