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find Keyword "小肠黏膜下层" 21 results
  • 小肠黏膜下层-骨髓间充质干细胞移植-治疗陈旧性心肌梗死

    摘要: 目的 探讨自体骨髓间充质干细胞(MSCs)小肠黏膜下层(SIS)支架复合物移植于陈旧性心肌梗死区域后细胞的存活、支架的降解情况及其对心功能的影响。 方法 将16只黑山羊按随机数字表法分为两组,每组8只。实验组:建立心肌梗死模型,抽取自体骨髓,经体外分离MSCs,进行培养、传代、BrdU标记、与SIS支架复合,并于心肌梗死6周时将MSCs-SIS复合物补片移植至陈旧性心肌梗死区;对照组:建立心肌梗死模型。于移植后6周行超声心动图、HE染色及免疫组织化学检测。 结果 MSCs-SIS植入心肌梗死区2周时在补片区可见大量炎性细胞浸润;6周时淋巴细胞浸润消失,SIS部分降解,移植区见大量移植细胞存活。MSCs-SIS植入体内后6周时,实验组每搏输出量(42.81±4.91 ml vs. 37.06±4.75 ml)、射血分数(59.20%±5.41% vs. 44.56%±4.23%)、室壁增厚率(54.51%±8.60% vs. 43.36%±8.91%)、舒张期E峰 (54.85±6.35 cm/s vs. 43.14±4.81 cm/s)显著高于对照组(Plt;0.05),左心室收缩期末容积(29.75±5.98 ml vs. 46.25±6.68 ml)、舒张期末容积(72.55±8.13 ml vs. 83.31±8.61 ml)显著低于对照组(Plt;0.05)。 结论 SIS作为支架移植MSCs有利于移植细胞存活,对陈旧性心肌梗死后心功能有明显的改善作用。

    Release date:2016-08-30 06:02 Export PDF Favorites Scan
  • EXPERIMENTAL STUDY ON CULTIVATION AND PURIFICATION OF Schwann CELLS AND ITS COMPOSITION WITH SMALL INTESTINAL SUBMUCOSA IN VITRO

    Objective To obtain highly purified and large amount of Schwann cells (SCs) by improved primary culture method, to investigate the biocompatibility of small intestinal submucosa (SIS) and SCs, and to make SIS load nerve growth factor (NGF) through co-culture with SCs. Methods Sciatic nerves were isolated from 2-3 days old Sprague Dawley rats and digested with collagenase II and trypsin. SCs were purified by differential adhesion method for 20 minutes and treated with G418 for 48 hours. Then the fibroblasts were further removed by reducing fetal bovine serum to 2.5% in H-DMEM. MTT assay was used to test the proliferation of SCs and the growth curve of SCs was drawn. The purity of SCs was calculated by immunofluorescence staining for S-100. SIS and SCs at passage 3 were co-cultured in vitro. And then the adhesion, proliferation, and differentiation of SCs were investigated by optical microscope and scanning electron microscope (SEM). The NGF content by SCs was also evaluated at 1, 2, 3, 4, 5, and 7 days by ELISA. SCs were removed from SIS by repeated freeze thawing after 3, 5, 7, 10, 13, and 15 days of co-culture. The NGF content in modified SIS was tested by ELISA. Results The purity of SCs was more than 98%. MTT assay showed that the SCs entered the logarithmic growth phase on the 3rd day, and reached the plateau phase on the 7th day. SCs well adhered to the surface of SIS by HE staining and SEM; SCs were fusiform in shape with obvious prominence and the protein granules secreted on cellular surface were also observed. Furthermore, ELISA measurement revealed that, co-culture with SIS, SCs secreted NGF prosperously without significant difference when compared with the control group (P gt; 0.05). The NGF content increased with increasing time. The concentration of NGF released from SIS which were cultured with SCs for 10 days was (414.29 ± 20.87) pg/cm2, while in simple SIS was (4.92 ± 2.06) pg/cm2, showing significant difference (P lt; 0.05). Conclusion A large number of highly purified SCs can be obtained by digestion with collagenase II and trypsin in combination with 20-minute differential adhesion and selection by G418. SIS possesses good biocompatibility with SCs, providing the basis for further study in vivo to fabricate the artificial nerve conduit.

