Objective To investigate the ectopic bone formation of the chitosan/phosphonic chitosan sponge combined with human umbil ical cord mesenchymal stem cells (hUCMSCs) in vitro. Methods Phosphorous groups were introduced in chitosan molecules to prepare the phosphonic chitosan; 2% chitosan and phosphonic chitosan solutions were mixed at a volume ratio of 1 ∶ 1 and freeze-dried to build the complex sponge, and then was put in the simulated body fluid for biomimetic mineral ization in situ. The hUCMSCs were isolated by enzyme digestion method from human umbil ical cord and were cultured. The chitosan/phosphonic chitosan sponge was cultured with hUCMSCs at passage 3, and the cell-scaffoldcomposite was cultured in osteogenic medium. The growth and adhesion of the cells on the scaffolds were observed by l ight microscope and scanning electron microscope (SEM) at 1 and 2 weeks after culturing, respectively. The cell prol iferation was detected by MTT assay at 1, 2, 3, 4, 5, and 6 days, respectively. Bilateral back muscles defects were created on 40 New Zealand rabbits (3-4 months old, weighing 2.1-3.2 kg, male or female), which were divided into groups A, B, and C. In group A, cellscaffold composites were implanted into 40 right defects; in group B, the complex sponge was implanted into 20 left defects; and in group C, none was implanted into other 20 left defects. The gross and histological observations were made at 4 weeks postoperatively. Results The analysis results of phosphonic chitosan showed that the phosphorylation occurred mainly in the hydroxyl, and the proton type and chemical shifts intensity were conform to its chemical structure. The SEM results showed that the pores of the chitosan/phosphonic chitosan sponge were homogeneous, and the wall of the pore was thinner; the coating of calcium and phosphorus could be observed on the surface of the pore wall after mineral ized with crystal particles; the cells grew well on the surface of the chitosan/phosphonic chitosan sponge. The MTT assay showed that the chitosan/phosphonic chitosan sponge could not inhibit the prol iferation of hUCMSCs. The gross observation showed that the size and shape of the cell-scaffold composite remained intact and texture was toughened in group A, the size of the complex sponge gradually reducedin group B, and the muscle defects wound healed with a l ittle scar tissue in group C. The histological observation showed that part of the scaffold was absorbed and new blood vessels and new bone trabeculae formed in group A, the circular cavity and residual chitosan scaffolds were observed in group B, and the wound almost healed with a small amount of lymphocytes in group C. Conclusion The chitosan/phosphonic chitosan sponge has good biocompatibil ity, the tissue engineered bone by combining the hUCMSCs with chitosan/phosphonic chitosan sponge has the potential of the ectopic bone formation in rabbit.
Objective To investigate the effect of NGF on fracture heal ing, and to study the role of BMP-2 induced osteoblast. Methods Sixty cleaned male Kunming mice (aging 6-8 weeks and weighing 23-25 g) were made fracture models in the middle of femoral shaft and randomly divided into four groups (groups A, B, C and D, n=15). Fracture was treated with NGF/ normal sal ine, BMP-2, BMP-2 /NGF/normal sal ine, and normal sal ine in groups A, B, C and D, respectively. After 14, 21 and 28 days, the specimens were selected from 5 mice each group to do the biochemical and histological analysis. Beforethe mice were killed, the arteriovenous blood was taken from their eye-ball to test the ALP activity. Results After 14 days,21 days and 28 days, the gross observation showed that the size and hardness of bone tissue, and callus tissue growth increased in groups A, B and C order and were higher than those in group D; the X-ray films showed that the calcified area increased in groups A, B and C order and were higher than those in group D; the histological observation showed that the trabecular maturity increased in groups A, B and C order and were higher than those in group D. The osteoblast area, the gray degree value of the radiographs in callus tissue, the ALP contents of serum and callus tissue, calcium content of callus tissue and net weight of callus were higher in groups A, B and C than in group D. There were significant differences (P lt; 0.05) in osteoblast area and gray degree values of the radiographs at 14, 21 and 28 days; in ALP contents of serum at 14 days; in ALP contents of callus tissue at 14 days and 21 days; in calcium content of callus tissue at 21 days and 28 days among 4 groups. There were significant differences in net weight of callus between groups B, C and groups A, D at 14 days (P lt; 0.05). At 21 days and 28 days, the trabecular surface index of osteoblast, the average trabecular volume and the mean trabecular width decreased as time went on, having an increase order of groups A, B, C and was higher in groups A, B, C than in group D, showing significant differences among 4 groups (P lt; 0.05). Conclusion NGF promotes the heal ing of fractures. NGF possesses synergistic effect on ectopic bone formation induced by BMP-2.
