In order to understand the change of free radicals in the course of injury and regeneration of nerve, the sciatic nerve of Wistar rat was crushed to, prepare the model of nerve injury and measured the content of Malondialdehyde (MDA) and superoxide dismutase (SOD) of the nerve. Thirty rats were used in this study. The sciatic nerve on one side was crushed, the contralateral sciatic nerve was served as control. According to the time of assessment (2,4,6,11,21 days after crushing), the rats were divided into 5 groups. The MDA concentration of the controlwas 19.65±0.27 and that of the crushing groups at different time were 21.25±0.36, 21.98±0.35, 22.77±0.38, 23.73±0.13, 23.92±0.44, respectively (nmol/100mg pro, x±s), while the SOD concentration of the control was 119.18±0.58 and that of the crushing groups at different time were 144.85±1.70, 136.14±1.71, 130.58±0.57, 126.41±0.98, 122.36±0.79, respectively (ug/mg pro, x±s), In the experimental groups, all the MDA concentrations were markedly higher than that of the control Plt;0.01, t-test) and tended to increase with the time passing by. The SOD concentrations in the experimental groups were also higher than that of the control Plt;0.01, t-test) and tended to decrease with the time passing on. The study suggested that after crushing or ligation of the nerve, the free radicals would increase.
ObjectiveTo investigate the regularity of myelin degeneration and regeneration and the difference of axonal density between tibial nerve and common peroneal nerve after sciatic nerve injury repair in rhesue monkey.
MethodsNine adult rhesue monkeys (male or female, weighing 3.5-4.5 kg) were selected to establish the model of rat sciatic nerve transaction injury. The tibial nerve and common peroneal nerve of 5 mm in length were harvested at 5 mm from injury site as controls in 3 monkeys; the distal tibial nerve and common peroneal nerve were repaired with 9-0 suture immediately in the other 6 monkeys. And the gross observation and neural electrophysiological examination were performed at 3 and 8 weeks after repair respectively. Then, distal tibial nerve and common peroneal nerve at anastomotic site were harvested to observe the myelin sheath changes, and to calculate the number of axon counts and axonal density by staining with Luxol Fast Blue.
ResultsAtrophy of the lower limb muscle and various degrees of plantar ulcer were observed. Gross observation showed nerve enlargement at anastomosis site, the peripheral connective tissue hyperplasia, and obvious adhesion. The compound muscle action potential (CMAP) of tibial nerve and common peroneal nerve could not be detected at 3 weeks; the CMAP amplitude of common peroneal nerve was less than that of the tibial nerve at 8 weeks. Different degrees of axonal degeneration was shown in the tibial nerve and common peroneal nerve, especially in the common peroneal nerve. The average axonal density of common peroneal nerve was lower than that of tibial nerve at 3 weeks (13.2% vs. 44.5%) and at 8 weeks (10.3% vs. 35.3%) after repair.
ConclusionThe regeneration of tibial nerve is better and faster than that of common peroneal nerve, and gastrocnemius muscle CMAP recovers quicker, and amplitude is higher, which is the reason of better recovery of tibial nerve.
Nine cases of sciatic nerve from injection hadbeen treated by fasciotomy. The skin temperatureof the diseased limb immediately raised 1-2℃ fol-lowing operation. The cutaneous sensation began torecover 2-3 days after operation. Two cases ofplantar ulcer recovered one month post operation.Five of the eight cases of paralysis of muscle in-nervated by the common peroneal nerve recoveredto normal. The etiology,pathology, and therapeuticmethods of the nerve injury caused by drug injec-tion were discused.
Objective To discuss the effect of sciatic never repair at different angles on the neural regeneration in rats. Methods Seventy-two male Sprague Dawley rats were randomly divided into groups A, B, C, and D with 18 rats in each group. The right sciatic nerve was transected at 30, 45, 60, and 90° in groups A, B, C, and D, respectively, and then was repaired. The morphologic assessment of nerve regeneration was performed by gross observation, the wet weight recovery rateof gastrocnemius, histological and ultrastructural observations at 1, 2, and 3 months after operation. Results Three months later, the wet weight recovery rate of gastrocnemius, motor nerve conduction velocity and action potential of sciatic nerve, axonal diameter, medullary sheath thickness, and medullated nerve fiber counting in groups A and B were significantly better than those in groups C and D (P lt; 0.01); but no significant difference was found between group A and group B (P gt; 0.05), and between group C and group D (P gt; 0.05). Conclusion End-to-end neurorrhaphy at 30-45° can effectively promote the sciatic nerve regeneration in rats.