    Release date:2016-08-31 04:07 Export PDF Favorites Scan
  • RECENT PROGRESS OF SMALL INTESTINAL SUBMUCOSA IN APPLICATION RESEARCH OF TISSUE REPAIR AND RECONSTRUCTION

    Objective To review the recent progress of the small intestinal submucosa (SIS) in application research of tissue repair and reconstruction. Methods The domestic and international articles on the SIS were reviewed and summarized. Results As a natural extracellular matrix, SIS has outstanding biological advantages, such as good mechanical property, tissue compatibility, and lower immunogenicity. SIS has been used to repair and reconstruct various types of tissue defects in animal models and clinical application, especially in the treatment of hernia, urinary system disease, and refractory skin trauma. The development of the tissue engineering technology expands the field of SIS repair and reconstruction and promotes the intensive study of SIS. However, the long-term effect of SIS in tissue repair and reconstruction still remains to be further observation, while the cell/SIS material construction by tissue engineering technology also needs more studies. Conclusion SIS has a widely promising application future in the tissue repair and reconstruction.

    Release date:2016-08-31 04:12 Export PDF Favorites Scan
  • EFFECT OF ACELLULAR PROCESS ON SMALL INTESTINAL SUBMUCOSA CELL RESIDUE AND GROWTH FACTOR CONTENT

    Objective To investigate the effect of machine-enzyme digestion method on the residual quantity of small intestinal submucosa (SIS) cell and the content of growth factors. Methods Fresh jejunum of pig within 4 hours after harvesting was prepared into SIS after machine digestion (removing placenta percreta, mucosa, and muscular layer), degrease,trypsinization, abstergent processing, and freeze drying. Samples were kept after every preparation step serving as groups A, B, C, D, and E, respectively (n=4 per group). And the fresh jejunum served as control group (group F, n=4). The histological alteration in each preparation process was reviewed with HE staining and scanning electron microscope (SEM). Nest-polymerase chain reaction (PCR) was used to determine the content of death associated protein 12 (DAP12), and enzyme-linked immunosorbent assay (ELISA) was appl ied to detect the content of vascular endothel ial growth factor (VEGF), basic fibroblast growth factor (bFGF), transforming growth factor β (TGF-β), tumor necrosis factor α (TNF-α). Results HE staining and SEM observation showed that there were residual cells in groups A and B, and there were no residual cells in groups C, D, and E. Nest-PCR test revealed the occurrence of DAP12 in each group. The contents of DAP12 in groups A, B, C, D, E, and F were (18.01 ± 9.53), (11.87 ± 2.35), (0.59 ± 0.27), (0.29 ± 0.05), (0.19 ± 0.04), and (183.50 ± 120.13) copy × 106/cm2. The content of DAP12 in group F was significant higher than that of other groups (P lt; 0.05), groups A and B was higher than groups C, D, and E (P lt; 0.05), there were significantdifferences among groups C, D, and E (P lt; 0.05), and there was no significant difference between groups A and B (P gt; 0.05). The ELISA test showed the content of VEGF, bFGF, TGF-β, and TNF-α in group A was significantly higher than that of groups B, C, D, and E (P lt; 0.05), and there was no significant difference among groups B, C, D, and E (P gt; 0.05). Conclusion SIS prepared by simple mechanical method has more residual cells, while the machine-enzyme digestion method can effectively remove the cells and significantly reduce the DAP12 content. This approach can not obviously reduce the growth factor content in SIS.

    Release date:2016-08-31 05:47 Export PDF Favorites Scan
  • CURRENT DEVELOPMENT OF BASIC RESEARCH AND CLINICAL USE OF SMALL INTESTINAL SUBMUCOSA

    Objective To summarize the basic research and the cl inical use of small intestinal submucosa (SIS), which is used as a degradable material for tissue repair. Methods Recent l iterature concerning SIS at home and abroad was extensively reviewed, and current developments of the basic research and the cl inical use of SIS were investigated. Results SIShad many biological advantages in tissue repair, and was used to repair various tissue defects in animal trials. It had successful outcomes in many cl inical trials to repair hernia, anal fistula and Peyronie diseases. And it also had good results at the early stage to treat dilation of the anastomosis, urethroplasty, hypospadias, and other diseases, however, the long-term follow-up was needed. Conclusion SIS is one kind of good material for tissue repair, and has promising future in the cl inical use.

