Schwanns cells were obtained from the distal end of the sciatic nerve following Wallerian degeneration of SD rats. These cells were cultured with the anteriorhorn neuron of spinal cord of 14dayold SD rat fetus. The two kinds of cells were separated by a slice. Through the microscope, the dendrites and the morphology changes at the 24th, 48th, 72th, and 96 th hour after culture were observed. It was demonstrated that the Schwanns cells played the role of maintaining the survival of neuron and promoting the growth of dendrites. It was said that the Schwanns cells could secrete neurotrophic factor which made the body enlarged and caused the dendrites enlonged to several times of the body.
Objective To study the effect of allogenic different cells injected into denervated muscles on nerve regeneration. Methods Thirty-six adult female SD rats, weighed 120-150 g, were divided into four groups randomly (n=9, each group). Left sciatic nerves were cut down on germfree conditions and given primary suture of epineurium. Different cells were injected into the muscles of calf at once after operation every seven days and in all four times (group A: 1 ml Schwann cells at concentration of 1×106/ml; group B: 1 ml mixed cells of Schwann cells and myoblast cells at concentration of 1×106/ml; group C: 1 ml extract from the culture medium of kidney endothelial cells; and group D: 1 ml culture medium without FCS as control ). After 3 months, the specimen was observed on macrobody and histology, and the densities of neurilemma cell and myoceptor were counted. Results The means of proximate neurilemma cells were 0.187 7±0.054 2 in group A, 0.155 1±0.032 1 in group B, 0.072 4±0.023 7 in group C, and 0.187 7±0.054 2 in group D. The densities of myoceptor were 6.000±0.866 in group A,9.000±2.291 in group B,12.780±1.394 in group C, 3.110±0.782 in group D. Conclusion Schwann cells, mixed cells of Schwann cells with myoblast cells, and the extract from kidney endothelial cells canall accelerate the nerve regeneration. And the effect of extract from the kidney endothelial cell is superior to that of Schwann cell and mixed cell.
OBJECTIVE To observe the degeneration and regeneration of the Meissner’s corpuscles after implanted sensory nerve into the denervated monkey’s fingers under electron microscope. METHODS The two finger nerves of the monkey’s fingers were denervated. Afterwards, one finger nerve was cut off, and the other was reimplanted into the denervated finger. After 1, 3, 5, 8 and 12 months, the finger skin was cut off and observed under electron microscope. RESULTS The degenerative changes of nerve ending in Meissner’s corpuscles were observed after 1 month of denervation, and the basic structure of the corpuscles had no obvious changes. After 3 months, the axons of corpuscles were disappeared, and the volume of corpuscles was shrunk. The basic structure of nerves was disappeared, and the lemmocyte and neurolemma plate were changed after 5 months. The collagen fibrils in the corpuscles were gradually increased in 8 months, the endoneurial structure and interneurial matrix were completely disappeared and replaced by collagen fibrils in 12 months. After 3 months of nerve implantation, unmyelinated nerve fibers were appeared and grew into the corpuscles. A part of corpuscles innervated in 5 months. Most of corpuscles innervated and myelinated nerve fibers were observed in 8 months. And in 12 months, corpuscles innervated to normal level. CONCLUSION The implantative sensory nerve by means of reinnervating the original corpuscles and regenerating new corpuscles could innervate the degenerative Meissner’s corpuscles.
Objective To explore an effect of the artificial nerve graft wrapped in the pedicled greater omentum on the early revascularization and an effectof the increased blood supply to the artificial nerve graft on the nerve regeneration. Methods Seventy-five rabbits were randomized into 3 groups, in which there were 2 experimental groups where the rabbits were made to abridge respectively with the artificial nerve grafts wrapped in the pedicled greater omentum (Group A) and with the artificial nerve grafts only (Group B), and the control group where the rabbits were abridged with the autologous nerve (Group C).On the 3rd, 7th and 14th days after operation, the evans blue bound to albumin (EBA) was injected into the vessels in all the grafts to show their revascularization. Twelve weeks after operation the nerve regeneration was evaluated with theelectrophysiological and histological observations on the serial sections, and was evaluated also with the transmission electron microscope. Results The artificial nerve grafts wrapped in the pedicled greater omentum in Group A and the autologous nerve grafts in Group C showed a beginning of revascularization on the3rd day after operation, and the revascularization was increased on the 7th and14th days. Compared with Groups A and C, the artificial nerve grafts in Group Bshowed a delayed revascularization on the7th day after operation. At 12 weeks after operation, there were no significant differences in the motor never conduction velocity, density of the regenerated myelinated nerve fibers, myelin sheath thickness, and diameter between Group A and Group C(Pgt;0.05). However, both Group A and Group C were superior to Group B in the above variables, with significant differences(Plt;0.05). Conclusion Utilization of the pedicled greater omentum to wrapthe artificialnerve grafts can promote an early revascularization of the artificial nerve graft and an early nerve regeneration of the artificial nerve graft because of an enhanced blood supply to the nerve graft.
