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BACKGROUND: Though there were many experiments addressing repairing osteochondral defects before, faulty restoration occurred at coupling interfaces. OBJECTIVE: To investigate the feasibility of repairing of osteochondral composite defects in rabbit knees with animal-origin osteochondral scaffold combined with bone marrow mesenchymal stem cells (BMSCs)/chondrocytes.METHODS: New Zealand white rabbits were randomly divided into the experimental, control and blank groups and prepared for unilateral knee joint osteochondral defects. Animal-origin osteochondral scaffold combined with BMSCs/chondrocytes, animal-origin osteochondral scaffold and no material was implanted to repair the defects in the experimental, control and blank groups, respectively. Healing condition was evaluated by gross observation, hematoxylin-eosin staining, and toluidine blue staining at 4, 8, and 12 weeks after operation. RESULTS AND CONCLUSION: At 12 weeks after operation, gross observation showed the defects were repaired completely without local depression and the regenerated tissues were fused with surrounding tissues in the experimental group. Hematoxylin-eosin staining and toluidine blue staining revealed that there were many new hyaline cartilages in the cartilage defects in which columnar cells were lined well and cartilage lacuna was obviously, also, there were many bony tissues in the bone defects. The regeneration cartilage, the underlying subchondral bone and host bone were coupled completely. The toluidine blue positive rate and histologic scores of the experimental group were superior to those of the control and blank groups (P < 0.05). It is demonstrated that animal-origin osteochondral scaffold combined with BMSCs/chondrocytes is an ideal method to repair defects between cartilage and the underlying subchondral bone.
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BACKGROUND: The development of cartilage tissue engineering provides novel ideas for treatment of articular cartilage defects and implements construction of tissue-engineered cartilage in vivo.OBJECTIVE: To investigate the feasibility of constructing tissue-engineered osteochondral composite through bone marrow stem cells(BMSCs) cultured on the poly(lactide-co-glycolic acid) (PLGA), which was modified with collagen and cellular growth factors.METHODS: PLGA was made by phase separation technique, composited with collagen Ⅱ, basic fibroblast growth factor, and transforming growth factor-β1. The BMSCs of passage 3 were cultured on the above scaffolds. Thirty-six SD rats were randomly divided into experimental, control, and blank groups. These three groups received implantation of BMSCs composited with growth factors and collagen-PLGA, implantation of BMSCs composited with collagen-PLGA, and implantation of collagen-PLGA into the muscle, respectively. At 4, 8, and 12 weeks after surgery, cell directional differentiation and growth were examined by gross observation, hematoxylin-eosin staining, toluidine blue staining, collagen Ⅱ staining, and scanning electron microscope.RESULTS AND CONCLUSION: Gross observation showed that there were many chondroid tissues in the experimental group and fibrous tissues in the control and black groups. Stainings and electron microscope revealed that many chondroblasts and a few osteoclasts appeared in the composite of the experimental group. Toluidine blue and collagen Ⅱ stainings were positive in the experimental group and negative in the control and blank groups. These findings demonstrate that PLGA modified with collagen had a good cellular compatibility. BMSCs cultured on PLGA, which was modified with collagen and cellular growth factors, can construct the tissue-angineered osteochondral composite in rats.
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BACKGROUND:There is a great difference of grade size of macrobead in various joint diseases; therefore, it can be used to determine state of joint diseases initially.OBJECTTVE : To explore the physical properties of synovial fluid nano-particles and their correlations with the occurrence of knee osteoarthritis (KOA).DESIGN: Controlled experimental study based on synovial fluid samples.PARTICIPANTS: A total of 99 synovial fluid samples were collected from normal subjects and KOA patients with various KOA severities. Among them, 41 were normal synovial fluids, 58 were KOA.METHODS: Synovial fluid samples from individuals with and without KOA were obtained. Using the technology of quasi-elastic laser scattering, nano-particle size and its distribution were estimated, and the dynamic/static light scattering spectrometric analyzer allowed the measurement of particles Zeta potentials. A correlation analysis between the particle size, Zeta potentials and the onset of KOA was attempted.MAIN OUTCOME MEASURES:① Grade size and distribution of microsome in synovial fluid;② Zeta potentials and distribution of microsome in synovial fluid; ③ grade size and clinical correlation of microsome in synovial fluid.RESULTS: ① The mean nano-particle diameter in the synovial fluid of KOA patients were significantly greater than those of normal joints [(297±84), (63±23) nm, P < 0.001]. The distribution curve of KOA synovial fluid nano-particle size was normal knee and (-15.84 ±3.34) mV of KOA patients, and there was a significant difference (P < 0.001). This suggestedthat the Zeta potentials in the synovial fluid of KOA patients were significantly greater than those of normal joints. ③ The average particle size and Zeta potential of synovial fluid strongly correlated with the integrity of the joint of KOA (rp =0.797 2,0.631 9, P< 0.01).CONCLUSION: The nano-particle size and Zeta potential of synovial fluid are significantly correlated with the development of KOA, and this can reflect the severity of KOA.
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BACKGROUND: People have concerned with the effect of fibroblast growth factor biological protein sponge on the repairing effect of traumatic ulcer.OBJECTIVE: To observe the repairing effect of fibroblast growth factor biological protein sponge on the repairing effect of traumatic ulcer and its possible adverse reactionDESIGN: Grouping comparison observation.SETTING: Staff Room of Physiology, Medical College of Jinan University PARTICIPANTS: Totally 40 cases of traumatic ulcer accepted the treatment in the First Hospital of Jinan Univerity between March 2004 and May 2005 were recruited. Patients with diabetes mellitus and infection on the whole body were excluded. Traumatic ulcer lay in the shank. Patients were randomly divided into experimental group and control group with 20 in each group.INTERVENTIONS: In the experimental group (n=20), sterilized fibroblast growth factor biological protein sponge was used and in the control group (n=20), sterilized petrolatum gauze dressing was used on the wound.Change the gauze dressing once per day until the wound healed. Drugs,which affected wound growth, were not used on the whole body and at the local part. Wound healing status was evaluated 1, 2 and 3 weeks after changing the drugs (The secretion of a wound was divided into: nothing, a little, middling, a great deal. frontier reaction of wound was divided into:nothing, slight, middling, severe.). Pigment deposition and scar was recorded after wound healing.MAIN OUTCOME MEASURES: Healing time of ulcer, healing course of the wound and adverse reaction of the patients in the two groupsRESULTS: Totally 40 patients of the two groups entered result analysis.Wound healing status after treatment of the patients in the two groups: The rate of wound healing in 3 weeks in the experimental group was significantly higher than that in the control group [95% (19/20),55% (11/20),χ2=8.533,P < 0.05]. Wound secretion and peripheral inflammatory reaction of the wound in the experimental group was obviously milder than that of the control group; there was no obvious adverse reaction and scar of the wound found in the two groups.CONCLUSION:FGF biological protein sponge can promote the healing of traumatic ulcer; shorten the healing time without scar and adverse reaction.This dressing is convenient, safe, and non-irritative.