    Release date:2016-08-31 05:47 Export PDF Favorites Scan
  • EXPERIMENTAL STUDIES ON CANINE BLADDER SMOOTH MUSCLE CELLS CULTURED O N ACELLULAR SMALL INTESTINAL SUBMUCOSA IN VITRO

    Objective To explore an effective method of culturing the canine bladder smooth muscle cells, observe the morphological characteristics of the bladder smooth muscle cells growing on acellular small intestinal submucosa(SIS) and offer an experimental basis for reconstruction of the bladder smooth muscle structure by the tissue engineering techniques. Methods The enzymetreatment method and the explant method were respectively used to isolate and harvest the canine bladder smooth muscle cells, and then a primary culture of these cells was performed. The canine bladder smooth musclecells were seeded on the SIS scaffold, and the composite of the bladder smooth muscle cells and the SIS scaffold were co cultured for a further observation. At 5,7 and 9 days of the co culture, the specimens were taken; the bladder smooth muscle cells growing on the SIS scaffold were observed by the hematoxylin staining, the HE staining, and the scanning electron microscopy. The composite of the bladder smooth muscle cells on the SIS scaffold was used as the experimental group, and the bladder smooth muscle cells with no SIS were used as the control group. In each group, 9 holes were chosen for the seeded bladder smooth muscle cells, and then the cells were collected at 3, 5 and 7 days for the cell counting after the enzyme treatment. Morphological characteristics of the cells were observed under the phase contrast microscope and the transmission electron microscope. Expression of the cell specific marker protein was assessed by the immunohistochemical examinaiton. The proliferation of the cells was assessed by the cell counting after the seeding on the SIS scaffold. Results The primary bladder smooth muscle cells that had been harvested by the enzyme treatment method were rapidly proliferated, and the cells had good morphological characteristics. After the primary culture in vitrofor 5 days, the bladder smooth muscle cells grew in confluence. When the bladder smooth muscle cells were seeded by the explant method, a small amount of the spindleshaped bladder smooth muscle cells emigrated from the explant at 3 days. The cells were characterized by the welldeveloped actin filaments inthe cytoplasm and the dense patches in the cell membrane under the transmissionelectron microscope. The immunohistochemical staining showed the canine bladdersmooth muscle cells with positive reacting α actin antibodies. The bladder smooth muscle cells adhered to the surface of the SIS scaffold, growing and proliferating there. After the culture in vitro for 5 days, the smooth muscle cells covered all the surface of the scaffold, showing a singlelayer cellular structure. The cell counts at 3, 5 and 7 days in the experimental group were(16.85±0.79)×105,(39.74±2.16)×105 and (37.15±2.02)×105, respectively. Thecell counts in the control group were(19.43±0.54)×105,(34.50±1.85)×105 and (33.07±1.31)×105, respectively. There was a significant difference between the two groups at 5 days (P<0.05). ConclusionWith the enzyme treatment method, the primarily cultured canine bladder smooth muscle cells can produce a great amount of good and active cells in vitro. The acellular SIS can offer an excellent bio scaffold to support the bladder smooth muscle cells to adhere and grow, which has provided the technical foundation for a further experiment on the tissue engineered bladder reconstruction. 