Objective Peri pheral nerve injury is a common cl inical disease, to study the effects of the physical therapy on the regeneration of the injured sciatic nerve, and provide a reference for cl inical treatment. Methods Sixty-four female adult Wistar rats (weighing 252-365 g) were chosen and randomly divided into 4 groups (n=16): group A, group B, groupC, and group D. The experimental model of sciatic nerve defect was establ ished by crushing the right sciatic nerve in groups B, C, and D; group A served as the control group without crushing. At 2 days after injury, no treatment was given in group B, electrical stimulation in group C, and combined physical therapies (decimeter and infrared ray) in group D. At 0, 7, 14, and 30 days after treatment, the sciatic nerve function index (SFI) and the motor nerve conduction velocity (MNCV) were measured, and morphological and transmission electron microscopy (TEM) examinations were done; at 30 days after treatment, the morphological evaluation analysis of axons was performed. Results At 0 and 7 days after treatment, the SFI values of groups B, C, and D were significantly higher than that of group A (P lt; 0.05); at 14 and 30 days after treatment, the SFI value of group D decreased significantly, no significant difference was observed between group D and group A (P gt; 0.05) at 30 days; whereas the SFI values of groups B and C decreased, showing significant difference when compared with the value of group A (P lt; 0.05). At 0, 7, and 14 days after treatment, the MNCV values of groups B, C, and D were significantly lower than that of group A (P lt; 0.05), and there were significantly differences between group B and groups C, D (P lt; 0.05); at 14 days, the MNCV value of group D was significantly higher than that of group C (P lt; 0.05); and at 30 days, the MNCV values of groups B and C were significantly lower than that of group A (P lt; 0.05), but there was no significant difference between group D and group A (P gt; 0.05). At 0 and 7 days, only collagen and l i pid were observed by TEM; at 14 and 30 days, many Schwann cells and perineurial cells in regeneration axon were observed in groups B, C, and D, especially in group D. Automated image analysis of axons showed that there was no significant difference in the number of myelinated nerve fibers, axon diameter, and myelin sheath thickness between group D and group A (P gt; 0.05), and the number of myelinated nerve fibers and axon diameter of group D were significantly higher than those of groups B and C (P lt; 0.05). Conclusion Physical therapy can improve the regeneration of the injured sciatic nerve of rats.
Objective To know the possibility of nerveregeneration after artery sleeve anastomosis and end-to-side suture Methods Seventy-five SD rats were divided into 5 groups. First, the distal end ofsevered peroneal nerve was sutured end-to -side with artery sleeve anastomosis withnormal nerve tibial trunk in groups A, B, C and D. Second, the tibial epineurium at the suture site was not removed in group A; the epineurium at the suturesite was removed(windowing) in group B; the distal end of pre-injured peroneal nerve was sutured after 14 days and windowing was done in group C; and the neural growth factor was injected into artery sleeve and windowing was done in group D. While the distal end of severed peroneal nerve was sutured end to side directly with normal nerve tibial trunk and windowing was done in group E. The histological observation was made and the number of nerve fibers was recorded after 4, 8 and 12 weeks of operation.Results After 4 weeks, there existed the regeneration of axons and myeline sheaths in groups C, D, E, and no nerve fiber regeneration was seen in group A. After 8 weeks, the regenerating nerve fibers were significantly more in groups C, D and E than in group B and ingroup E than groups C and D(Plt;0.05). After 12 weeks, the regenerating nervefibers were significantly more in groups C,D and E than in group B(Plt;0.05).Conclusion End-to-side coaptation with artery sleeve anastomosis is a new valuable method in repair of peripheral nerve injuries.
