Biomedical Engineering Reference
In-Depth Information
degradation of a poly(propylene
fumarate)/ b-tricalcium phosphate
injectable composite scaffold.
J. Biomed. Mater. Res.
41: 1-7.
Peter, S.J., Kim, P., Yasko, A.W., Yaszemski,
M.J., and Mikos, A.G. (1999).
Crosslinking characteristics of an
injectable poly(propylene fumarate)/
b-tricalcium phosphate paste and
mechanical properties of the cross-
linked composite for use as
a biodegradable bone cement.
J. Biomed. Mater. Res.
44: 314-321.
Renier, M.L., and Kohn, D.H. (1997).
Development and characterization of
a biodegradable polyphosphate.
J. Biomed. Mater. Res.
34: 95-104.
Ripamonti, U., and Duneas, N. (1996).
Tissue engineering of bone by
osteoinductive biomaterials.
Mater. Res.
Soc. Bull.
21: 36-39.
Ruardy, T.G., Schakenraad, J.M., van der
Mei, H.C., and Busscher, H.J. (1995).
Adhesion and spreading of human skin
fibroblasts on physicochemically
characterized gradient surfaces.
J. Biomed. Mater. Res.
29: 1415-1423.
Shakesheff, K.M., Cannizzaro, S.M., and
Langer, R. (1998). Creating biomimetic
microenvironments with synthetic
polymer-peptide hybrid molecules.
J.
Biomater. Sci. Polymer Ed.
9: 507-518.
Shin, H., Jo, S., and Mikos, A.G. (2002).
Modulation of marrow stromal
osteoblast adhesion on biomimetic
oligo(poly(ethylene glycol) fumarate)
hydrogels modified with Arg-Gly-Asp
peptides and a poly(ethylene glycol)
spacer.
J. Biomed. Mater. Res.
61:
169-179.
Shin, H., Jo, S., and Mikos, A.G. (2003a).
Review: biomimetic materials for tissue
engineering.
Biomaterials
24: 4353-
4364.
Shin, H., Ruhe, P.Q., and Mikos, A.G.
(2003b).
In vivo
bone and soft tissue
response to injectable, biodegradable
oligo(poly(ethylene glycol) fumarate)
hydrogels.
Biomaterials
24: 3201-3211.
Singhvi, R., Kumar, A., Lopez, G.,
Stephanopoulos, G.N., Wang, D.I.C.,
Whitesides, G.M., and Ingber, D.E.
(1994). Engineering cell shape and
function.
Science
264: 696-698.
Suggs, L.J., and Mikos, A.G. (1996).
Synthetic biodegradable polymers for
medical applications. in
Physical
Properties of Polymers Handbook
, J.E.
Mark (ed.). American Institute of
Physics, Woodbury, NY, pp. 615-624.
Suggs, L.J., Payne, R.G., Yaszemski, M.J.,
Alemany, L.B., and Mikos, A.G. (1997).
Synthesis and characterization of
a block copolymer consisting of
poly(propylene fumarate) and
poly(ethylene glycol).
Macromolecules
30: 4318-4323.
Suggs, L.J., Kao, E.Y., Palombo, L.L.,
Krishnan, R.S., Widmer, M.S., and
Mikos, A.G. (1998a). Preparation and
characterization of poly(propylene
fumarate-co-ethylene glycol) hydrogels.
J. Biomater. Sci. Polymer Ed.
9:
653-666.
Suggs, L.J., Krishnan, R.S., Garcia, C.A.,
Peter, S.J., Anderson, J.M., and Mikos,
A.G. (1998b).
In vitro
and
in vivo
degradation of poly(propylene
fumarate-
co
-ethylene glycol) hydrogels.
42: 312-320.
Suggs, L.J., Shive, M.S., Garcia, C.A.,
Anderson, J.M., and Mikos, A.G.
(1999).
In vitro
cytotoxicity and
in vivo
biocompatibility of poly(propylene
fumarate-
co
-ethylene glycol) hydrogels.
J. Biomed. Mater. Res.
46: 22-32.
Temenoff, J.S., and Mikos, A.G. (2000).
Formation of highly porous
biodegradable scaffolds for tissue
engineering.
Electr. J. Biotechnol.
3:
http://www.ejb.org/content/vol3/
issue2/full/5/index.html
.
