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find Keyword "Annulus fibrosus" 4 results
  • IN VITRO STUDY ON OSTEOGENIC POTENTIAL OF ANNULUS FIBROSUS IN GOAT CERVICAL INTERVERTEBRAL DISC

    Objective To explore the osteogenic potential of cervical intervertebral disc fibroblasts in vitro, to investigate the regulatory factors of recombinant human bone morphogenetic protein 2(rhBMP-2) and tumor necrosis factor α(TNF-α) on osteogenic phenotype of fibroblasts and to discuss the condition that facilitates osteogenesis of fibroblasts. Methods Theannulus fibroblasts cell lines of experiment goats were established in vitro and the biologicspecificity was found. According to different medias, 4 groups were included in this experiment: control group, TNF-α group ( 50 U/ml TNF-α), rhBMP-2 group (0.1 μg/ml rhBMP-2) and TNF-α+rhBMP-2 group (50 U/ml TNF-α+0.1 μg/ml rhBMP-2). Thefibroblasts were incubated in the media for about 3 weeks,and then the markers for osteogenic features were investigated by biochemistry, histochemistry observations. Results rhBMP-2 and TNF-α had no effect on the proliferation of fibroblasts from the experiment goats. rhBMP-2 or TNF-α could stimulate fibroblasts to secrete alkaline phosphatase and collagen type Ⅰ. The combined use of rhBMP-2 and TNF-α or the single use of rhBMP-2 could make fibroblasts to secrete osteocalin and the morphological changes of the fibroblasts were very obvious. Histochemical study of the nodules with specific new bone labeler(Alizarin red S) revealed positive reaction, denoting that the nodules produced by the fibroblasts werebone tissues. There was statistically significant difference(Plt;0.05) inALP activity between 3 experimental groups and control group and in secretion of osteocalcin between rhBMP-2 group, TNF-α+rhBMP-2 group and control group. Conclusion The results point out clearly that rhBMP-2 can induce theosteogenic potential of annulus fibroblasts in vitro.

    Release date:2016-09-01 09:28 Export PDF Favorites Scan
  • DEVELOPMENT AND CHALLENGES OF ANNULUS FIBROSUS TISSUE ENGINEERING

    ObjectiveTo review the biomaterial and clinical prospects of annulus fibrosus tissue engineering. MethodsThe recent literature concerning annulus fibrosus tissue engineering, including cell source, bioactive molecules, and biomaterial was extensively reviewed and summarized. ResultsMesenchymal stem cells (MSCs) is an ideal seed cells. When annulus fibrosus cells and MSCs in the ratio of 2:1 are cultured, it shows the closest mRNA expression levels of annulus fibrosus-related markers. Bioactive molecules can be divided into 4 types:growth factors, morphogens, catabolic enzyme inhibitors, and intracellular regulators. They play an active role in promoting the synthesis of extracellular matrix, and maintaining intervertebral disc homeostasis and a balance between anabolic- and catabolic process in the disc. Based on the source, biological materials can be divided into natural materials, synthetic materials, and composite materials. The mechanical properties of the annulus fibrosus is an important basis for material design. Up to now, none of these scaffold materials is accepted as the most suitable one. The selection of scaffold materials is still to be further studied. The development of novel composite biomaterials is a trend. ConclusionThe annulus fibrosus tissue engineering for the anulus fibrosus regeneration and repair will bring very broad prospects for clinical application in future.

