Thirteen patients with intractable nonunions of fractures of long bones were sucessfully treated by a combination of internal fixation and implantation of bBMP. There was an average of 1.5 operative procedures per patient in an attempting to establish reunion prior to bBMP implantation. Union was obtained in 12 of the 13 patients exapt in one who gained success from establish the second attempt. The average time requited to union was 4.7 months. No complication was seen.
Objective To study the expression changes of vascular endothel ial growth factor (VEGF), basic fibroblast growth factor (bFGF), and bone morphogenetic protein 2 (BMP-2) in femoral neck fracture, traumatic, and non-traumatic avascular necrosis of femoral head (ANFH), and to study the relationshi p between the expressions of VEGF, bFGF, BMP-2mRNA and bone mass so as to explore the pathogenesis of ANFH and provide the exprimental basis for individual treatment of ANFH. Methods Femoral head specimens were obtained from 59 donors undergoing total hip replacement, including 22 cases of traumatic ANFH (group A, 13 cases of Ficat stage III and 9 cases of Ficat stage IV), 19 cases of non-traumatic ANFH (group B, 11 cases of Ficat stage III and 8 cases of Ficat stage IV; 10 cases of steroid-induced ANFH, 7 cases of alcohol ic ANFH, and 2 cases of unexplained ANFH), and 18 cases of fresh femoral neck fracture (group C). There was no significant difference in the general data among 3 groups (P gt; 0.05). The bone mineral density (BMD) at weight-bearing area of the femoral head was measured with dual energy X-ray absorptiometry. The pathological changes were observed by using optical microscope and scanning electron microscope. The percentage of empty bone lacuna and the percentage of trabecular bone area were calculated. The expressions of VEGF, bFGF, and BMP-2 mRNA in femoral head were detected by use of in-situ hybridization technique. Results The BMD in groups A and B were significantly lower than that in group C (P lt; 0.05), and there was significant difference between group A and group B (P lt; 0.05). In the necrosis area of groups A and B, the bone trabecula was rarefactive and not of integrity, with a great number of empty bone lacuna. In healthy area, more fiber hyperplasia was observed in group A, the prol iferated and hypertrophic fat cells in the medullary cavity in group B. Scanning electron microscope showed that many osteocytes underwent fatty degeneration and necrosis, and that the prol iferation of fat cells in bone matrix was observed in groups A and B. While in group C, the femoral head had intact articular cartilage and intact bone trabeculae, and osteocytes were clearly seen. The percentage of empty bone lacuna was significantly higher (P lt; 0.05) and the percentage of trabecular bone area was significantly lower (P lt; 0.05) in groups A and B than group C; and there was significant difference in the percentage of empty bone lacuna between groups A and B (P lt; 0.05). The expressions of VEGF, bFGF, and BMP-2 mRNAwere significantly lower in groups A and B than group C (P lt; 0.05), and the expressions of BMP-2 and bFGF mRNA in group A were significantly higher than those in group B (P lt; 0.05). There were positive l inear correlation between the expressions of VEGF mRNA, bFGF mRNA, BMP-2 mRNA and the BMD and percentage of trabecular bone area, respectively. While there were significantly negative correlation between the expressions of VEGF mRNA, bFGF mRNA, BMP-2 mRNA and percentage of empty bone lacuna. Conclusion The repair capacity of local femoral head in traumatic ANFH is ber than that in non-traumatic ANFH. The expressions of VEGF mRNA, bFGF mRNA, and BMP-2 mRNA decl ine in traumatic and nontraumatic ANFH.