【Abstract】 Objective To evaluate the effect on repairing composite defect of mandible and skin by pre fabricatedmusculocutaneous flap including ectopic bone induced by BMP-2 and collagen in rabbits’ latissimus dorsimuscle. Meth ods Twenty-four rabbits (4-6 weeks old) were randomly divided into 3 groups: experimental, control and blank control group (n=8 in each group). Composite carriers composed of BMP-2 and collagen I sponge were implanted into latissimus dorsi muscle pouches of rabbits. The bone formation was evaluated with roentgenography, ALP staining, Von Kossa staining, HE staining, toluidine blue staining and CD31 immunohistochemical labell ing of microvessels. After 6 weeks, the mandibular defect of 8 mm in diameter with local skin defect of 2 cm × 3 cm was made in experimental group, and a musculocutaneous flap including ectopic-induced bone was prefabricated to transfer and repair the composite defect. The mandibular defect of 8 mm in diameter without local skin defect was made in control and blank control group. Free ectopic-induced bone was used for the repair of mandibular defect in control group, but repairing was not performed in blank control group. All the samples were detected 6 weeks after operation for tetracycl ine fluorescent staining, X-ray, histological examination and bone quantity analysis to evaluate the effect. Results Bone formation induced by BMP-2/collagen composites were found as woven bone between 4 to 6 weeks. It showed that cartilaginous osteogenesis was the mainly type of bone formation. Microvessels could beseen in the bony tissues. The composite defects of mandible and skin were healed well in the experimental group. Major bony tissue were seen in the control group, while it still remained bony defect in the blank control group. The bone quantity analysis in the experimental, control, and blank control group were (1.594 ± 0.674), (0.801 ± 0.036), and (0.079 ± 0.010) mm2, there were significant differences between each groups (P lt; 0.05). Conclusion Prefabrication of musculocutaneous flap including boneinduced by the composite of BMP-2 and collagen is feasible and prevalent. It can be regarded as vascularized bone graft and used in repairing composite defect of bone and skin.
Objective To review the recent advances in transforming growth factor-β(TGF-β) super family study and its role in new bone formation. Methods The latest original articles related to this subject were retrieved extensively,especially the effect of TGF-β, bone morphogenetic proteins(BMPs) and activin(ACT) on distractionosteogenesis. Results TGF-β, BMPs and ACT play important roles in prompting new bone formation and each of them has different effects. Among them, TGF-β can stimulate the proliferation of osteoblast and synthesis ofextra cellular medium; BMPs can initiate the differentiation of interstitial cell toosteocyte; then ACT displays the combine effect of above two factors. Conclusion TGF-β superfamily can regulate new bone formation and thus shorten the course of mandibular distraction osteogenesis.
Aiming at the problem of scaffold degradation in bone tissue engineering, we studied the feasibility that controlls bone defect repair effect with the inhomogeneous structure of scaffold. The prediction model of bone defect repair which contains governing equations for bone formation and scaffold degradation was constructed on the basis of analyzing the process and main influence factors of bone repair in bone tissue engineering. The process of bone defect repair and bone structure after repairing can be predicted by combining the model with finite element method (FEM). Bone defect repair effects with homogenous and inhomogeneous scaffold were simulated respectively by using the above method. The simulation results illustrated that repair effect could be impacted by scaffold structure obviously and it can also be controlled via the inhomogeneous structure of scaffold with some feasibility.
