Different regeneration tubes braided from biodegradable material poly
(glycolide-co-L-lactide) (PGLA) for peripheral nerve repair and their radial
compressive properties are presented. The influences of the braided structure and
braiding angle are discussed. The results have shown that the nerve tube braided
with the triaxial structure and the braiding angle at 60 has a higher ability to
resist the radial compressions.
Wei, X.
(2001).
Advances of Nerve Tube
, Journal of Fudan University (Medical Science),
28(1):
89–92
(in Chinese).
2.
Wang, M.C.
,
Spilker, M.H.
and
Archibald, S.J.
(2002).
Development of a Collagen Tube for Peripheral Nerve Repair
, 2002 Society for Biomaterials 28th Annual Meeting
Transactions, p.
356-356
, Tampa Florida.
3.
Liu, G.H.
,
Zhang, P.H.
and
Wang, W.Z.
(2003).
Fabrication and Properties of a Nerve Regeneration Tube Made of Braided Composite
, Shanghai Textile Science & Technology,
31(4):
40–41
(in Chinese).
4.
Tandon, V.K.
,
Dabholkar, D.A.
and
Parkash, S.
(1991).
Synthetic Bioabsorbable Polyesters Fibers
, Synthetic Fibers, 4(1):
7–10
.
5.
Wu, Y.
and
Guo, S.M.
(2000).
Study and Application on Biodegradable Polyglycolide-lactide
, New Chemical Materials, 28(1):
22–24
(in Chinese).
6.
Bhat, Sujata, V.
(2002). Biomaterials,
Alpha Science International Ltd., Pangbourne
.
7.
Nordin, M.
,
Frankel, V.H.
and
Guo, B.F.
(1993). Basic Biomechanics of the Musculoskeletal
System, pp. 122–126,
Shanghai Far East Publishers
(in Chinese).