Objective To compare their competence of olfactory epithel ial gl iacytes, olfactory globular nerve layer (OGNL) gl iacytes and SC in repair nerve defect of sciatic nerve, and select the best gl iacytes for repair of peri pheral nerve defect. Methods Olfactory epithel ial gl iacytes, OGNL gl iacytes and SC were extracted from 20 female Wistar rats aged 2-3 months and cultured in vitro for 2 weeks, then purified and condensed for transplantation. Eighty adult female Wistar rats were randomized into groups A, B, C and D (n=20). The left sciatic nerves were excised 25 mm axons and retained epineuriumlumen anastomosed to proximal ends. The culture mediums, SC, OGNL gl iacytes, and olfactory epithel ial gl iacytes weretransplanted into the epineurium lumen of groups A, B, C and D, respectively. Three months postoperatively, the injured sciatic nerve regeneration was evaluated by methods of macroscopic observation, photomicroscope, transmission electron microscope, retro-marked fluorescence transportation distance, the gl ial fibrillary acidic protein (GFAP) and nerve growth factor (NGF) were assayed by immunofluorescence, and the myel in basic protein (MBP) and neurofilament (NF) protein were assayed by ELISA. Results The scores of ankle joint were (3.325 ± 0.963), (4.200 ± 1.005), (5.143 ± 0.635) and (5.950 ± 0.154) in groups A, B, C and D, respectively; showing statistically significant difference between groups (P lt; 0.05). The obse vations of gross, sections under microscope and transmission electron microscope showed the regeneration of defect nerve was best in group D, followed by group C, and group B was superior to group A. The transportation distance of retro-marked fluorescence was longest in group D, followed by group C, and group B was superior to group A. The concentrations of GFAP and NGF were largest in group D, followed by group C, and group B was superior to group A. The MBP concentrations were (9.817 ± 3.267), (12.347 ± 3.091), (14.937 ± 2.075) and (22.757 ± 0.871) ng/mL in groups A, B, C and D, respectively; showing statistically significant difference between other groups (P﹤0.05) except between group A and group B (P gt; 0.05). And the NF concentrations were (13.869 ± 5.677), (18.498 ± 3.889), (23.443 ± 2.260) and (27.610 ± 1.125) ng/mL in groups A, B, C and D, respectively; showing statistically significant difference between groups (P﹤0.05). Conclusion Olfactory epithel ial gl iacytes, OGNL gl iacytes and SC transplantation could repair injured nerve. The competence of olfactory epithel iums is superior to the OGNL gl iacytes andSC, and the OGNL gl iacytes is better than SC.
Objective To make a histological evaluation of poly(dextrogyr-levogyr)lactide acide-triiodothy-ronine (PDLLA-T3) in sciatic nerve defect of rat. Methods Ninety SD rats were evenly divided into 3 groups (autograft group A, PDLLA-T3 group B and PDLLA group C). Group D was control group. The left sciatic nerves were cut off by operation and 1 cm-nerve-defect was set up. The specimens were collected 2 weeks,1 month and 2 months after the operation respectively, simultaneously the right sciatic nerves were collected as normal control group D. HE stainning, electron microscope, S100 immunohistochemistry, and Bielschowsky staining were done in all the specimens, the quantity and quality of the regenerated nerves were observed, and all the results were processed by image analyzer.Results Two weeks after the operation,histological observation indicated that the materials in groups B and C were not completely degraded. Transmission electron microscopic observationshowed that the myelin sheath was not thick and it was about 0.5 μm in thickness. There was no significant difference among the 3 groups. One month after theoperation, histological observation indicated that in group A the regenerated nerves passed through the scaffold and in the new nerves there were regenerated blood vessels. The materials in groups B and C were not completely degraded. S-100 immunohistochemical observation and Bielschowsky staining showed that in groupB PDLLA-T3 repaired the defect successfully and the regenerated nerve myelinsheath was 1.81±0.19 μm in thickness. The effect in group B was better thanthat of groups A and C (P>0.05). Two months after the operation, the materials in groups B and C were completely degraded. The quantity of the regeneratednerves in group B confirmed by S-100 immunohistochemical observation and Bielschowslcy staining was more than that in group C(P<0.05) and close to that in group A. The regenerated nerve myelin sheath in group B was 2.15±0.27 μm in the thickness and was thicker than that in group C (P<0.05), but thinner than that in groups A and D (P<0.05). Conclusion PDLLA-T3 can repair the defect of rat sciatic nerve with satisfactory quantity andquality of regenerated nerves.
Objective
To explore a new method for the pre-degeneration of peripheral nerve in vitro for obtaining many effective Schwann cells so as to provide a large number of seed cells for the research and application of tissue engineered nerves.
Methods
The bone marrow derived cells (BMDCs) from transgenic green fluorescent protein C57BL/6 mouse and the sciatic nerve segments from the C57BL/6 mouse were co-cultured to prepare the pre-degeneration of sciatic nerve in vitro (experimental group, group A), and only sciatic nerve was cultured (control group, group B). At 7 days after culture, whether BMDCs can permeate into the sciatic nerve in vitro for pre-degeneration was observed by gross and immunohistofluorescence staining. And then Schwann cells were obtained from the sciatic nerves by enzymic digestion and cultured. The cell number was counted, and then the purity of primary Schwann cells was determined using immunohistofluorescence staining and flow cytometer analysis.
