Biomedical Engineering Reference
In-Depth Information
biodegradable polymers.
Biomaterials
19: 1405-1412.
James, K., and Kohn, J. (1996). New
biomaterials for tissue engineering.
Mater. Res. Soc. Bull.
21: 22-26.
Jo, S., Shin, H., Shung, A.K., Fisher, J.P.,
and Mikos, A.G. (2001). Synthesis and
characterization of oligo(poly(ethylene
glycol) fumarate) macromer.
Macromolecules
34: 2839-2844.
Kamihira, M., Yamada, K., Hamamoto, R.,
and Iijima, S. (1997). Spheroid
formation of hepatocytes using
synthetic polymer.
Ann. N.Y. Acad. Sci.
831: 398-407.
Kasper, F.K., and Mikos, A.G. (2003).
Biomaterials and gene therapy. in
Molecular and Cellular Foundations of
Biomaterials
, N. Peppas and M.V.
Sefton (eds.). Academic Press, New
York, pp. 131-163.
Kim, B.-S., and Mooney, D.J. (1998).
Engineering smooth muscle tissue with
a predefined structure.
J. Biomed.
Mater. Res.
41: 322-332.
Kim, S.S., Utsunomiya, H., Koski, J.A., Wu,
B.M., Cima, M.J., Sohn, J., Mukai, K.,
Griffith, L.G., and Vacanti, J.P. (1998).
Survival and function of hepatocytes on
a novel three-dimensional synthetic
biodegradable polymer scaffold with an
intrinsic network of channels.
Ann. Surg.
228: 8-13.
Langer, R., and Vacanti, J.P. (1993). Tissue
engineering.
Science
260: 920-926.
Lian, J.B., and Stein, G.S. (1992).
Concepts of osteoblast growth and
differentiation: basis for modulation of
bone cell development and tissue
formation.
Crit. Rev. Oral. Biol. Med.
3: 269-305.
Lo, H., Ponticiello, M.S., and Leong, K.W.
(1995). Fabrication of controlled
release biodegradable foams by phase
separation.
Tissue Eng.
1: 15-28.
Lu, L., Carcia, C.A., and Mikos, A.G.
(1998). Retinal pigment epithelium cell
culture on thin biodegradable poly(
DL
-
lactic-
co
-glycolic acid) films.
J.
Biomater. Sci. Polymer Ed.
9: 1187-
1205.
Lu, L., Stamatas, G.N., and Mikos, A.G.
(2000). Controlled release of
transforming growth factor-b1 from
biodegradable polymers.
J. Biomed.
Mater. Res.
50: 440-451.
Mikos, A.G., Bao, Y., Cima, L.G., Ingber,
D.E., Vacanti, J.P., and Langer, R.
(1993a). Preparation of poly(glycolic
acid) bonded fiber structures for
cell attachment and transplantation.
J. Biomed. Mater. Res.
27:
183-189.
Mikos, A.G., Sarakinos, G., Leite, S. M.,
Vacanti, J.P., and Langer, R. (1993b).
Laminated three-dimensional
biodegradable foams for use in tissue
engineering.
Biomaterials
14: 323-330.
Mikos, A.G., Sarakinos, G., Lyman, M.D.,
Ingber, D.E., Vacanti, J.P., and Langer,
R. (1993c). Prevascularization of porous
biodegradable polymers.
Biotechnol.
Bioeng.
42: 716-723.
Mikos, A.G., Lyman, M.D., Freed, L.E.,
and Langer, R. (1994a). Wetting of
poly(
L
-lactic acid) and poly(
DL
-lactic-
co
-glycolic acid) foams for tissue
culture.
Biomaterials
15: 55-58.
Mikos, A.G., Thorsen, A.J., Czerwonka, L.
A., Bao, Y., Langer, R., Winslow, D.N.,
and Vacanti, J.P. (1994b). Preparation
and characterization of poly(
L
-lactic
acid) foams.
Polymer
35: 1068-1077.
Miller, N.D., and Williams, D.F. (1984).
The
in vivo
and
in vitro
degradation of
poly(glycolic acid) suture material as
a function of applied strain.
Biomaterials
5: 365-368.
Moghe, P.V. (1996). Soft-tissue analogue
design and tissue engineering of liver.
Mater. Res. Soc. Bull.
21: 52-54.
Mooney, D., Hansen, L., Vacanti, J.,
Langer, R., Farmer, S., and Ingber, D.
