TRIMETHYLENE CARBONATE COPOLYMER

Glycolide L-lactide copolymers Lactide trimethylene carbonate copolymers Lactide tetramethylglycolide copolymers Lactide a-valerolactone copolymers Methacrylate N-vinyl-pyrrolidone copolymers Lactic acid ethylene oxide copolymers... 

Poly(glycolide-trimethylene carbonate) copolymer (Maxon )... 

Polylglycolide/trimethylene carbonate) copolymer Maxon CV Monofilament... 

Dfaz-Celorio, E., Franco, L., Rodrfguez-Galan, A., Puiggalf, 1., 2013. Study on the hydrolytic degradation of glycoUde/trimethylene carbonate copolymers having different microstruc-ture and composition. Pol)mier Degradation and Stability 98, 133—143. 

Han, Y.R., Fan, Z.Y., Lu, Z.Q., Zhang, Y., Li, S.M., 2012a. In vitro degradation of poly (L-lactide)-co-(trimethylene carbonate) copolymers and a composite with poly(L-lactide)-co-(glycohde) fibers as cardiovascular stent material. Macromolecular Materials and Engineering 297, 128—135. 

Noorsal, K., Mantle, M.D., Gladden, L.F., Cameron, R.E., 2005. Degradation and drug-release studies of a poly(glycohde-co-trimethylene carbonate) copolymer (Maxon). Journal of Applied Polymer Science 95, 475—486. 

Tyson, T., Finne-Wistrand, A., Albertsson, A.C., 2009. Degradable porous scaffolds from various L-lactide and trimethylene carbonate copolymers obtained by a simple and effective method. Biomacromolecules 10, 149—154. 

Zurita, R., Franco, L., Puiggali, J., Rodriguez-Galmi, A., 2007. The hydrolytic degradation of a segmented glycolide—trimethylene carbonate copolymer (Maxon " . Polymer Degradation and Stability 92, 975—985. 

Brinen, J.S., Rosati, I,., Chakel, J. and Lindley, P. (1993) The effect of polymer architecture on the SIMS spectra of glvcolide / trimethylene carbonate copolymers. Surface and Interface. Analysis, 20, 105.5-1060. Burnham,. kA. and Colton, R.J. (1993) Scanning Tunneling Microscopy and Specuoscopy Theory, Techniques and Applications. Force microscopy, ed. Bonnell D.A., New York, VCl I Publishers Inc. Chen, X., Shakesheff, KM., Davies, M.C., Heller, J., Roberts, C.J., Tendler, S.J.B, and Williams, P.M. (1995) The degradation of a thin polymer film studied by simultaneous in situ atomic force microscopy and surface plasmon resonance analysis. Journal of Physical Chemistry, 11, 2547. 

Bioresorbable copolymers between linear aliphatic polyesters in (1) and monomers other than Unear aUphatic polyesters like, poly(glycoUde-trimethylene carbonate) copolymer, poly(L-lactic acid-L-lysine) copolymer, tyrosine-based polyarylates or polyiminocarbonates or polycarbonates, poly(DJL-lactide-urethane), and poly(ester-amide). 

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