Objective To study the adenovirus-mediated human bone morphogenetic protein-2 gene (Ad-hBMP-2)transferred to the intervertebral disc cells of the New Zealand rabbit in vitro. Methods The cells of New Zealand white rabbitswere isolated from their lumbar discs. The cells were grown in the monolayer and treated with an adenovirus encoding the LacZ gene (Ad-LacZ) and Ad-hBMP-2 (50,100, 150 MOI,multiplicity of infection) in the Dulbecco’s Modified Eagle Medium and the Ham’s F-12 Medium in vitro. Three days after the Ad-hBMP-2 treatment,the expression of hBMP-2 in the cells that had been infected by different dosesof MOI was determined by immunofluorescence and the Western blot analysis, and the expression was determined in the cells with the Ad-LacZ treatment in a dose of 150 MOI. Six days after the Ad-hBMP-2 treatment, mRNA was extracted for the reverse transcription polymerase chain reaction (RT-PCR) and the difference was detected between the control group and the culture group that was treated withAd-hBMP-2 in doses of 50, 100 and 150 MOI so that the expressions of aggrecan and collagen ⅡmRNA could be observed. Results The expression of hBMP-2 in the cells was gradually increased after the transfection in an increasing dose, which was observed by immunofluorescence and the Western blot analysis. At 6 days the aggrecan and collagen type Ⅱ mRNA expressions were up-regulated by Ad-hBMP-2 after the transfection at an increasing viral concentration in the dosedependent manner. Conclusion The results show that Ad-hBMP-2 can transfect the rabbit intervertebral disc cells in vitro with a high efficiency rate and the expression of hBMP-2 after theinfection is dose-dependent in the manner. AdhBMP-2 after transfection can up-regulate the expression of aggrecan and collagen Ⅱ mRNA at an increasing viral concentration.
Objective To construct the recombinant adenovirus bearing human transforming growth factor β1(TGF-β1) and bone morphogenetic protein 7 (BMP-7) genes, and investigate its co-expression in the marrow stromalstemcells (MSCs) and bioactivity effect. Methods Using the replication defective adenovirus AdEasy as a carrier, MSCs were infected by the high-titer-level recombinant adenovirus taking TGF-β1 and BMP-7 genes. Immunocytochemistry, in situ hybridization,reverse transcription-polymerase chain reaction (RT-PCR), and hexuronic acid level test were used to detect the coexpression of the exogenous genes and to analyze their effect transfection on directive differentiation of MSCs. Results The immunocytochemistry staining showed that the brown coarse grains were situated in the cytoplasm of the most MSCs 72 h after infection. Procollagen ⅡmRNA in the cells was detected by the in situ hybridization, and the content of hexuronic acid in the culture mediumwas significantly increased 10 days after infection compared with the level before infecton (Plt;0.01). Conclusion The recombinant adenovirus bearing human TGF-β1 and BMP-7 genes can be constructed, and the exogenous gene can be coexpressed in MSCs, which may offer a novel approach to thelocal combination gene therapy for repairing joint cartilage defects.
ObjectiveTo investigate the bone regeneration potential of cell-tissue engineered bone constructed by human bone marrow mesenchymal stem cells (hBMSCs) expressing the transduced human bone morphogenetic protein 2 (hBMP-2) gene stably. MethodsThe full-length hBMP-2 gene was cloned from human muscle tissues by RT-PCR and connected into a vector to consturct a eukaryotic expression system. And then the gene expression system was transduced to hBMSCs with lipidosome. hBMSCs were transfected by hBMP-2 gene (experimental group) and by empty plasmid (negative control group), untransfected hBMP-2 served as blank control group. RT-PCR, dot-ELISA, immunohistochemical analysis and ALP activity were performed to compare and evaluate the situation of hBMP-2 expression and secretion after transfection. hBMSCs transfected by hBMP-2 gene were seeded on hydroxyapatite (HA) and incubated for 4 days to construct the hBMP-2 gene modified tissue engineered bone, and then the tissue engineered bone was observed by the inverted phase contrast microscope and scanning electron microscope. Then the hBMP-2 gene modified tissue engineered bone (group A, n=3), empty plasmid transfected hBMSCs seeded on HA (group B, n=3), hBMSCs suspension transfected by hBMP-2 gene (group C, n=3), and hBMP-2 plasmids and lipidosome (group D, n=3) were implanted into bilateral back muscles of nude mice. The osteogenic activity was detected by HE staining and alcian blue staining after 4 weeks. ResultsAt 48 hours and 3 weeks after transfection, RT-PCR and dot-ELISA results indicated that the transfected hBMSCs could express and secrete active and exogenous hBMP-2 stably. The immunohistochemical staining was positive, and the ALP activity in the transfected hBMSCs was significantly higher than that in two control groups (P < 0.05). The transfected hBMSCs had a good attaching and growing on the three-demension suface of HA under inverted phase contrast microscope and scanning electron microscope. In vivo study indicated that a lot of new bone formation was obviously found at 4 out of 6 sides of back muscles in group A. Some new bone formation at both sides of back muscles was observed in 1 of 3 mice in group B. No new bone formation was found in group C. A few new bone formation was observed at one side of back muscles in group D. ConclusionThe tissue engineered bone constructed by hBMP-2 gene modified hBMSCs and HA is able to express and secrete active hBMP2 stably and can promote new bone formation effectively in muscles of nude mice.