    Release date:2016-09-01 09:22 Export PDF Favorites Scan
  • INTESTINAL STEM CELLS AND TISSUE ENGINEERING TECHNIQUE USED IN TREATING INTESTINAL DISEASES

    Objective To review the development of researches on the stem cells and the tissue engineering technique used in the intestines. Methods We comprehensively reviewed the literature related to the stem cells and the tissue engineering technique used in the intestines, and summarized the conclusions made by the researches concerned. Results The researches on the stem cells and the tissue engineering technique used in the intestines were attractive topics in the recent years and obtained some developments, especially in the field dealing with the characteristics, proliferation and differentiation of the intestinal stem cells as well as the tissue engineering framework of the small intestinal submucosa in vivo. However, the markers for the differentiation of the intestinal stem cells were still a critical problem, which had not been solved yet, and besides, the researches on the intestinal tissue engineering were still in the initial stage. Conclusion There is a broad prospective application of the intestinal stem cells and the tissue engineering technique to the intestinal problem solution. Substantial achievements can be obtained in the treatment of the inflammatory bowel disease, inan exploration on the oncogenesis mechanism, and in the clinical application ofthe intestinal tissue engineering.

    Release date:2016-09-01 09:22 Export PDF Favorites Scan
  • COMPARISON BETWEEN EFFECTS OF SMALL INTESTINAL SUBMUCOSA GRAFT AND INSIDEOUT VEIN GRAFT ON REPAIRING PERIPHERAL NERVE DEFECTS

    Objective To make a comparison between the effects of the small intestinal submucosa (SIS) graft and the insideout vein graft on repairing the peripheral nerve defects. Methods SIS was harvested from the fresh jejunum of the quarantined pig by curetting the musoca, the tunica serosa, and the myometrium; then, SIS was sterilized, dried and frozen before use. Thirty-six male SD rats were divided into 3 groups randomly, with 12 rats in each group. Firstly, the 10mm defects in the right sciatic nerves were madein the rats and were respectively repaired with the SIS graft (Group A), the insideout autologous vein graft (Group B), and the autonerve graft (Group C). At 6 weeks and 12 weeks after the operations, the right sciatic nerves were taken out, and the comparative evaluation was made on the repairing effects by the histological examination, the neural electrophysiological examination, the computerized imaging analysis, and the Trueblue retrograde fluorescence trace. Results The histological examination showed that the regenerated nerve fibers were seen across the defects in the three groups at 6 weeks after the operations. The nerve fibers were denser, the formed nerve myelin was more regular, and the fibrous tissue was less in Group A than in Group B; the nerve regeneration was more similar between Group A and Group C. At 12 weeks after the operations, the neural electrophysiological examination showed that the neural conductive rate was significantly lower in Group B than in Groups A and C (Plt;0.05),but no statistically significant difference was found between Group A and GroupC (Pgt;0.05); the component potential wave amplitude was not statistically different between Group A and Group B; however, the amplitude was significantly lower in Groups A and B than in Group C (Plt;0.05). At 6 weeks and 12 weeks after the operations, the computerized imaging analyses showed that the axiscylinder quantity per area and the nerve-tissue percentage were significantly greaterin Group A than in Group B (Plt;0.05); the average diameter of the regenerated axis cylinder, the axiscylinder quantity per area, and the nerve-tissue percentage were significantly lesser in Group B than in Group C (Plt;0.05). At 12 weeks after the operations, the Trueblue retrograde fluorescence trace revealed that the positivelylabeled neurons were found in the lumbar 3-6 dorsal root ganglion sections in the three groups. Conclusion The small intestinal submucosa graft is superior to the autologous inside-out vein graft in repairing the peripheral nerve defects and it is close to the autonerve graft in bridging the peripheral nerve defects. Therefore, the small intestinal submucosa is a promising biological material used to replace the autonerve graft.

    Release date:2016-09-01 09:22 Export PDF Favorites Scan
  • AN EXPERIMENTAL STUDY OF USING PORCINE SMALL INTESTINAL SUBMUCOSA TO REPAIR RAT FULL SKIN DEFECT

