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find Author "GUOQuanyi" 4 results
  • RELATIONSHIP BETWEEN SUBCHONDRAL BONE RECONSTRUCTION AND ARTICULAR CARTILAGE REGENERATION IN A RABBIT MODEL OF SPONTANEOUS OSTEOCHONDRAL REPAIR

    ObjectiveTo explore the relationship between subchondral bone reconstruction and articular cartilage regeneration in a rabbit model of spontaneous osteochondral repair. MethodsTwenty-four 6-month-old New Zealand white rabbits were included. The osteochondral defects (4 mm in diameter and 3 mm in depth) were created in the trochlear groove of the unilateral femur, which penetrated the subchondral bone without any treatment. The rabbits were sacrificed at 1, 4, 12, and 24 weeks after operation, respectively. The specimens were obtained for macroscopic, histological, and immunohistochemical observations. According to the International Cartilage Repair Society (ICRS) histological scoring, the effect of cartilage repair was assessed. The histomorphometrical parameters of subchondral bone were analyzed by micro-CT scan and reconstruction, and the relationship between cartilage repair and the histomorphometrical parameters of the subchondral bone were also analyzed. ResultsOsteochondral defects could be repaired spontaneously in rabbit model. With time, defect was gradually filled with repaired tissue, subchondral bone plate under the defect region gradually migrated upward. Bone mineral density, bone volume fraction, tissue mineralized density, trabecula number, and trabecula thickness were increased, while trabecula spacing was decreased. Significant difference was found in the other parameters between different time points (P<0.05) except for trabecula thickness between at 4 and 12 weeks after operation (P>0.05). Histological examination showed that fibrous repair was predominant with rare hyaline cartilage. With time, ICRS scores increased gradually, showing significant differences between other time points (P<0.05) except for between at 4 and 12 weeks after operation (P>0.05). Among the histomorphometrical parameters of subchondral bone, the trabecula spacing was negatively correlated with ICRS score (r=-0.584, P=0.039), and the other histomorphometrical parameters were positively correlated with ICRS score (r=0.680-0.891). ConclusionThere is relevant correlation as well as independent process between cartilage regeneration and subchondral bone reconstruction in the rabbit model of spontaneous osteochondral repair, and fast subchondral bone remodeling may adversely affect articular cartilage repair.

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  • AN IN VITRO STUDY ON THREE-DIMENSIONAL CULTIVATION WITH DYNAMIC COMPRESSIVE STIMULATION FOR CARTILAGE TISSUE ENGINEERING

    ObjectiveTo investigate the effect of three-dimensional cultivation with dynamic compressive stimulation on promotion of cartilage growth in vitro, by constructing tissue engineered cartilage with three-dimensional porous articular cartilage extracellular matrix (ECM) scaffolds laden with rabbit chondrocytes and performing mechanical stimulation by compressive stress in bioreactor. MethodsChondrocytes of healthy adult New Zealand rabbits were isolated, and passage 2 chondrocytes were seeded onto three-dimensional porous articular cartilage ECM scaffolds for 5 days pre-cultivation, and then were divided into 2 groups:Group A continued static culture as control; group B (dynamic culture condition) underwent dynamic compressive strain stimulation (compressive strain of 15%, frequence of 1 Hz) in a bioreactor. Cell viability and distribution in scaffolds were observed; the glycosaminoglycan (GAG) content, collagen content, and total DNA content were measured after 3 weeks of culturing; and elastic modulus was evaluated by mechanical test. ResultsLaser scanning confocal microscopy indicated that cells grew well and evenly distributed in the scaffold of group B, while poor cells growth and loss of staining in the central region of the scaffolds were observed in group A. Scanning electron microscopy showed that chondrocytes possessed good adhesion, proliferation, and growth on the scaffolds of group B; while the number of chondrocytes was significantly reduced, and cells scattered in group A. Biochemical composition analysis showed that collagen, GAG, and DNA contents of cell-scaffold constructs were (675.85±27.93) μg/mg, (621.72±26.75) μg/mg, and (16.98±3.23) μg/sample in group B, and were (438.72±6.35) μg/mg, (301.63±30.51) μg/mg, and (10.18±4.39) μg/sample in group A respectively, which were significantly higher in group B than in group A (t=18.512, P=0.000;t=17.640, P=0.000;t=2.790, P=0.024). Mechanical testing indicated that the elastic modulus of group B[(0.67±0.09) MPa] was significantly higher than that of group A[(0.49±0.16) MPa] and cell-free scaffolds[(0.43±0.12) MPa] (P < 0.05). ConclusionMimetic compressive stress with three-dimensional dynamic conditions created in the bioreactor is superior to the ordinary static three-dimensional cultivation, it can provide the optimal environment for chondrocytes on the ECM scaffolds, which may be a good way to construct tissue engineered cartilage in vitro.