OBJECTIVE: To construct a co-expressing vector of human bone morphogenetic protein 2 (BMP-2) and osteoprotegerin (OPG) and to determine the expression of BMP-2 and OPG in myoblast C2C12. METHODS: Using the isolated total RNA from osteosacoma cell line MG63 as a template, the cDNA encoding region of human OPG was amplified by reverse transcription-polymerase chain reaction (RT-PCT) method and cloned into sites EcoR 1 and BamH I of mammalian expressing vector pIRES2-EGFP, and the cDNA encoding region of human BMP-2 was cloned into endonucleases site BstX I. Then the recombinant plasmid pIRES2-BMP-2-OPG was transformed into C2C12 cell line, the expression of OPG and BMP-2 were determined by Western blot assay. RESULTS: The sequence of OPG cDNA obtained was the same as that reported, recombinant plasmid pIRES2-BMP-2-OPG was constructed successfully. Human OPG and BMP-2 co-expression cell line C2C12 was selected and confirmed by Western blot analysis. CONCLUSION: The co-expressing vector of OPG and BMP-2 is constructed and can expressed stably in myoblast C2C12. The co-expression of human OPG and BMP-2 may be logical approach for treatment of osteoporosis and bone metastasis.
Objective To evaluate the host immune reaction against adenovirus mediated human bone morphogenetic protein 2 (Adv-hBMP-2) gene therapy in repairof tibial defects. Methods Twelve goats were made 2.1 cm segmental defects in he tibial diaphysis and divided into 2 groups. AdvhBMP2 transfected marrow mesenchymal stem cells(MSCs) and untransfected MSCs were implanted into the defect sites of transfected group(n=7) and untransfected group (n=5), respectively. The defect repair was observed by X-ray films after 4, 8, 16 and 24 weeks of transplantation and cellular and humoral immune reactions to adenovirus were assayed before implantation and after implantation. Results More bony callus was found in the bone defects of transfected group. The healing rates were 6/7 in transfected group and 2/5 in untransfected group, respectively at 24 weeks after implantation. The mixed culture of lymphocytes and MSCs showed that the lymphocytes stimulation indexes (SI) increased 14 days after implantation, and there was significant difference between the transfected group (4.213±1.278) and the untransfected group(-0.310±0.147,Plt;0.05); SI decreased after 28 days, but there was no significant difference between the transfected group (2.544±0.957) and the untransfected group (3.104±0.644,Pgt;0.05). After 14, 28, 49, and 120 days of treatment, the titer values of neutralizing antibody against Adv-hBMP-2 (log0.1) were 2.359±0226, 2.297±0.200, 2.214±0.215 and 2.297±0.210 in transfected group, and -0.175±0.335, -0.419±0.171, 0±0.171 and 0.874±0.524 in untransfected group, being significant differences betweentwo groups(Plt;0.05). Conclusion Adenovirus mediated BMP-2gene therapy can cause cellular and humoral immune reactions against adenovirus, which can eliminate the influence of adenoviral genes and proteins within a certain period.