    Objective To investigate the feasibility of using the porcine small intestinal submucosa (SIS) as a kind of the new tissue engineered materials to repair the rat full skin defect. Methods Twenty-eight 6-week-old SD rats weighing 300-350 g were selected in this experimental study. Two 2-cm-diameter round full skin defects were made on the rat back. The upper round defect was used as the blank group, which had no coverings, and the lower round defect was used as the SIS group. SIS that had been produced earlier was transplanted in the defected area. At 3 days, 1, 2, 3, 4, 6 and 8 weeks after the transplantation, the observation was made on the repaired skin conditions, the HE stain, and the repaired skin proportion. Results There was no infection in the two groups. The repairing speed in the SIS group was faster than that in the blank group at 2, 3, 4 and 6 weeks after the transplantation. The skin repaired by SIS was soft and elastic in texture, which had the same high level as the normal skin. The scar tissues in the SIS group were thinner than those in the blank group. The repaired skin proportions at 1, 2, 3, 4, 6 and 8 weeks after the transplantation were 15.72%±3.64%, 43.81%±4.87%, 65.35%±5.63%, 87.95%±4.78%,96.90%±6.89% and 100%, respectively in the SIS group, and 13.42%±5.63%,58.74%±4.48%,76.50%±5.23%,92.30%±5.75% and 100%, respectively in the blank group. Therewas a statistically significant difference between the two groups at 1, 2, 3 and 4 weeks after the transplantation(P<0.05). Under the microscope, the SIS-repaired skin was observed to have more keratinocytes and collagen tissues, whichwas familiar to the normal skin.Conclusion Porcine SIS can be used as a new kind of the tissue engineered materials to repair the full skin defect.

    Release date:2016-09-01 09:23 Export PDF Favorites Scan
  • EFFECTS OF BONE MARROW MESENCHYMAL STEM CELLS ENRICHED BY SMALL INTESTINAL SUBMUCOSAL FILMS ON CARDIAC FUNCTION AND COMPENSATORY CIRCULATION AFTER MYOCARCADIAL INFARCTION IN GOATS

    Objective To investigate effects of the autologous bone mesenchymal stem cells (MSCs) enriched by the small intestinal submucosa (SIS) film implantation on the myocardial structure, cardiac function, and compensator y circulation after myocardial infarction in the goats. Methods Sixteen black goats were selected and divided randomly into the control group (n=8)and the experimental group (n=8). The chronic myocardial infarction models were made by the ligation of the far end of the left anterior desc ending coronary artery. At the same time, MSCs were aspired from the thigh bone of the goats in the experimental group. MSCs were isolated by the centrifu gation through a percoll step gradient and purified by the plating culture and depletion of the non-adherent cells. Primary MSCs were cultured in the DMEM me dium supplemented with the fetal bovine serum in vitro. After that, the cultures were labeled by 5- BrdU. The active cells were transplanted into the SIS film. Six weeks after the ligation, the MSCs-SIS film was implanted by its being sutured onto the infarction area; whereas, the control group underwent a shamoperation. In both groups, echocardiographic measurements were performed before infarction, 6 weeks after infarction and 6 weeks after the MSC-collagen mplantion, respectively, to assess the myocardial structure and ca rdiac function. The left coronary artery angiography was performed with the digi tal subtraction angiography. Results In an assessment of the left ventricular function, at 6 weeks after operation, t he stroke volume and the ejection fraction of the control group and the experim ental group were 42.81±4.91, 37.06±4.75 ml and 59.20%±5.41%, 44.56%±4.23%, respectively (Plt;0.05). The enddisatolic volume and the endsystolic volume of the control group and the experimental group were 72.55±8.13, 83.31±8.61 ml and 29.75±5.98, 46.25±6.68 ml, respectively (Plt;0.05). The maximal velocity of peak E of contral group and experimental group were 54.8 5±6.35 cm/s and 43.14±4.81cm/s (Plt;0.01); and the maximal velocity of peak A o f control group and experimental grouop were 52.33±6.65 cm/s and 56.91±6.34 cm/s (Pgt;0.05). Echocowdiogr aphy sho wing a distinctly dilatation of left ventricle with the ventricular dyskinesia i n contral group, but without the ventricular dyskinesia in experimental group. T he selective-coronary evngiography revealed that the obvious compensatory circu l ation established between the anterior descending branch and the left circumflex branch in the experimental group. Conclusion Implantation of the autologus MSCs enriched by the SIS film can prevent dilatation of the left ventricular chamber and can improve the contractile ability of the myocardium, cardiac function, and collateral perfusion.

    Release date:2016-09-01 09:25 Export PDF Favorites Scan
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