The experimental study on repair of rat femoral condyle defect with peripheral blood mesenchymal stem cells combined with absorbable gelatin sponge-self assembling peptide / 实用医学杂志

Objective This study aimed to explore the effect of peripheral blood mesenchymal stem cells combined with porous absorbable gelatin sponge/self assembling peptide composite scaffolds on SD rat femoral con-dyle bone defect reconstruction and provide a new strategy for the repair of bone defects. Methods 30 female SD rats,8W age,were randomly divided into 3 groups,10 every group.The group A was blank control group,group B was porous absorbable gelatin sponge/self assembling peptide composite scaffold group,and group C was periph-eral blood mesenchymal stem cells combined with porous absorbable gelatin sponge/self assembling peptide compos-ite scaffold group. The effect of osteogenesis was observed by paraffin section,hematoxylin eosin staining,X-ray examination,and Micro-CT scanning in 3 dimensional reconstruction of femoral condyle defect. Results Imaging examination showed that the experimental group had better osteogenesis effect. Histological examination showed that a lot of new bone tissue was found in group C,while only a small amount of new bone was found in the group of A and B. Conclusions The experiment shows that peripheral blood mesenchymal stem cells as the seed cells for tissue engineering,combined with porous absorbable gelatin sponge-self assembling peptide has better ability to repair bone defects,and has good application prospect,which is worthy of further research.

Temporal and spatial pattern of RhoA expression in injured spinal cord of adult mice / 南方医科大学学报

<p><b>OBJECTIVE</b>To quantitatively analyze the temporal and spatial pattern of RhoA expression in injured spinal cord of adult mice.</p><p><b>METHODS</b>A spinal cord transection model was established in adult mice. At 1, 3, 7, 14, 28, 56 and 112 days after the surgery, the spinal cords were dissected and cryosectioned for RhoA/NF200, RhoA/GFAP, RhoA/CNPase or RhoA/IBA1 double fluorescent immunohistochemistry to visualize RhoA expressions in the neurons, astrocytes, oligodendrocytes and microglia. The percentages as well as the immunostaining intensities of RhoA-positive cells in the parenchymal cells were quantitatively analyzed.</p><p><b>RESULTS</b>RhoA was weakly expressed in a few neurons and oligodendrocytes in normal spinal cord. After spinal cord injury, the percentage of RhoA-positive cells and RhoA expression intensity in the spinal cord increased and peaked at 7 days post injury (dpi) in neurons, oligodendrocytes and astrocytes, followed by a gradual decrease till reaching a low level at 112 dpi. In the microglia, both the RhoA-positive cells and RhoA expression intensity reached the maximum at 14 dpi and maintained a high level till 112 dpi.</p><p><b>CONCLUSION</b>Traumatic spinal cord injury can upregulate RhoA expression in the neurons as well as all the glial cells in the spinal cord. RhoA expression patterns vary with post-injury time, location and among different parenchymal cells in the injured spinal cord.</p>

NT-3 GENETICALLY MODIFIED SCHWANN CELLS PROMOTE GRAFTED NEURAL STEM CELLS DIFFERENTIATE INTO NEURON-LIKE CELLS IN THE INJURED SPINAL CORD / 解剖学报

Objective To explore the effects of Neurotrophin-3(NT-3) genetically modified Schwann cells(SCs) on grafted neural stem cell(NSC) differentiation into the neuron-like cells in the transected spinal cord. Methods The NSCs were single-transplanted or co-engrafted with NT-3 modified SCs,report gene LacZ modified SCs,and unmodified SCs respectively into the transected spinal cord 67d later,the differentiation of NSCs was studied by immunohistochemisty,and the percentage of neuron-like cells was calculated. Results NSCs could differentiate into the neuroglial-like cells and neuron-like cells in the injured spinal cord.Compared to the unmodified SCs,NT-3 modified SCs could more efficiently promote NSCs differentiate into the neuron-like cells.The effect of LacZ modified SCs was the same to the unmodified SCs.Conclusion NT-3 modified SCs could promote NSCs differentiate into the neuron-like cells in the injured spinal cord.

Combinative grafting neural stem cells and NT-3 genetically modified Schwann cells to promote the injured neurons'survival and axonal regeneration of the transected spinal cord rat / 中华显微外科杂志

Objective To explore the effects of neurotrophin-3 genetically modified Schwann cells(NT-3-SCs) and neural stem cells(NSCs) combinative transplantation to promote the neurons'survival and axonal regeneration of the spinal cord transected rat. Methods After the transected spinal cord injury(SCI) model was established in SD rats,NT-3-SCs or LacZ report gene modified Scwhann cells(LacZ-SCs) were combinative transplanted with NSCs into the transected site.60 days later,fluorogold(FG) was injected into the caudal spinal cord fo the transected site.7days after FG injected,the sacrifice,cryosection and morphology serious studies were performed to observe the FG labeled neurons in the rostral spinal cord(RSC) of transected site,red nuclei(RN) and the sensorimotor cortex(SMC);The survival neurons in the L_1 Clark's nuclei(CN),RN and SMC were couut,and regenerated axons within or near the transected spinal cord observed. Results From more to less,the order of groups of the survival neurons in the CN,RN and SMC was NT-3-SCS & NSCs group,LacZ-SCs & NSCs group,experimental control group.In the NT-3-SCs & NSCs group and LacZ-SCs & NSCs group,there were 5-HT,CGRP and SP positive axons within or near the transected spinal cord.And some FGlabeled cells were found in RSC,RN and SMC. Conclusion Combinative grafting NSCs and NT-3-SCs could promote the neurons'survival and axonal regeneration of the spinal cord injured rat.

NT-3 genetically modified Schwann cells promote neural stem cells to differentiate into neuron-like cells / 中国病理生理杂志

AIM: To explore the effects of neurotrophin-3 (NT-3)-genetically modified Schwann cells (NT-3-SCs) on differentiation of neural stem cells (NSCs) into the neuron-like cells. METHODS: The NSCs were co-cultured with NT-3-SCs. Report gene LacZ genetically modified Schwann cells (LacZ-SCs) and normal SCs respectively in vitro. 7 d later, the differentiation of NSCs was studied by immunohistochemistry, and the percentage of neuron-like cells was calculated. RESULTS: NSCs differentiated to the GFAP-positive cells (glial-like cells) and NF-positive cells (neuron-like cells) in vitro. Compared to the normal SCs, NT-3-SCs more efficiently promoted NSCs to differentiate into the neuron-like cells. The effect of LacZ-SCs was as the same to the normal SCs. CONCLUSION: NT-3-SCs promote NSCs to differentiate into the neuron-like cells. [

THE BIOACTIVE ASSAY AND ELECTROPHORETIC ANALYSIS OF TWO MOLECULAR WEIGHT FRACTIONS FROM THE EXTRACTS OF SPINAL DORSAL HORN IN MORPHINE SPARED ROOT RAT / 解剖学报

10kD fraction from operated side of two groups of animal was tending towards increasing, especially the approximate 67kD protein content from operated side of morphine group of animal.\;