ObjectiveTo investigate the long-term effectiveness of microgenia treatment with natural coral, and the volume relationship between the implant and the new bone. MethodsA retrospective analysis was made on the cl inical data of 12 patients with microgenia treated by horizontal genioplasty with natural coral implantation between October 1998 and September 2004. There were 7 males and 5 females with the average age of 18.5 years (range, 15-28 years). The cephalometric data on the photo and X-ray films were collected at pre-operation, immediate after operation, and last follow-up. The vertical distance between lower lip point and inferior mental point, the vertical distance between inferior alveolar point and inferior mental point, the vertical distance of the osteotomic gap, and the distance between pogonion and the line between nasion and inferior alveolar point were measured, and the recurrence rates were caculated. ResultsAll incisions healed by first intention, and no complication occurred. All patients were followed up 8-12 years (mean, 9.2 years). X-ray films showed that the natural coral was replaced by new bone formation in the mental osteotomic gap; the new bone had good strength and firmly attached to the mentalis and periosteum. At last follow-up, the vertical distance between lower lip point and inferior mental point, the vertical distance between inferior alveolar point and inferior mental point, and the vertical distance of the osteotomic gap were decreased when compared with the ones at immediate after operation, and the mean recurrence rates were 6.1%, 22.9%, and 31.7%, respectively; and no obvious change was observed in the vertical distance between pogonion and the line between nasion and inferior alveolar point. Nine patients were satisfied with operation effectiveness; chin morphology was adjusted again in 3 patients. ConclusionNatural coral is a safe and effective bone substitute with enough stable new bone and good long-term effectiveness.
ObjectiveTo investigate the osteogenic differentiation potential and the biological features of synovium-derived mesenchymal stem cells (SMSCs) in vitro and to observe the osteogenic capability of the composite scaffolds constructed with SMSCs and hydroxylapatite/chitosan/poly L-latic acid (HA/CS/PLLA) in vivo. MethodSMSCs were separated and cultured with adherent method and enzymatic digestion method. Specific phenotypes of SMSCs were detected by flow cytometry after purification. Then, SMSCs were identified by oil red O staining, alkaline phosphatase (ALP) staining, and alizarin red staining after adipogenic and osteogenic induction, respectively. In vitro experiments:the expressions of osteogenic related genes[osteocalcin (OCN), collagen type I, ALP, and Runx-2] were detected by real-time fluorescent quantitative PCR at 1, 7, 14, 21, and 28 days after osteogenic induction; ALP activities were also determined by ELISA at 1, 3, 5, 7, 9, and 11 days after osteogenic induction; meanwhile, extracellular matrix calcium mineralization was detected by alizarin red S method at 7, 14, 21, and 28 days after osteogenic induction; the normal SMSCs were harvested as control group. In vivo experiments:Twenty-four Sprague Dawley (SD) rats were randomly divided into experimental group (n=12) and control group (n=12) . The 3rd passage SMSCs were seeded on HA/CS/PLLA to construct composite scaffolds, after adhesion for 72 hours in vitro, the composite scaffolds were implanted into the right thigh muscle of 12 SD rats as experimental group; HA/CS/PLLA was implanted into the right thigh muscle of the other 12 SD rats as control group. At 4 and 8 weeks after implantation, the scaffolds were harvested for X-ray film and histological examination to observe ectopic bone formation. ResultsThe positive rates of CD147, CD90, CD105, and CD44 were more than 95%, while the positive rates of CD117, CD34, CD14, and CD45 were less than 10%. Oil red O staining demonstrated red lipid droplets in the cytoplasm, and alizarin red staining showed flaky red calcifications, and cytoplasm was dyed brown by the ALP staining. The mRNA expressions of collagen type I, ALP, and Runx-2 were significantly increased at 7 days after osteogenic induction, and OCN mRNA expression was significantly increased at 14 days after osteogenic induction; ALP activity was significantly higher at 5, 7, 9, 11 days after osteogenic induction in the SMSC-induced group than control group and reached a maximum at 7 days (P<0.05) . Calcium mineralization was significantly enhanced at 14 days after osteogenic induction, and gradually increased with time (P<0.05) ; moreover, it was significantly higher in the SMSC-induced group than control group (P<0.05) . X-ray and histological examination demonstrated that the new bone tissues formed in 2 groups, but bone formation content of the experimental group was significantly more than that of the control group at 4 and 8 weeks after implantation (P<0.05) . ConclusionsSMSCs can be induced into osteoblasts both in vitro and in vivo, so SMSCs might be a promising seed cells for bone tissue engineering.