Objective To study the effect of combined use of autologous micromorselized bone with bone morphogenetic protein(BMP) and type Ⅰ collagen graft on the treatment of segmental bone defects. Methods The bulk bone of rabbit iliac crest was ground into micromorselized bone, which was combined with BMP and type Ⅰ collagen. The model of 1.5 cm bone defect was established in the middle shaft of the radius. Fifty-six rabbits were assigned to four repairing methods: autologous micromorselized bone graft with BMP and type Ⅰ collagen, autologous micromorselized bone graft with type Ⅰ collagen, autologous micromorselized bone graft alone, and control group. The defect-repairing capability of each group was assessed by radiographic, histological, bone densitometry and biomechanical studies. Results X-ray manifested that at the end of 8 weeks after operation, the bone defect treated with autologous micromorselized bone graft with BMP and type Ⅰ collagen was repaired completely,and at the end of 12 weeks after operation the bone defect treated with autologous micromorselized bone and type Ⅰ collagen was cured completely, but the bonedefect treated with autologous micromorselized alone was completely repaired. No healing was found in the control group. In the bone densitometry detection, the material with BMP exhibited the best defectrepairing capability in terms of amount increased and quality of the new bone at the end of 8 weeksand 12 weeks. The group with BMP has the best mechanical strength of all groupsat the end of 12 weeks. Conclusion Autologous micromorselized bone graft with BMP/type Ⅰ collagen and autologous micromorselized bone graft with type Ⅰ collagen prove to be effective in repairing segmental bone defects. The autologousmicromorselized bone combined BMP and typeⅠcollagen is an excellent bone repairing material considering the satisfactory osteogenesis, osteoconduction, and osteoinduction seen in this method.
Objective To investigate the effects of exogenous bone morphogenetic protein(BMP) and transforming growth factor-β(TGF-β) on biomechanical property for ulna of fracture healing.Methods Thirty-six adult rabbits were made the model of right ulnar fracture and treated locally with TGF-β/PLA, BMP/PLA,TGF-β+BMP/PLA or PLA(as control group). Fracture healing was evaluated by measurement of the mechanical parameters and geometric parameters.Results As compared with control group, the geometric parameters, the bending broken load, the ultimatebending strength, the bending elastic modulus, the ultimate flexural strength, the flexural elastic modulus, the ultimate compressing strength, the compressingelastic modulus, and the ultimate tensile strength for ulna of fracture healingincreased significantly in the treatment groups(P<0.01). These parameters were higher in TGF-β+BMP/PLA group than in TGF-β/PLA group or in BMP/PLA group andin TGF-β/PLA group than in BMP/PLA group(P<0.05). There was no significant difference in bone density between the treatment groups and control group. Conclusion Local application of exogenous TGF-β and BMP canincrease the callus formation and enhance biomechanical strength of bone after fracture healing. A combination of TGF-β and BMP has synergetic effect in enhancing fracture healing.
Objective To study the vascularization of the compositeof bone morphogenetic protein 2 (BMP-2) gene transfected marrow mesenchymal stem cells (MSCs) and biodegradable scaffolds in repairing bone defect. Methods Adenovirus vector carrying BMP-2 (Ad-BMP-2) gene transfected MSCs and gene modified tissue engineered bone was constructed. The 1.5 cm radial defect models were made on 60 rabbits, which were evenly divided into 4 groups randomly(n=15, 30 sides). Different materials were used in 4 groups: Ad-BMP-2 transfected MSCs plus PLA/PCL (group A), AdLacz transfected MSCs plus PLA/PCL (group B), MSCs plus PLA/PCL (group C) and only PLA/PCL scaffolds (group D). The X-ray, capillary vessel ink infusion, histology, TEM, VEGF expression and microvacular density counting(MVD) were made 4, 8, and 12 weeks after operation. Results In group A after 4 weeks, foliated formed bones image was observed in the transplanted bones, new vessels grew into the bones, the pores of scaffolds were filled with cartilage callus, osteoblasts with active function grew around the microvessels, and VEGF expression and the number of microvessels were significantly superior to those of other groups, showing statistically significant difference (Plt;0.01); after 8 weeks, increasingly more new bones grew in the transplanted bones, microvessels distended and connected with each other, cartilage callus changed into trabecular bones; after 12 weeks, lamellar bone became successive, marrow cavity recanalized, microvessels showed orderly longitudinal arrangement. In groups B and C, the capability of bone formation was weak, the regeneration of blood vessels was slow, after 12 weeks, defects were mostly repaired, microvessels grew among the new trabecular bones. In group D, few new vessels were observed at each time, after 12 weeks, broken ends became hardened, the defectedarea was filled with fibrous tissue. Conclusion BMP-2 gene therapy, by -upregulating VEGF expression, indirectly induces vascularization ofgrafts,promotes the living of seed cells, and thus accelerates new bone formation.