Biomedical Engineering Reference
In-Depth Information
21. Kirby AJ (1972) Hydrolysis and formation of esters of organic acids. In: Bamford CH, Tip-
per CFH (eds) Comprehensive chemical kinetics, ester formation and hydrolysis and related
reactions. Elsevier, Amsterdam
22. Klyosov AA, Rabinowitch M (1980) Enzymatic conversion of cellulose to glucose: present
state of the art and potential. Plenum Press, New York
23. Krynauw H, Bruchmüller L, Bezuidenhout D, Zilla P, Franz T (2011) Constitutive modelling
of degradation induced mechanical changes in a polyester-urethane scaffold for soft tissue
regeneration. In: Fernandes PR et al (eds) Proceedings of II international conference on tissue
engineering. Lisbon
24. Levenberg S, Langer R (2004) Advances in tissue engineering. In: Schatten GP (ed) Current
topics in developemental biology. Elsevier, San Diego
25. Li SM, Garreau H, Vert M (1990) Structure-property relationships in the case of the degra-
dation of massive aliphatic poly(
α
-hydroxyacids) in aqueous media. Part 3: Influence of the
morphology of poly(L-lactic acid). J Mater Sci, Mater Med 1:198-206
26. Lunt J (1998) Large-scale production, properties and applications of polylatic acid polymers.
Polym Degrad Stab 59:145-152
27. Lyu SP, Sparer R, Untereker D (2005) Analytical solutions to mathematical models of the
surface and bulk erosion of solid polymers. J Polym Sci, Part B 43:383-397
28. Meek M, Jansen K, Steendam R, van Oeveren W, van Wachem P, van Luyn M (2004) In vitro
degradation and biocompatibility of poly(DL-lactide-
ε
-caprolactone) nerve guides. J Biomed
Mater Res, Part A 68:43-51
29. Metzmacher I, Radu F, Bause M, Knabner P, Friess W (2007) A model describing the effect
of enzymatic degradation on drug release from collagen minirods. Eur J Pharm Biopharm
67:349-360
30. Miller ND, Williams DF (1984) The in vivo and in vitro degradation of poly(glycolic acid)
suture material as a function of applied strain. Biomaterials 5:365-368
31. Morrison RT, Boyd RN (1992) Organic chemistry. Prentice Hall, New Jersey
32. Nair LS, Laurencin CT (2007) Biodegradable polymers as biomaterials. Prog Polym Sci
32:762-798
33. Nikolic MS, Poleti D, Djonlagic J (2003) Synthesis and characterization of biodegradable
poly(butylene succinate-co-butylene fumarate)s. Eur Polym J 39:2183-2192
34. Pitt GG, Gratzl MM, Kimmel GL, Surles J, Sohindler A (1982) Aliphatic polyesters II. The
degradation of poly(d,l-lactide), poly(e-caprolactone), and their copolymers in vivo. Biomate-
rials 2:215-220
35. Saha SK, Tsuji H (2009) Enhanced crystallization of poly(L lactide-co-
ε
caprolactone) in the
presence of water. J Appl Polym Sci 112:715-720
36. Seretoudi G, Bikiaris D, Panayiotou C (2002) Synthesis, characterization and biodegradability
of poly(ethylene succinate)/poly(e-caprolactone) block copolymers. Polymer 43:5405-5415
37. Shen-Guo W, Bo Q (1992) Polycaprolactone-poly(ethylene glycol) block copolymer, I: Syn-
thesis and degradability in vitro. Polym Adv Technol 4:363-368
38. Siparsky GL, Voorhees KJ, Miao F (1998) Hydrolysis of polylactic acid (PLA) and poly-
caprolactone (PCL) in aqueous acetonitrile solutions: autocatalysis. J Environ Polym Degrad
6:31-41
39. Soares JS, Rajagopal KR, Moore JE (2010) Deformation induced hydrolysis of a degradable
polymeric cylindrical annulus. Biomech Model Mechanobiol 9:177-186
40. Södergard A, Stolt M (2002) Properties of lactic acid based polymers and their correlation
with composition. Prog Polym Sci 27:1123-1163
41. Sykes P (1975) A guidebook to mechanism in organic chemistry. Longman, London
42. Tamela TL, Talja M (2003) Biodegradable urethral stents. BJU Int 92:843-850
43. Therin M, Christel P, Li SM, Garreau H, Vert M (1992) In vivo degradation of massive poly(a-
hydroxyacids): validation of in vitro findings. Biomaterials 13:594-600
44. Tokiwa Y, Suzuki T (1977) Hydrolysis of polyesters by lipase. Nature 270:76-78
45. Tsuji H, Ikada Y (1998) Properties and morphology of poly(L-lactide). II. Hydrolysis in alka-
line solution. J Polym Sci, Part A 36:59-66
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