Bis 2-Hydroxy Ethyl Terephthalate-based biodegradable poly(mannitol-citric-sebacate) has been synthesized by catalyst-free melt condensation process using two different diacids and Bis 2-Hydroxy Ethyl Terephthalate with D-mannitol as monomers having a potential to be me... View more
U. Edlund, and A. C. Albertsson, “Degradable polymer microspheres for controlled drug delivery,” in Degradable Aliphatic Polyesters, vol. 157, A.C.
Albertsson, Ed. Berlin: Springer, pp. 67-112, 2002.
Shakesheff, “Polymeric systems for controlled drug release,” Chem. Rev., vol. 99, pp. 3181-3198, Nov., 1999.
A. K., Azab, J., Kleinstern, V., Doviner, B., Orkin, M., Srebnik, A. Nissan, and A., Rubinstein, “Prevention of tumor recurrence and distant metastasis formation in a breast cancer mouse model by biodegradable implant of 131 Inorcholesterol,” J. Control. Release, vol. 123, pp.
116-122, Aug., 2007.
Zheng, B. F. Yang, and D. L. Dong, “The application of poly (glycerol-sebacate) as biodegradable drug carrier,” Biomaterials, vol. 30, pp. 5209-5214, June, 2009.
P. A. Gunatillake, and R. Adhikari, “Biodegradable synthetic polymers for tissue engineering,” Eur. Cells Mater., vol. 5, pp. 1-16, May, 2003.
J. Heller, S. Y. Ng, and B. K. Fritzinger, “Use of poly (ortho esters) for the controlled release of 5-fluorouracyl and a LHRH analogue,” J. Control. Release, vol. 6, pp.
217-224, Dec., 1987.
U. Edlund, and A. C. Albertsson, “Polyesters based on diacid monomers,” Adv. Drug Del. Rev., vol. 55, pp. 585- 609, April, 2003.