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  • EXPERIMENTAL STUDY ON EFFECT OF THREE DIFFERENT OPERATIVE WAYS OF ANNULUS FIBROSUS INCISION ON INTERVERTEBRAL DISC BIOMECHANICAL STRENGTH

    ObjectiveTo discuss the effect of three different ways of annulus fibrosus incision on the biomechanical strength of intervertebral disc. MethodsA total of 30 goats underwent intervertebral disc nucleus pulposus extraction at L3, 4 and L4, 5 by the working channel in group A (n=10), by circular incision in group B (n=10), and by square incision in group C (n=10). The body weight, male and female ratio, age, intraoperative blood loss, and wound healing time were recorded and compared among 3 groups. The survival rate and wound healing situation were observed after operation. At 24 weeks after operation, the goats were sacrificed, MRI images were taken to observe the signal intensity of nucleus pulposus. The disc height of L3, 4 and L4, 5 was measured to calculate the loss of disc height; biomechanical test was used to assess the strength of the disc and anulus. Histological staining was also conducted to observe the repair effect at L4, 5. ResultsThere was no significant difference in body weight, male to female ratio, age, intraoperative blood loss, and wound healing time among groups (P>0.05). All goats survived to the end of the experiment. MRI examination showed decreased signal intensity in 3 groups, indicating intervertebral disc degeneration. According to modified Thompson classification method, the degree of intervertebral disc degeneration of group A was significantly higher than that of groups B and C (P<0.05), but no significant difference was found between groups B and C (P>0.05). Difference was not significant in intervertebral space height before operation among 3 groups (P>0.05). But after 24 weeks, the intervertebral space height in group A was significantly higher than that in groups B and C (P<0.05), and the intervertebral space height loss in group A was significantly lower than that in groups B and C (P<0.05). The biomechanical strength in group A was also significantly higher than that in groups B and C (P<0.05), but no significant difference was found between group B and group C (P>0.05). HE and Masson staining showed good continuity of annulus fibrosus and clear layers in group A; poor continuity of annulus fibrosus and obvious scar tissues were observed in groups B and C. ConclusionApplication of working channel may have less destruction of annulus fibrosus, it plays a positive role in the maintenance of biomechanical strength and repair of annulus fibrosus.

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  • EXPERIMENTAL STUDY ON THREE DIMENSINONAL CULTURE OF RABBIT ANNULUS FIBROSUS CELLS ON KLD-12 POLYPEPTIDE NANOFIBER GEL IN VITRO

    ObjectiveTo investigate the feasibility to culture rabbit annulus fibrosus cells on the KLD-12 polypeptide nanofiber gel so as to search for the seed cells and the scaffolds for tissue engineering. MethodsThe rabbit annulus fibrosus cells were isolated with pancreatin and cultured; the cells at passage 3 were seeded on the KLD-12 polypeptide nanofiber gel to prepare the KLD-12 polypeptide/annulus fibrosus cells gel. The cell morphology change was observed by inverted microscope. The cell counting kit 8 (CCK-8) was used to detect the cell proliferation, and Calcein-AM/propidium iodide (PI) fluorescent staining to observe the cell vitality. The alcian blue method was used to measure the glycosaminoglycan (GAG) content, immunofluorescence technique to observe the collagen type II level, and real-time fluorescence quantitative PCR (RT-qPCR) to measure the mRNA expressions of Aggrecan and collagen type II. ResultsThe cells on the scaffolds grew well, showing round shape on the scaffolds and spindle or fusiform shape at the edge of the scaffold. The cell proliferation exhibited increasing trend with time, and it was significantly higher at 14 days than the other time points (P < 0.05), and on KLD-12 polypeptide nanofiber gel than on blank gel (P < 0.05). The ratios of living cells were 89.32%±8.58% at 5 days and 97.81%±1.09% at 14 days, showing no significant difference (t=-1.962, P=0.097). The GAG content gradually increased with culture time, reached the peak at 8 days, and then gradually decreased; the GAG content at 5, 8, and 11 days was significantly higher than that at 2 and 14 days (P < 0.05). The level of collagen type II was normal. The mRNA expressions of collagen type II and Aggrecan could be measured at 5 and 14 days; the relative expression levels of collagen type II and Aggrecan mRNA were significantly higher at 14 days than 5 days (P < 0.05). ConclusionThe rabbit annulus fibrosus cells on KLD-12 polypeptide nanofiber gel are able to grow well and to produce extracellular matrix, so KLD-12 polypeptide nanofiber gel has the potential to serve as a scaffold for the treatment of intervertebral disc degeneration.

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