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  • IN VITRO EVALUATION OF CHONDROCYTES COMBINED WITH Wharton's JELLY OF HUMAN UMBILICAL CORD ORIENTED SCAFFOLD

    ObjectiveTo assess the role and effect of Wharton's jelly of human umbilical cord oriented scaffold on chondrocytes co-cultured in vitro. MethodsChondrocytes from shoulder cartilage of adult New Zealand rabbits were isolated,cultured,amplified,and labelled using fluorescent dye PKH26.Cells were extracted from human umbilical cord tissue using wet-grinding chemical technology to prepare the Wharton's jelly of human umbilical cord oriented scaffold by freeze-drying and cross-linking technology.Second generation of chondrocytes were cultured with Wharton's jelly of human umbilical cord oriented scaffold.Inverted microscope and scanning electron microscope (SEM) were used to observe the cell distribution and adhesion on the scaffold; extracellular matrix secretion of the chondrocytes were observed by toluidine blue and safranin O staining.Cells distribution and proliferation on the scaffold were assessed by fluorescein diacetate-propidium iodide (FDA-PI) and Hoechst33258 staining.The viability of the in vitro cultured and PKH26 fluorescence labelled chondrocytes on the scaffold were assessed via fluorescence microscope. ResultsInverted microscope showed that the cells cultured on the scaffold for 3 days were round or oval shaped and evenly distributed into space of the scaffold.SEM observation showed that large number of cultured cells adhered to the pores between the scaffolds and were round or oval shape,which aggregated,proliferated,and arranged vertically on longitudinally oriented scaffold at 7 days after culture.Histological observation showed that cells distributed and proliferated on the scaffold,and secreted large amount of extracellular matrix at 7 days.Scaffold could guide cell migration and proliferation,and could effectively preserve and promote the secretion of extracellular matrix.Cell viability assessments at 3 days after culture showed most of the adhered cells were living and the viability was more than 90%.PKH26 labelled chondrocytes were seen,which distributed uniformly along the pore of oriented scaffold,and exuberantly proliferated. ConclusionWharton's jelly of human umbilical cord oriented scaffold favors adhesion,proliferation,and survival of chondrocytes.It possesses a favorable affinity and cell compatibility.Thus,it is an ideal scaffold for cartilage tissue engineering.

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  • FLUORESCENCE DISTRIBUTION IN BONE AND CARTILAGE TISSUE BY SECTIONING OF FROZEN UNDECALCIFIED BONE

    ObjectiveTo introduce a technique of frozen sections for undecalcified bone and discuss its feasibility by observing the fluorescence distribution of the bone and cartilage. MethodsThe male Sprague Dawley transgenic rats at the age of 8 weeks, which express green fluorescent protein were selected to isolate the whole knee sectioned by the undecalcified bone frozen section technique. Under the fluorescence and light microscopy, the fluorescence and structure were observed within the organization of slice. Immunohistochemical staining (collagen type Ⅰ and Ⅱ), HE staining, toluidine blue staining, and Alizarin red staining were performed to observe the distribution of fluorescent substance and cartilage and bone structure. ResultsThe thickness of sections prepared by this technology was 6 μm. General observation showed that the structure of sectioned joint was complete. Under the light microscope, the morphology of cartilage cells, the arrangement of subchondral bone, and trabecular bone traveling could be clearly distinguished. Under fluorescence microscope, green fluorescence was shown in the joint soft tissue, cartilage tissue, and bone tissue; collagen type Ⅰ expressed in the bone tissue, collagen type Ⅱ in cartilage tissue. HE staining and toluidine blue staining could clearly distinguish the morphology of the cartilage layer. Alizarin red staining showed the structural integrity of subchondral bone plate and the organization within the meniscus, and proximal tibia cortical bone continuity. ConclusionThe fluorescence distribution can be directly observe in the bone and cartilage by sectioning of frozen undecalcified bone. This new technology can shorten the cycle of preparing sections.

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