1.The role of bone marrow mesenchymal stem cells transfected with neurotrophin-3 in treatment of spinal cord ischemia-reperfusion injury
The Journal of Practical Medicine 2016;32(19):3160-3164
Objective To observe the mechanisms of bone marrow mesenchymal stem cells (BMSCs) transfected with neurotrophin-3 in treating nanoparticle repaired spinal cord ischemia-reperfusion (I/R) injury of adult rat. Methods BMSCs were transfected into NT-3 with nanoparticle carrier and transplanted into 80 adult rats on the spinal cord I/R injury model. Then the rats were divided into four groups: sham group, NS group, BMSCs and BMSCs+NT-3. The BBB scoring system, the neurons cell apoptosis, levels of malondialdehyde (MDA) and myeloperoxidase (MPO) were observed and compared between the four groups. Results The BBB score of the BMSCs+NT-3 group was significantly higher than those of BMSCs and NS group , but was lower obviously than the Sham group. TUNEL-apoptosis cells were significantly decreased in the BMSCs + NT-3 group compared to BMSCs and NS groups, but was more significantly lower than the Sham group. The contents of MDA and MPO of the NS group were significantly higher than the BMSCs group. The contents of the BMSCs + NT-3 group were lower than those of the BMSCs group, but lower significantly than the Sham group (P < 0.05). Conclusion BMSCs transfected with NT-3 with nanoparticle carrier could be induced each other. When transplanted into SCI , they can repair spinal cord by alleviating neuron cells apoptosis and inhibiting the lipid peroxidation of free radicals.
2.Poly-IC protects the spinal cord in inflammatory response to ischemia-reperfusion injury in rats
Jianjie WU ; Haibin ZONG ; Tan LU ; Yongbo AN ; Yuzhen DONG
Journal of Medical Postgraduates 2017;30(6):596-600
Objective Polyinosinic-polycytidylic acid (poly IC) plays an important role in the central nervous system damage and repair.This study was to investigate the effect of poly IC on inflammatory response after spinal cord ischemia-reperfusion injury (SCIRI) in rats.Methods A total of 72 healthy adult male SD rats were equally randomized into a sham-operation, an ischemia-reperfusion (IR), and a poly IC group.The abdominal cavities of the rats were cut open and closed again in the sham-operation group and SCIRI models were established in the IR and poly IC groups by clamping the abdominal aorta, followed by reperfusion 60 minutes later and intraperitoneal injection of saline (0.1 mL) and poly IC (1.25 μg/g), respectively.At 6, 24, and 48 hours after modeling, BBB scores were obtained and the contents of TNFα, IL-1β and IFN-β were measured by ELISA.At 48 hours, the expressions of NF-κB and IL-10 were determined by immunohistochemistry, the area of ischemic necrosis in the spinal cord tissue was calculated by TTC staining, and its morphological changes were observed under the optical microscope.Results At 48 hours after modeling, the BBB scores were significantly lower in the IR and poly IC groups than in the sham-operation group (3.80±0.75 and 9.40±0.49 vs 20.00±0.00, P<0.01), though higher in the poly IC than in the IR group (P<0.01).The rats of the IR group showed extensive degenerated neurons in the gray substance of the spinal cord, with scattered foci of bleeding and blood coagulation, while those of the poly IC group exhibited fewer necrotic neurons and basically normal nuclear morphology, though with a few swelling cells.The ischemic necrosis area of the spinal cord tissue was significantly reduced.The expression of NF-κB was decreased while that of IL-10 increased markedly.Compared with the IR group, the poly IC group showed a significant increase in the expression of IFNβ (117.23±6.06 vs 55.65±4.02, P<0.01) and a remarkably decrease in the expressions of TNFα (190.45±4.16 vs 201.82±2.18, P<0.01) and IL-1β (39.27±2.48 vs 50.59±1.47, P<0.01) at 48 hours.Conclusion Poly IC can protect the spinal cord and reduce inflammatory response after spinal cord ischemia-reperfusion injury.
3.Quantitative evaluation of normal lumbosacral plexus nerve by using diffusion tensor imaging
Yin SHI ; Chuanbing WANG ; Wei LIU ; Min ZONG ; Rina SA ; Haibin SHI ; Dehang WANG
Chinese Journal of Radiology 2014;48(2):135-138
Objective To observe the lumbosacral plexus nerves by diffusion tensor tractography (DTT) and quantitatively evaluate them by using diffusion tensor imaging (DTI) in healthy volunteers.Methods A total of 60 healthy volunteers (30 males and 30 females) underwent DTI scanning.Mean FA values of the lumbosacral plexus nerves (both sides of lumbar roots L3 to S1,proximal and distal to the lumbar foraminal zone) were quantified.Differences among various segments of lumbar nerve roots were compared with ANOVA test and SNK test.Differences between two sides of the lumbar nerve roots at the same lumbar segment were compared with paired-samples t test.Differences between the proximal and the distal nerve to the the lumbar foraminal zone at the same lumbar segment were compared with paired-samples t test.The lumbosacral plexus nerve was visualized with tractography.Results (1) The lumbosacral plexus nerve was clearly visualized with tractography.(2) Mean FA values of the lumbar nerve roots L3 to S1 were as followings:proximal to the left lumbar foraminal zone 0.202 ± 0.021,0.201 ± 0.026,0.201 ± 0.027,0.191 ±0.016,distal to the left lumbar foraminal zone 0.222 ± 0.034,0.250 ± 0.028,0.203 ± 0.026,0.183 ± 0.020,proximal to the right lumbar foraminal zone 0.200 ± 0.023,0.202 ± 0.023,0.205 ± 0.027,0.191 ±0.017,distal to the right lumbar foraminal zone 0.225 ±0.032,0.247 ±0.027,0.205 ± 0.033,0.183 ±0.021.Mean FA values were significantly different between the proximal nerve to the distal nerve in lumbar nerve roots L3,L4,S1 (t =-9.114-2.366,P < 0.05),but not significantly different in L5 (P > 0.05).Differences were not found between the right and left side nerves at the same lumbar segment (P > 0.05).(3) The whole length of the lumbar roots nerve L3 to S1 can be visualized clearly by using DTT.Conclusions Diffusion tensor imaging and tractography can show and provide quantitative information of human lumbosacral plexus nerves.DTI is a potential tool for the diagnosis of lumbosacral plexus nerve disease.