(1992). Switching from differentiation
to growth in hepatocytes: control by
extracellular matrix.
J. Cell. Physiol.
151: 497-505.
Mooney, D.J., Mazzoni, C.L., Organ, G.M.,
Puelacher, W.C., Vacanti, J.P., and
Langer, R. (1994a). Stabilizing fiber-
based cell delivery devices by physically
bonding adjacent fibers. in
Biomaterials
for Drug and Cell Delivery
, A.G. Mikos,
R.M. Murphy, H. Bernstein, and N.A.
Peppas (eds.). Vol. 331. Material
Research Society, Pittsburgh,
pp. 47-52.
Mooney, D.J., Organ, G., Vacanti, J.P., and
Langer, R. (1994b). Design and
fabrication of biodegradable polymer
devices to engineer tubular tissues.
Cell
Transplant.
3: 203-210.
Mooney, D.J., Breuer, C., McNamara, K.,
Vacanti, J.P., and Langer, R. (1995a).
Fabricating tubular devices from
polymers of lactic and glycolic acid
for tissue engineering.
Tissue Eng.
1:107-118.
Mooney, D.J., Park, S., Kaufmann, P.M.,
Sano, K., McNamara, K., Vacanti, J.P.,
and Langer, R. (1995b). Biodegradable
sponges for hepatocyte transplantation.
J. Biomed. Mater. Res.
29: 959-965.
Mooney, D.J., Baldwin, D.F., Suh, N.P.,
Vacanti, J.P., and Langer, R. (1996a).
Novel approach to fabricate porous
sponges of poly(
D
,
L
-lactic-
co
-glycolic
acid) without the use of organic
solvents.
Biomaterials
17: 1417-1422.
Mooney, D.J., Mazzoni, C.L., Breuer, C.,
McNamara, K., Hern, D., Vacanti, J.P.,
and Langer, R. (1996b). Stabilized
polyglycolic acid fibre-based tubes for
tissue engineering.
Biomaterials
17:
115-124.
Park, A., and Cima, L.G. (1996).
In vitro
cell response to differences in poly-
L
-
lactide crystallinity.
J. Biomed. Mater.
Res.
31: 117-130.
Park, A., Wu, B., and Griffith, L.G. (1998).
Integration of surface modification and
3D fabrication techniques to prepare
patterned poly(
L
-lactide) substrates
allowing regionally selective cell
adhesion.
J. Biomater. Sci. Polymer Ed.
9: 89-110.
Payne, R.G., McGonigle, J.S., Yaszemski,
M.J., Yasko, A.W., and Mikos, A.G.
(2002a). Development of an injectable,
in situ
crosslinkable, degradable
polymeric carrier for osteogenic cell
populations. Part 2. Viability of
encapsulated marrow stromal
osteoblasts cultured on crosslinking
poly(propylene fumarate).
Biomaterials
23: 4373-4380.
Payne, R.G., McGonigle, J.S., Yaszemski,
M.J., Yasko, A.W., and Mikos, A.G.
(2002b). Development of an injectable,
in situ
crosslinkable, degradable
polymeric carrier for osteogenic cell
populations. Part 3. Proliferation and
differentiation of encapsulated marrow
stromal osteoblasts cultured on
crosslinking poly(propylene fumarate).
Biomaterials
23: 4381-4387.
Peter, S.J., Miller, M.J., Yaszemski, M.J.,
and Mikos, A.G. (1997a).
Poly(propylene fumarate). in
Handbook
of Biodegradable Polymers
, A.J. Domb,
J. Kost and D.M. Wiseman (eds.).
Harwood Academic Publishers,
Amsterdam, pp. 87-97.
Peter, S.J., Nolley, J.A., Widmer, M.S.,
Merwin, J.E., Yaszemski, M.J., Yasko,
A.W., Engel, P.S., and Mikos, A.G.
(1997b).
In vitro
degradation of
a poly(propylene fumarate)/b-
tricalcium phosphate composite
orthopaedic scaffold.
Tissue Eng.
3:
207-215.
Peter, S.J., Liang, C.R., Kim, D.J., Widmer,
M.S., and Mikos, A.G. (1998a).
Osteoblastic phenotype of rat marrow
stromal cells cultured in the presence of
dexamethasone, b-glycerolphosphate,
and
L
-ascorbic acid.
J. Cell. Biochem.
71: 55-62.
Peter, S.J., Miller, S.T., Zhu, G., Yasko, A.
W., and Mikos, A.G. (1998b).
In vivo