Results
At 7 days after pre-degeneration, gross observation showed that enlargement was observed at nerve stumps, and neuroma-like structure formed; the group A was more obvious than group B. Immunohistofluorescence staining showed many BMDCs permeated into the nerve segments, with positive F4/80 staining in group A. After culture, the yield of Schwann cells was (5.59 ± 0.19) × 104 /mg in group A and (3.20 ± 0.21) × 104/mg in group B, showing significant difference (t=2.14, P=0.03). At 48 hours after inoculation, the cells had blue bipolar or tripolar cell nuclei with small size and red soma by immunohistofluorescence staining; fibroblasts were flat polygonal with clear nucleus and nucleolus, showing negative p75NTR staining; and there were few of fibroblasts in group A. The purity of Schwann cells was 88.4% ± 5.8% in group A and 76.1% ± 3.7% in group B, showing significant difference (t=2.38, P=0.04). And the flow cytometer analysis showed that the purity was 89.6% in group A and 74.9% in group B.
Conclusion
BMDCs can promote the pre-degeneration of peripheral nerve in vitro, and it is a new method to effectively obtain Schwann cells for tissue engineered nerve.
Objective To investigate the expression change of endogenous Spastin after sciatic nerve injury in rats, and to discuss the role and significance in the peripheral nerve regeneration. Methods Thirty-six adult male Sprague Dawley rats weighing 180–220 g were randomly divided into the experimental group (n=30) and the control group (n=6). Sciatic nerve compression damage model was established in the experimental group, and the sciatic nerve was only exposed in the control group. The L4-6 spinal cord tissue was obtained to detect Spastin mRNA and protein levels by real-time fluorescence quantitative PCR and Western blot at 1, 3, 7, 14, and 28 days after operation in the experimental group (n=6) and at 7 days in the control group. Meanwhile, the sciatic nerve at 5 mm distal to the injured site was obtained to observe the ultrastructure of the distal axon by transmission electron microscope (TEM). Results The expression trends of Spastin gene and Spastin protein in L4-6 spinal cord tissue of 2 groups were basically identical. In the experimental group, the expressions of Spastin gene and protein decreased at the beginning, and then increased; the expressions reduced to the minimum at 7 days after operation, and came back to the initial level at 28 days. The expression levels of Spastin mRNA and protein at 3, 7, and 14 days were significantly lower in the experimental group than the control group (P<0.05), but no significant difference was noted between 2 groups at 1 and 28 days (P>0.05). The expression levels of Spastin mRNA and protein at 3, 7, and 14 days were significantly lower than those at 1 and 28 days in the experimental group (P<0.05), but no significant difference was noted between at 1 day and 28 days (P>0.05). At 1, 3, and 7 days after operation, the myelin damage was observed by TEM; at 14 days, there were regenerating Schwann cells; at 28 days, a large number of myelinated nerve fibers were seen, which were closed to normal form. Conclusion In the process of sciatic nerve regeneration after injury, a complex succession of changes take place in the expression of endogenous Spastin protein in rats, indicating that Spastin protein plays an important role in the process.
ObjectiveTo construct recombinant adenovirus expressing nerve growth factor (NGF) and myelin associated glycoprotein (MAG) (Ad-NGF-MAG) and to investigate its effect on repair and regeneration of sciatic nerve injury in rats.
MethodsNGF and MAG gene sequences were cloned into shuttle plasmid pCA13 of adenovirus type 5. After packed in HEK293 cells, the recombinant Ad-NGF-MAG underwent sequence and identification. Thirty-two male Sprague Dawley rats were randomly divided into 4 groups (n=8): control group (normal control), adenovirus vector group (Ad group), Ad-NGF group, and Ad-NGF-MAG group. The sciatic nerve injury model was established by transection of the right sciatic nerve; then, the empty adenovirus vector, Ad-NGF, and Ad-NGF-MAG were injected into the gastrocnemius muscle of the affected limb at a dose of 1×108 PFU every other day for 3 times in Ad group, AdNGF group, and Ad-NGF-MAG group, respectively. The right sciatic nerve was exposed only, and then the incision was closed in the control group. The sciatic nerve function index (SFI) was measured, and neuro-electrophysiology was observed; mRNA and protein expressions of NGF and MAG were detected by RT-PCR and Western blot; and histological examination was performed at 31 days after operation.
ResultsRecombinant adenovirus vectors of Ad-NGF and Ad-NGF-MAG were constructed successfully. All rats survived and incision healed by first intension. The SFI, nerve conduction velocity, evoked potential amplitude, and latent period of Ad-NGF-MAG group were significantly better than those of Ad group and Ad-NGF group (P < 0.05). MAG mRNA and protein expressions of Ad-NGF-MAG group were the highest in all the groups (P < 0.05). The expressions of NGF mRNA and protein increased in Ad-NGF group and AdNGF-MAG group when compared with control group and Ad group (P < 0.05). Histological examination showed that the nerve had good continuity in control group; nerve fibers disarranged in Ad group; neurons connections formed in some nerve fibers of Ad-NGF group, but nerve fibers arrange disorderly; and the growth of the nerve were ordered and wellstructured in Ad-NGF-MAG group.
ConclusionAd-NGF-MAG can effectively promote the growth of the nerve and inhibit the form of abnormal branches, facilitating the repair of sciatic nerve injury in rats.
