Biomedical Engineering Reference
In-Depth Information
thecellsandredesignedbioactivescaffoldshasattemptedtoexpand
to atissue level ofhierarchy.
From this point of view, novel scaffold biomaterials, novel scaf-
folds fabrication methods, novel characterization methods, and a
translational clinicalprotocol must bedeveloped.
Appendix I: Published Textbook in the Area of
Regenerative Medicine and Tissue Engineering
(1) X. Peter and H. Jennifer,
Scaffolding in Tissue Engineering
(CRC
PrILlc, New York, 2005).
(2) E. Regine, E. Dieter, and P. Ralf,
Cell and Tissue Reaction
Engineering
(Springer Verlag, New York, 2008).
(3) A. Haverich and H. Graf,
Stem Cell Transplantation and Tissue
Engineering
(Springer Verlag, New York, 2002).
(4) O.P.BernhardandN.B.Sangeeta,
TissueEngineering
(Prentice
Hall, New Jersey, 2003).
(5) D. Shi,
Biomaterials and Tissue Engineering
(Springer Verlag,
New York, 2004).
(6) L. Qin,
Advanced Bioimaging Technologies in Assessment of the
Quality of Bone and Scaffold Materials
(Materials Research
Society, San Francisco, 2007).
(7)L.RuiandJ.S.Roman,
Biodegradable Systems in Tissue
Engineering and Regenerative Medicine
(CRC PrILlc, New York,
2004).
(8)G.Khang,M.S.Kim,andH.B.Lee,
A Manual for Bio-
materials/Scaffold Fabrication Technology
(World Scientific,
Singapore, 2007).
(9) C. Laurencin and L. Nair,
Nanotechnology and Tissue Engineer-
ing
(CRC PrILlc, New York, 2008).
(10) K. Lewandrowski and D. Wise,
Tissue Engineering and
Biodegradable Equivalents: Scientific and Clinical Applications
(Marcel Dekker, New York, 2001).
(11) Kumar and S. S. R. Challa,
Tissue, Cell and Organ Engineering
(John Wiley& Sons, New York, 2007).
(12) M.D.Michael,
IntroductiontoBiomedicalEngineering
(Prentice
Hall, New Jersey, 2010).
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