Biomedical Engineering Reference
In-Depth Information
24. Vaz CM, van Tuijl S, Bouten CVC, Baaijens FPT (2005) Design of scaffolds for blood vessel
tissue engineering using a multi-layering electrospinning technique. Acta Biomater 1(5):575-
582
25. Mirensky TL, Fein CW, Nguyen GK, Hibino N, Sawh-Martinez RF, Yi T, McGillicuddy EA,
Villalona G, Shinoka T, Breuer CK (2009) Characterization of small-diameter electrospun
tissue-engineered arterial grafts. J Am Coll Surg 209(3):S30
26. Kang Y, Yao Y, Yin G, Huang Z, Liao X, Xu X, Zhao G (2009) A study on the in vitro
degradation properties of poly(l-lactic acid)/[beta]-tricalcium phosphate(PLLA/[beta]-TCP)
scaffold under dynamic loading. Med Eng Phys 31(5):589-594
27. Henry JA, Simonet M, Pandit A, Neuenschwander P (2007) Characterization of a slowly de-
grading biodegradable polyesterurethane for tissue engineering scaffolds. J Biomed Mater
Res, Part A 82A(3):669-679
28. Bonchek LI (1980) Prevention of endothelial damage during preparation of saphenous veins
for bypass grafting. J Thorac Cardiovasc Surg 79(6):911-915
29. Milleret V, Simonet M, Bittermann AG, Neuenschwander P, Hall H (2009) Cyto- and hemo-
compatibility of a biodegradable 3d-scaffold material designed for medical applications.
J Biomed Mater Res, Part B, Appl Biomater 91(1):109-121
30. Ayres CE, Jha BS, Meredith H, Bowman JR, Bowlin GL, Henderson SC, Simpson DG (2008)
Measuring fiber alignment in electrospun scaffolds: a user's guide to the 2d fast Fourier trans-
form approach. J Biomater Sci Polymer Ed 19(5):603-621
31. Ayres CE, Bowlin GL, Pizinger R, Taylor LT, Keen CA, Simpson DG (2007) Incremental
changes in anisotropy induce incremental changes in the material properties of electrospun
scaffolds. Acta Biomater 3(5):651-661
32. van der Merwe H, Reddy BD, Zilla P, Bezuidenhout D, Franz T (2008) A computational study
of knitted nitinol meshes for their prospective use as external vein reinforcement. J Biomech
41(6):1302-1309
33. Carew EO, Barber JE, Vesely I (2000) Role of preconditioning and recovery time in repeated
testing of aortic valve tissues: validation through quasilinear viscoelastic theory. Ann Biomed
Eng 28(9):1093-1100
34. Valdez-Jasso D, Bia D, Zócalo Y, Armentano R, Haider M, Olufsen M (2011) Linear and
nonlinear viscoelastic modeling of aorta and carotid pressure-area dynamics under
in vivo
and
ex vivo
conditions. Ann Biomed Eng 39(5):1438-1456
35. Yeoman MS, Reddy D, Bowles HC, Bezuidenhout D, Zilla P, Franz T (2010) A constitutive
model for the warp-weft coupled non-linear behavior of knitted biomedical textiles. Biomate-
rials 31(32):8484-8493
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