Objective To investigate the effects of icariin and mixed prescri ption of icariin, radix hedysari polysaccharide, and l iquid extracted from earthworm on peri pheral nerve regeneration. Methods Twenty male SD rats weighing (200 ± 10) g were selected and randomized into four groups (n=5 per group): sham operated group (group A), model group (group B), icariin group (group C), and mixed l iquid group (group D). In group A, the left sciatic nerves of the rats were only exposed, and treated at fixed time from the following day with the NS (2 mL/d). In groups B, C, D, the models were made by clamping sciatic nerve and treated with NS, icariin and mixed l iquid, respectively (2 mL/d). The general state ofanimals was observed after the treatment daily. The nerve function index, motor nerve conductive velocity and the morphous and number of myel inated sciatic nerve fibers were measured at 21 days. Results Animals in various groups were all in good state. After 21 days, the weights of rats in groups A, B, C and D were (366.9 ± 14.0), (370.1 ± 16.3), (373.3 ± 19.6) and (374.0 ± 11.4) g, respectively, and there was no significant difference among these groups (P gt; 0.05). For sciatic function index, there was no significant difference between group A and group D (P gt; 0.05), between group B and group C (P gt; 0.05), while there was significant difference between group B and group D (P lt; 0.05). For tibial function index, there was significant difference between group A and groups B, C, D (Plt; 0.05), there was no significant difference between group B and groups C, D (Pgt; 0.05). For peroneal function index, there was no significant difference between group A and groups C, D (P gt; 0.05), between group B and groups C, D (P gt; 0.05). The sciatic motor nerve conductive velocities of group A, B, C and D were (45.0 ± 2.9), (8.0 ± 2.6), (13.4 ± 6.8), and (19.6 ± 9.3) m/s, respectively, there was no significant difference between group B and group C (P gt; 0.05), and there was significant difference between group A and groups B, C, D and between group B and group D (P lt; 0.05). The size of individual myel inated sciatic nerve fibers of regenerated nerves in groups B, C, and D was significantly smaller than that in group A. Comparing with group A, the number of myel inated sciatic nerve fibers in groups B, C, and D was 93.3% ± 35.6%, 90.6% ± 37.1%, and 115.4% ± 40.6%, respectively, but there was no significant difference among four groups (P gt; 0.05). Conclusion Icariin and mixed prescription are safe. The improving peripheral nerve regeneration effect of mixed prescription is more obvious than that of icariin, indicating the comprehensive study of modified formula radixhedysari is necessary to find the effective part or mixture of effective compounds with fixed percentage.
The model of the denervated lateral head of gastrocnemius musde was adopted in this experiment on 50 rabbits. At random, the denervated muscle on oneside received the soleus muscle bundles with neurovascular pediele implantation (MBNPI). While the other side received the direct soleus nerve implantation (DNI). Eighteen weeks later after the two types of implantations the electromyography, force of muscles, histochmical findings and the electronic microscopic examination of the dernervated muscles of the two...
Basing on the experimental results, 48 nerve defects (with the length of 3-4 cm in 21 cases, 4.1-5cm in 25 cases and 6cm in 2 cases) were repaired clinically by using vaseularized nerve sheath canal with living Schwann s cells, 87.5 percent of them obtained good results. The advantages were: (1) The neural sheath had rich blood supply with resultant less scar from its healing; (2) The living Schwann s cells would secrete somatomedin to promote the reproduction of neural tissues; and (3) The useless neurofib...
Schwanns cell (SC) was isolated from sciatic nerve of adult rat with Wallerine degeneration. After culture, SC-serum free culture media (SCSFCM) was obtained. By ultrafiltration with PM-10 Amicon Membrane, electrophoresis with DiscPAGE,and electrical wash-out with Biotrap apparatus, D-band protein was isolated from the SC-SFCM. The D-band protein in the concentration of 25ng/ml could affect the survival of the spinal anterior horn neuron in vitro, prominently and itsactivity was not changed after being frozen. The molecular weight of the protein ranged from 43 to 67 Kd. The D-band protein might be a neurotrophic substancedifferent from the known SCderived neurotrophic factors (NTF). Its concentration with biological activity was high enough to be detected. The advantages of MTT in assessment of NTF activity were also discussed.