ObjectiveTo observe the effect of stromal vascular fraction cells (SVFs) from rat fat tissue combined with sustained release of recombinant human bone morphogenetic protein-2 (rhBMP-2) in promoting the lumbar fusion in rat model.MethodsSVFs were harvested from subcutaneous fat of bilateral inguinal region of 4-month-old rat through the collagenase I digestion. The sustained release carrier was prepared via covalent bond of the rhBMP-2 and β-tricalcium phosphate (β-TCP) by the biominetic apatite coating process. The sustained release effect was measured by BCA method. Thirty-two rats were selected to establish the posterolateral lumbar fusion model and were divided into 4 groups, 8 rats each group. The decalcified bone matrix (DBX) scaffold+PBS, DBX scaffold+rhBMP-2/β-TCP sustained release carrier, DBX scaffold+SVFs, and DBX scaffold+rhBMP-2/β-TCP sustained release carrier+SVFs were implanted in groups A, B, C, and D respectively. X-ray films, manual spine palpation, and high-resolution micro-CT were used to evaluate spinal fusion at 8 weeks after operation; bone mineral density (BMD) and bone volume fraction were analyzed; the new bone formation was evaluated by HE staining and Masson’s trichrome staining, osteocalcin (OCN) was detected by immunohistochemical staining.ResultsThe cumulative release amount of rhBMP-2 was about 40% at 2 weeks, indicating sustained release effect of rhBMP-2; while the control group was almost released within 2 weeks. At 8 weeks, the combination of manual spine palpation, X-ray, and micro-CT evaluation showed that group D had the strongest bone formation (100%, 8/8), followed by group B (75%, 6/8), group C (37.5%, 3/8), and group A (12.5%, 1/8). Micro-CT analysis showed BMD and bone volume fraction were significantly higher in group D than groups A, B, and C (P<0.05), and in group B than groups A and C (P<0.05). HE staining, Masson’s trichrome staining, and immunohistochemistry staining for OCN staining exhibited a large number of cartilage cells with bone matrix deposition, and an active osteogenic process similar to the mineralization of long bones in group D. The bone formation of group B was weaker than that of group D, and there was no effective new bone formation in groups A and C.ConclusionThe combination of sustained release of rhBMP-2 and freshly SVFs can significantly promote spinal fusion in rat model, providing a theoretical basis for further clinical applications.
