Biomedical Engineering Reference
In-Depth Information
127. Gurevich O, Vexler A, Marx G
et al
. Fibrin microbeads for isolating and growing
bone Marrow-Derived progenitor cells capable of forming bone tissue.
Tissue
Engineering
. 2002;8(4):661-72.
128. Karp JM, Sarraf F, Shoichet MS, Davies JE. Fibrin-filled scaffolds for bone-tissue
engineering: An in vivo study.
Journal of Biomedical Materials Research Part A
.
2004;71A(1):162-71.
129. Xu XL, Lou J, Tang T
et al
. Evaluation of different scaffolds for BMP-2 genetic
orthopedic tissue engineering.
Journal of Biomedical Materials Research Part B-
Applied Biomaterials
. 2005;75B:289-303.
130. Einhorn TA, Lane JM, Burstein AH, Kopman CR, Vigorita VJ. The healing of
segmental bone defects induced by demineralized bone matrix. A radiographic
and biomechanical study.
J Bone Joint Surg Am
. 1984 Feb;66(2):274-9.
131. Urist MR, Lietze A, Mizutani H
et al
. A bovine low molecular weight bone
morphogenetic protein (BMP) fraction.
Clin Orthop Relat Res
. 1982 Jan-Feb(162):
219-32.
132. Acarturk TO, Hollinger JO. Commercially available demineralized bone matrix
compositions to regenerate calvarial critical-sized bone defects.
Plast Reconstr
Surg
. 2006 Sep 15;118(4):862-73.
133. Sammarco VJ, Chang L. Modern issues in bone graft substitutes and advances in
bone tissue technology.
Foot Ankle Clin
. 2002 Mar;7(1):19-41.
134. Quarto R, Mastrogiacomo M, Cancedda R
et al
. Repair of large bone defects with
the use of autologous bone marrow stromal cells.
N Engl J Med
.
2001 Feb 1;
344(5):385-6.
135. Hou R, Chen FL, Yang YW
et al
. Comparative study between coral-mesenchymal
stem cells-rhBMP-2 composite and auto-bone-graft in rabbit critical-sized cranial
defect model.
Journal of Biomedical Materials Research Part A
. 2007;80A(1):
85-93.
136. Hofmann S, Hagenmuller H, Koch AM
et al
. Control of
in vitro
tissue-engineered
bone-like structures using human mesenchymal stem cells and porous silk scaffolds.
Biomaterials
. 2007;28:1152-62.
137. Cui L, Liu B, Liu G
et al
. Repair of cranial bone defects with adipose derived stem
cells and coral scaffold in a canine model.
Biomaterials
. 2007;28(36):5477-86.
138. Rousseau M, Pereira-Mouries L, Almeida MJ, Milet C, Lopez E. The water-soluble
matrix fraction from the nacre of pinctada maxima prdouces earlier mineralization
of MC3T3-E1 mouse preosteoblasts.
Comparative Biochemistry and Physiology
Part B: Biochemistry and Molecular Biology
. 2003;135(1):1-7.
139. Darder M, Aranda P, Ruiz-Hitzky. Bionanocomposites: A new concept of eco-
logical, bioinspired, and functional hybrid materials.
Advanced Materials
. 2007;
19(10):1309-19.
Search WWH ::
Custom Search