K. Xiao, K.W. Dalgarno, D.J. Wood, R.D. Goodridge, and C. Ohtsuki,
Indirect selective laser sintering of apatite-wollostonie glass-ceramic,
Journal of Engineering in Medicine, Vol. 222, 2008, pp.1107-1114.
 P. Vincenzini, Mater. Sci. Monogr, Vol. 17, 1983, pp. 3.
 L.A. Cyster, D.M. Grant, The influence of dispersant concentration on the
pore morphology of hydroxyapatite ceramics for bone tissue engineering,
Biomaterials, Vol. 26, No. 7, 2005, pp.697-702.
 A. Almirall, G. Larrecq, Fabrication of low temperature macroporous
hydroxyapatite scaffolds by forming and hydrolysis of a TCP paste,
Biomaterials, Vol. 25, No. 17, 2004, pp.3671-3680.
 J.C. Lorrison, K.W. Dalgarno, D.J. Wood, Processing of an
apatite-mullite galss-ceramic and an hydroxyapatite/ phosphate glass
composite by selective laser sintering, Journal of Materials Science:
Materials in Medicine, Vol. 16, 2005, pp.775-781.
 S.F. Yang, K.E. Leong, Z.H. Du, and C.K. Chua, The design of scaffolds
for use in tissue engineering, Part ╬Ö: Traditional factors, Tissue
Engineering, Vol.7, 2001, pp.679-689.
 F.H. Liu, Y.K. Shen, Y.S. Liao, Selective laser gelation of ceramic-matrix
composites, Composite Part B: Engineering, Vol. 42, 2011, pp.57-61.
 F.H. Liu and Y.S. Liao, Fabrication inner complex ceramic part by
selective laser gelling, Journal of the European Ceramic Society, Vol. 30,
2010, pp. 3283-3289.
 M.J. Gauthier, E. Bouler, E. Arguado, P. Pilet, and G. Daculsi,
Macroporous biphasic calcium phosphate ceramic: influence of
macropore diameter and macroporosity percentage on bone ingrowth,
Biomaterials, Vol. 19, 1998, pp. 133-139.