Biomedical Engineering Reference
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70. Bhardwaj N, Kundu SC (2010) Electrospinning: a fascinating fiber fabrication technique.
Biotechnol Adv 28:325-347. doi:
10.1016/j.biotechadv.2010.01.004
71. Erkizia G, Rainer A, de Juan-Pardo EM, Aldazabal J (2010) Computer simulation of scaffold
degradation. Paper presented at Bio-Coat 2010, Zaragoza, Spain, June 24, 2010
72. Stylianopoulos T, Bashur CA, Goldstein AS, Guelcher SA, Barocas VH (2008) Computational
predictions of the tensile properties of electrospun fibre meshes: effect of fibre diameter and
fibre orientation. J Mech Behav Biomed Mater 1:326-335. doi:
10.1016/j.jmbbm.2008.01.003
73. Hosseini SA, Tafreshi HV (2010) 3-D simulation of particle filtration in electrospun nanofi-
brous filters. Powder Technol 201:153-160. doi:
10.1016/j.powtec.2010.03.020
74. Kowalewski TA, Blonski S, Barral S (2005) Experiments and modelling of electrospinning
process. Bull Pol Acad Sci 53:385-394
75. Xu L, Wu Y, Nawaz Y (2011) Numerical study of magnetic electrospinning processes. Com-
put Math Appl 61:2116-2119. doi:
10.1016/j.camwa.2010.08.085
76. Genovese J, Spadaccio C, Rainer A, Covino E (2011) Electrospun nanocomposites and stem
cells in cardiac tissue engineering. In: Boccaccini AR, Harding SE (eds) Myocardial tissue
engineering. Studies in mechanobiology, tissue engineering and biomaterials, vol 6. Springer,
Berlin-Heidelberg
77. Sun W, Starly B, Nam J, Darling A (2005) Bio-CAD modeling and its applications
in computer-aided tissue engineering. Comput Aided Des 37:1097-1114. doi:
10.1016/
78. Wei X, Xia Z, Wong S-C, Baji A (2009) Modelling of mechanical properties of electrospun
nanofibre network. Int J Exp Comput Biomech 1:45-57. doi:
10.1504/ijecb.2009.022858
79. Cioffi M, Boschetti F, Raimondi MT, Dubini G (2006) Modeling evaluation of the
fluid-dynamic microenvironment in tissue-engineered constructs: a micro-CT based model.
Biotechnol Bioeng 93:500-510. doi:
10.1002/bit.20740
80. Sadir S, Öchsner A, Kadir MRA, Harun MN (2011) Simulation of direct perfusion through
3D cellular scaffolds with different porosity. Int Proc Chem Biol Environ Eng 5:123-126
81. Shin Y, Han S, Jeon JS, Yamamoto K, Zervantonakis IK, Sudo R, Kamm RD, Chung S (2012)
Microfluidic assay for simultaneous culture of multiple cell types on surfaces or within hydro-
gels. Nat Protoc 7:1247-1259. doi:
10.1038/nprot.2012.051
82. Lemon G, Howard D, Tomlinson MJ, Buttery LD, Rose FR, Waters SL, King JR (2009)
Mathematical
modelling
of
tissue-engineered
angiogenesis.
Math
Biosci
221:101-120.
83. Erkizia G, Rainer A, de Juan-Pardo EM, Aldazabal J (2010) Computer simulation of scaffold
degradation. J Phys Conf Ser 252:012004. doi:
10.1088/1742-6596/252/1/012004
84. Erkizia G, de Juan-Pardo E, Kim G-M, Aldazabal J (2011) Computer simulation of manufac-
ture, degradation and drug release of electrospun fibres. In: Fernandes PR, Bártolo PJ, Folgado
J et al (eds) Proc 2nd intern conf tissue eng 2011. IST Press, Lisbon, pp 83-88
85. Chen Y, Zhou S, Li Q (2011) Mathematical modeling of degradation for bulk-erosive poly-
mers: applications in tissue engineering scaffolds and drug delivery systems. Acta Biomater
7:1140-1149. doi:
10.1016/j.actbio.2010.09.038
86. Erkizia G, de Juan-Pardo EM, Kim G-M, Estella-Hermoso de Mendoza A, Garbayo E, Aldaza-
bal J (2011) Computer simulation of PLGA micro/nano particles degradation. Paper presented
at Euro BioMat 2011, Jena, Germany, April 13-14, 2011
87. Guy RH, Hadgraft J (1981) Calculations of drug release rates from cylinders. Int J Pharm
8:159-165. doi:
10.1016/0378-5173(81)90093-4
88. Guy RH, Hadgraft J, Kellaway IW, Taylor M (1982) Calculations of drug release rates from
particles. Int J Pharm 11:199-207. doi:
10.1016/0378-5173(82)90038-2
89. Erkizia G (2012) Computer simulation of drug delivery and degradation of scaffolds. PhD
dissertation. University of Navarra, Spain
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