L. Zeng et al., PERIPHERAL-NERVE REPAIR WITH NERVE GROWTH-FACTOR AND FIBRIN MATRIX - AN EXPERIMENTAL-STUDY IN RAT MODEL, European journal of plastic surgery, 17(5), 1994, pp. 228-232
A fibrin sealant matrix (FS) with or without a nerve growth factor (NG
F) has been used to improve the recovery of severed peripheral nerves,
and these have been compared with the results of using only the stand
ard epineural suture (SUT). Regeneration in the early phase (up to 6 d
ays) was measured by the pinch test. The functional recovery process (
up to 12 weeks) was evaluated by serial gait track analysis. Longitudi
nal sections of the nerve specimens were submitted to immunohistochemi
cal staining with monoclonal antibody against neurofilament. In additi
on, the release of the NGF from the NGF-FS matrix in vitro was investi
gated by ELISA. The regeneration of the leading sensory fibers was sig
nificantly faster in both FS groups (with and without NGF) than in the
SUT group at 3 and 4 days postoperatively. The behavioural data expre
ssed by the sciatic function index (SFI) and the toe spreading index (
TSI) indicated significant improvement in NGF-FS group at the 9th week
postoperatively (p<0.05). Histologically, good and excellent outgrowt
h of neurites was encountered in both the NGF-FS and FS groups, while
most of the results from SUT group were poor to satisfactory. In vitro
. a peak of NGF release was seen within 18 h; afterwards, release rema
ined slow for two weeks. It has been concluded that local application
of a combination of FS and NGF may be useful for neuritic regeneration
and subsequent functional recovery; the fibrin matrix itself may be b
eneficial for neuritic sprouting in the early phase.