Biomedical Engineering Reference
In-Depth Information
62. Matsushita N, Terai H, Okada T, Nozaki K, Inoue H,
Miyamoto S, Takaoka K (2004) A new bone-inducing
biodegradable porous beta-tricalcium phosphate.
J Biomed Mater Res A 70:450-458.
63. Middleton JC, Tipton AJ (2000) Synthetic biodegrad-
able polymers as orthopedic devices. Biomaterials
21:2335-2346.
64. Mikos AG, Bao Y, Cima LG, Ingber DE, Vacanti
JP, Langer R (1993) Preparation of poly(glycolic
acid) bonded fi ber structures for cell attachment
and transplantation. J Biomed Mater Res 27:183-
189.
65. Mikos AG, McIntire LV, Anderson JM, Babensee JE
(1998) Host response to tissue engineered devices.
Adv Drug Deliv Rev 33:111-139.
66. Mikos AG, Sarakinos G, Leite SM, Vacanti JP, Langer
R (1993) Laminated three-dimensional biodegrad-
able foams for use in tissue engineering. Biomaterials
14:323-330.
67. Mikos AG, Thorsen AJ, Czerwonka LA, Bao Y, Langer
R, Winslow DN, Vacanti JP (1994) Preparation and
characterization of poly(L-lactic acid) foams.
Polymer 35:1068-1077.
68. Muggli DS, Burkoth AK, Keyser SA, Lee HR, Anseth
KS (1998) Reaction behavior of biodegradable, photo-
cross-linkable
78. Sachlos E, Czernuszka JT (2003) Making tissue engi-
neering scaffolds work. Review: the application of
solid freeform fabrication technology to the produc-
tion of tissue engineering scaffolds. Eur Cell Mater
5:29-39; discussion 39-40.
79. Sawhney AS, Pathak CP, Hubbell JA (1993) Bioerod-
ible hydrogels based on photopolymerized
poly(ethylene glycol)-co-poly(alpha-hydroxy acid)
diacrylate macromers. Macromolecules 26:581-587.
80. Schaefer D, Martin I, Shastri P, Padera RF, Langer R,
Freed LE, Vunjak-Novakovic G (2000) In vitro gen-
eration of osteochondral composites. Biomaterials
21:2599-2606.
81. Seal BL, Otero TC, Panitch A (2001) Polymeric
biomaterials for tissue and organ regeneration.
Materials Science and Engineering R-Reports 34:
147-230.
82. Sheridan MH, Shea LD, Peters MC, Mooney DJ (2000)
Bioabsorbable polymer scaffolds for tissue engineer-
ing capable of sustained growth factor delivery.
J Control Release 64:91-102.
83. Shin H, Jo S, Mikos AG (2003) Biomimetic materials
for tissue engineering. Biomaterials 24:4353-4364.
84. Shive MS, Anderson JM (1997) Biodegradation and
biocompatibility of PLA and PLGA microspheres.
Adv Drug Deliv Rev 28:5-24.
85. Simon JL, Roy TD, Parsons JR, Rekow ED, Thompson
VP, Kemnitzer J, Ricci JL (2003) Engineered cellular
response to scaffold architecture in a rabbit trephine
defect. J Biomed Mater Res A 66:275-282.
86. Sims CD, Butler PE, Casanova R, Lee BT, Randolph
MA, Lee WP, Vacanti CA, Yaremchuk MJ (1996)
Injectable cartilage using polyethylene oxide polymer
substrates. Plast Reconstr Surg 98:843-850.
87. Taboas JM, Maddox RD, Krebsbach PH, Hollister
SJ (2003) Indirect solid free form fabrication of
local and global porous, biomimetic and composite
3D polymer-ceramic scaffolds. Biomaterials 24:
181-194.
88. Tangpasuthadol V, Pendharkar SM, Kohn J (2000)
Hydrolytic degradation of tyrosine-derived polycar-
bonates, a class of new biomaterials. Part I: Study of
model compounds. Biomaterials 21:2371-2378.
89. Thomson RC, Wake MC, Yaszemski MJ, Mikos AG
(1995) Biodegradable polymer scaffolds to regenerate
organs. Biopolymers II 122:245-274.
90. Thomson RC, Yaszemski MJ, Powers JM, Mikos AG
(1995) Fabrication of biodegradable polymer scaf-
folds to engineer trabecular bone. J Biomater Sci
Polym Ed 7:23-38.
91. Uhrich KE, Gupta A, Thomas TT, Laurencin CT,
Langer R (1995) Synthesis and characterization of
degradable poly(anhydride-co-imides). Macromole-
cules 28:2184-2193.
92. Vehof JW, Fisher JP, Dean D, van der Waerden JP,
Spauwen PH, Mikos AG, Jansen JA (2002) Bone for-
mation in transforming growth factor beta-1-coated
porous poly(propylene fumarate) scaffolds. J Biomed
Mater Res 60:241-251.
93. Wake MC, Gerecht PD, Lu L, Mikos AG (1998) Effects
of biodegradable polymer particles on rat marrow-
derived stromal osteoblasts in vitro. Biomaterials
19:1255-1268.
94. Whang K, Tsai DC, Nam EK, Aitken M, Sprague SM,
Patel PK, Healy KE (1998) Ectopic bone formation
polyanhydrides.
Macromolecules
31:4120-4125.
69. Nam YS, Park TG (1999) Biodegradable polymeric
microcellular foams by modifi ed thermally induced
phase
separation
method.
Biomaterials
20:
1783-1790.
70. Nam YS, Park TG (1999) Porous biodegradable poly-
meric scaffolds prepared by thermally induced phase
separation. J Biomed Mater Res 47:8-17.
71. Nam YS, Yoon JJ, Park TG (2000) A novel fabrication
method of macroporous biodegradable polymer
scaffolds using gas foaming salt as a porogen addi-
tive. J Biomed Mater Res 53:1-7.
72. Novikova LN, Novikov LN, Kellerth JO (2003) Bio-
polymers and biodegradable smart implants for
tissue regeneration after spinal cord injury. Curr
Opin Neurol 16:711-715.
73. Oh SH, Kang SG, Kim ES, Cho SH, Lee JH (2003)
Fabrication and characterization of hydrophilic
poly(lactic-co-glycolic acid)/poly(vinyl alcohol)
blend cell scaffolds by melt-molding particulate-
leaching method. Biomaterials 24:4011-4021.
74. Park YJ, Lee JY, Chang YS, Jeong JM, Chung JK, Lee
MC, Park KB, Lee SJ (2002) Radioisotope carrying
polyethylene oxide-polycaprolactone copolymer
micelles for targetable bone imaging. Biomaterials
23:873-879.
75. Qiu LY, Zhu KJ (2000) Novel biodegradable polyphos-
phazenes containing glycine ethyl ester and benzyl
ester of amino acethydroxamic acid as cosubstitu-
ents: syntheses, characterization, and degradation
properties. J Appl Polym Sci 77:2987-2995.
76. Rohl L, Larsen E, Linde F, Odgaard A, Jorgensen J
(1991) Tensile and compressive properties of cancel-
lous bone. J Biomech 24:1143-1149.
77. Rohner D, Hutmacher DW, Cheng TK, Oberholzer M,
Hammer B (2003) In vivo effi cacy of bone-marrow-
coated polycaprolactone scaffolds for the reconstruc-
tion of orbital defects in the pig. J Biomed Mater Res
B Appl Biomater 66:574-580.
