Biomedical Engineering Reference
In-Depth Information
[HEN 71] H
ENCH
L.L., S
PLINTER
R.J., A
LLEN
W.C.,
et al.
, “Bonding
mechanisms at the interface of ceramic prosthetic materials”,
Journal of
Biomedical Materials Research Symposium,
vol. 334, pp. 117-41, 1971.
[KRE 12] K
REJA
L., L
IEDERT
A., S
CHLENKER
H.,
et al.
, “Effects of
mechanical strain on human mesenchymal stem cells and ligament
fibroblasts in a textured poly(L-lactide) scaffold for ligament tissue
engineering”,
Journal of Materials Science: Materials in Medicine,
vol. 23, pp. 2575-2582, 2012.
[LAU 05] L
AURENCIN
C.T., F
REEMAN
J.W., “Ligament tissue engineering:
an evolutionary materials science approach”,
Biomaterials
, vol. 26,
pp. 7530-7536, 2005.
[LAU 11a] L
AURENT
C., D
URVILLE
D., G
ANGHOFFER
J.F.,
et al.
, “Prediction
of the morphological and mechanical properties of a novel scaffold for
anterior cruciate ligament tissue engineering”,
Computer Methods in
Biomechanics and Biomedical Engineering,
vol. 14, pp. 45-46, 2011.
[LAU 11b] L
AURENT
C.P., G
ANGHOFFER
J.F., B
ABIN
J.,
et al.
,
“Morphological characterization of a novel scaffold for anterior cruciate
ligament tissue engineering”,
Journal of Biomechanical Engineering,
vol. 133, p. 133, 2011.
[LAU 12] L
AURENT
C.P., D
URVILLE
D., M
AINARD
D.,
et al.
, “A multilayer
braided scaffold for anterior cruciate ligament: mechanical modeling at
the fiber scale”,
Journal of the Mechanical Behavior of Biomedical
Materials,
vol. 12, pp. 184-196, 2012.
[LAU 14] L
AURENT
C.P., V
AQUETTE
C., M
ARTIN
C.,
et al.
, “Towards a tissue-
engineered ligament: design and preliminary evaluation of a dedicated
multi-chamber tension-torsion bioreactor”,
Processes
, pp. 167-179, 2014.
[LEE 05] L
EE
C.H., S
HIN
H.J., C
HO
I.H.,
et al.
, “Nanofiber alignment and
direction of mechanical strain affect the ECM production of human ACL
fibroblast”,
Biomaterials,
vol. 26, pp. 1261-1270, 2005.
[LI 12] L
I
H., C
HEN
S., W
U
Y.,
et al.
, “Enhancement of the osseointegration
of a polyethylene terephthalate artificial ligament graft in a bone tunnel
using 58S bioglass”,
International Orthopedics (SICOT),
vol. 36,
pp. 191-197, 2012.
[LI 11] L
I
H., G
E
Y., W
U
Y.,
et al.
, “Hydroxyapatite coating enhances
polyethylene terephthalate artificial ligament graft osseointegration in the
bone tunnel”,
International Orthopedics (SICOT)
, vol.
35, pp. 1561-
1567, 2011.