Objective To investigate the effects of R-spondin 2 (Rspo2) on the osteogenic differentiation of bone marrow mesenchymal stem cells (BMSCs) and bone mineral content in ovariectomized mice. Methods BMSCs were extracted from the bone marrow of the long bones of 7 4-week-old female C57BL/6 mice using whole bone marrow culture and passaged. After the cell phenotype was identified by flow cytometry, the 3rd generation cells were co-cultured with 10, 20, 40, 80, and 100 nmol/L Rspo2. Then, the cell activity and proliferative capacity were determined by cell counting kit 8 (CCK-8), and the intervention concentration of Rspo2 was screened for the subsequent experiments. The osteogenic differentiation ability of BMSCs was detected by alkaline phosphatase (ALP) staining, and the mRNA levels of osteogenesis-related genes [RUNX family transcription factor 2 (Runx2), collagen type Ⅰ alpha 1 (Col1), osteocalcin (OCN)] were detected by real-time fluorescence quantitative PCR (RT-qPCR). In addition, 18 10-week-old female C57BL/6 mice were randomly divided into sham operation group (sham group), ovariectomy group (OVX group), and OVX+Rspo2-intervention group (OVX+Rspo2 group), with 6 mice in each group. The sham group only underwent bilateral back incision and suturing, while the other two groups established osteoporosis mouse models by bilateral ovarian castration. Then, the mice were given a weekly intraperitoneal Rspo2 (1 mg/kg) treatment in OVX+Rspo2 group and saline at the same dosage in sham group and OVX group. After 12 weeks of treatment, the body mass and uterus mass of the mice were weighed in the 3 groups to assess whether the OVX model was successfully prepared; the tibia bones were stained with HE and immunohistochemistry staining to observe the changes in tibial bone mass and the expression level of Runx2 protein in the bone tissues. Blood was collected to detect the expressions of bone metabolism markers [ALP, OCN, type Ⅰ procollagen amino-terminal peptide (PINP)] and bone resorption marker [β-collagen degradation product (β-CTX)] by ELISA assay. Micro-CT was used to detect the bone microstructure changes in the tibia, and three-dimensional histomorphometric analyses were performed to analyze the trabeculae thickness (Tb.Th), trabeculae number (Tb.N), trabeculae separation (Tb.Sp), and bone volume fraction (BV/TV). Results CCK-8 assay showed that Rspo2 concentrations below 80 nmol/L were not cytotoxic (P>0.05), and the cell viability of 20 nmol/L Rspo2 group was significantly higher than that of the control group (P<0.05). Based on the above results, 10, 20, and 40 nmol/L Rspo2 were selected for subsequent experiments. ALP staining showed that the positive cell area of each concentration of Rspo2 group was significantly larger than that of the control group (P<0.05), with the highest showed in the 20 nmol/L Rspo2 group. The expression levels of the osteogenesis-related genes (Runx2, Col1, OCN) significantly increased, and the differences were significant between Rspo2 groups and control group (P<0.05) except for Runx2 in the 40 nmol/L Rspo2 group. In animal experiments, all groups of mice survived until the completion of the experiment, and the results of the body mass and uterus mass after 12 weeks of treatment showed that the OVX model was successfully prepared. Histological and immunohistochemical staining showed that the sparseness and connectivity of bone trabecula and the expression of Runx2 in the OVX group were lower than those in the sham group, whereas they were reversed in the OVX+Rspo2 group after treatment with Rspo2, and the differences were significant (P<0.05). ELISA assay showed that compared with the sham group, the serum bone metabolism markers in OVX group had an increase in ALP and a decrease in PINP (P<0.05). After Rspo2 intervention, PINP expression significantly reversed and increased, with significant differences compared to the sham group and OVX group (P<0.05). The bone resorption marker (β-CTX) was significantly higher in the OVX group than in the sham group (P<0.05), and it was significantly decreased in the OVX+Rspo2 group when compared with the OVX group (P<0.05). Compared with the sham group, Tb.Th, Tb.N, and BV/TV significantly decreased in the OVX group, while Tb.Sp significantly increased (P<0.05); after Rspo2 intervention, all of the above indexes significantly improved in the OVX+Rspo2 group (P<0.05) except Tb.Th. Conclusion Rspo2 promotes differentiation of BMSCs to osteoblasts, ameliorates osteoporosis due to estrogen deficiency, and promotes bone formation in mice.