Temenoff, J.S., Steinbis, E.S., and Mikos,
A.G. (2003). Effect of drying history on
swelling properties and cell attachment
to oligo(poly(ethylene glycol) fumarate)
hydrogels for guided tissue regeneration
applications.
J. Biomater. Sci. Polymer
Ed.
14: 989-1004.
Thomson, R.C., Yaszemski, M.J., Powers,
J.M., and Mikos, A.G. (1995).
Fabrication of biodegradable polymer
scaffolds to engineer trabecular bone.
J. Biomater. Sci. Polymer Ed.
7: 23-28.
Thomson, R.C., Yaszemski, M.J., Powers,
J.M., and Mikos, A.G. (1998).
Hydroxyapatite fiber reinforced
poly(a-hydroxy ester) foams for bone
regeneration.
Biomaterials
19:
1935-1943.
Thomson, R.C., Mikos, A.G., Beahm, E.,
Lemon, J.C., Satterfield, W.C.,
Aufdemorte, T.B., and Miller, M.J.
(1999). Guided tissue fabrication from
periosteum using preformed
biodegradable polymer scaffolds.
Biomaterials
20: 2007-2018.
Timmer, M.D., Jo, S., Wang, C., Ambrose,
C.G., and Mikos, A.G. (2002).
Characterization of the cross-linked
structure of fumarate-based degradable
polymer networks.
Macromolecules
35:
4373-4379.
Timmer, M.D., Ambrose, C.G., and
Mikos, A.G. (2003). Evaluation of
thermal- and photo-crosslinked
biodegradable poly(propylene
fumarate)-based networks.
J. Biomed.
Mater. Res.
66A: 811-818.
Tjia, J.S., and Moghe, P.V. (1998). Analysis
of 3-D microstructure of porous
poly(lactide-glycolide) matrices using
confocal microscopy.
J. Biomed. Mater.
Res.
43: 291-299.
Vacanti, C.A., Langer, R., Schloo, B., and
Vacanti, J.P. (1991). Synthetic polymers
seeded with chondrocytes provide
a template for new cartilage formation.
Plast. Reconstr. Surg.
88: 753-759.
Vunjak-Novakovic, G., Obradovic, B.,
Martin, I., Bursac, P.M., Langer, R., and
Freed, L.E. (1998). Dynamic cell
seeding of polymer scaffolds for
cartilage tissue engineering.
Biotechnol.
Prog.
14: 193-202.
Wake, M.C., Patrick, C.W., Jr., and Mikos,
A.G. (1994). Pore morphology effects
on the fibrovascular tissue growth in
porous polymer substrates.
Cell
Transplant.
3: 339-343.
Wake, M.C., Gupta, P.K., and Mikos, A.G.
(1996). Fabrication of pliable
biodegradable polymer foams to
engineer soft tissues.
Cell Transplant.
5:
465-473.
Wake, M.C., Gerecht, P.D., Lu, L., and
Mikos, A.G. (1998). Effects of
biodegradable polymer particles on
rat marrow derived stromal
osteoblasts in vitro.
Biomaterials
19:
1255-1268.
Wald, H.L., Sarakinos, G., Lyman, M.D.,
Mikos, A.G., Vacanti, J.P., and Langer,
R. (1993). Cell seeding in porous
transplantation devices.
Biomaterials
14: 270-278.
Whang, K., Thomas, C.H., Healy, K.E., and
Nuber, G. (1995). A novel method to
fabricate bioabsorbable scaffolds.
Polymer
36: 837-842.
Widmer, M.S., Gupta, P.K., Lu, L.,
Meszlenyi, R.K., Evans, G.R.D., Brandt,
K., Savel, T., Gurlek, A., Patrick, C.W.,
Jr., and Mikos, A.G. (1998).
Manufacture of porous biodegradable
polymer conduits by an extrusion
process for guided tissue regeneration.
Biomaterials
19: 1945-1955.
Wintermantel, E., Mayer, J., Blum, J.,
Eckert, K.-L., Luscher, P., and Mathey,
M. (1996). Tissue engineering scaffolds
using superstructures.
Biomaterials
17:
83-91.
Wu, B.M., Borland, S.W., Giordano, R.A.,
Cima, L.G., Sachs, E.M., and Cima, M.
J. (1996). Solid free-from fabrication of
drug delivery devices.
J. Controlled
Release
40: 77-87.
