OBJECTIVE: To study the effect of collagen/hydroxyapatite(CHA) instead of autogenous bone transplantation on repairing the mandibular defects. METHODS: Ten Chinese experimental minipigs were made 2 cm bone defects in diameter in the mandible. The experimental group was implanted CHA, while the control group was implanted autogenous bone. The basic parameters of bone dynamics were determined by bone metrology. RESULTS: There was remarkable difference between the two groups in the mean distance and mineralization apposition rate of double label bands marked by tetracycline(P lt; 0.05), while the mean osteoid seam width and mineralization lag time had no remarkable difference(P gt; 0.05). It suggested that CHA had good osteogenesis. The collagen in CHA offered the condition of bone mineralization, and the mineralization peak of experimental group was present at 4 weeks earlier than that of control group (8 weeks). CONCLUSION: CHA may be a substitute of autogenous bone transplantation in repairing the mandibular defects, and the second operation for offering the implanting bone is avoidable, therefore, CHA may be an ideal material to repair bone defects.
Objective To const ruct art ificial derm is on co llagen2chondront in sulfate (CS) scaffo ld. Methods Co llagen w as compounded from CS and 1-ethyl-3-(13-dimethyl am inop ropyl) carbodiim ide (EDC) used as a cro sslinker. Physical and chem ical p ropert ies of the scaffo ld w ere characterized by elect ron spect ro scopy fo r chem ical analysis (ESCA ) , scanning elect ron m icrograph (SEM ) , HE staining, and mechanical p roperty test. Derm is fibroblasts w ere iso lated from human embryo and w ere cultured on the scaffo lds. Th rough h isto logical test ing, immunoh istochem ical test ing and biochem ical p roperty test ing, the p roperty of co llagen-CS art ificial derm is w as compared w ith that of colla gen spongy art ificial derm is. Results Co llagen-CS had th ree2dimension st ructure w ith po rous. Compared w ith co llagen scaffo ld, themechanical p roperty of co llagen2CS scaffo ld imp roved. There w eremo re po lar group s on the surface of co llagen-CS scaffo ld. The fibroblasts on the co llagen-CS scaffo ld grew w ell, and art ificial derm is w as const ructed. Conclus ion Co llagen-CS art ificial derm is has mo re excellent bio logical and mechanical p ropert ies. F ibroblasts at tach and p ro liferate bet ter on co llagen2CS scaffo ld than on co llagen scaffo lds.
Objective:To detect collagen I synthesis activity in the vitreous of PVR induced by macrophages in rabbits. Methods:PC Ⅲ (Procollagen Ⅲ ) concentrations were measured by radioim- munoassay in the vitreous samples of 14 rabbit eyes with experimental PVR and 14 control eyes. Results:The mean PC Ⅲ concentration on the 7th day after macrophage injection as 257.58mu;g/L(range,236.04~266.88mu;g/L,n= 4)and significantly increased on the 14th day later. On the 28th day the mean concentration of PC Ⅲ as 912.23mu;g/L (range, 881.36~943.10mu;g/L ;n= 2). There was a significant difference between the 7th and the 14th, 21st of 28th day statistically(P<0.05). PC Ⅲ was not detected in control eyes. Conclusion:The PC Ⅲ level in the vitreous of rabbit eyes with experimental PVR increased significantly from the 7th to the 28th day after macrophages injection and is well consistent with the time course of scarring and the development of traction retinal detachment in the PVR model. (Chin J Ocul Fundus Dis,1996,12: 43-44)
Objective To build artificial dermis by using the acellular dermis matrix(ADM), collagen membrane and collagen gel as scaffolds. Methods The fibroblasts were isolated by enzyme from infant skin and were cultivated in the DMEM medium. After 14 days when the fibroblasts were seeded into 3 different scaffolds, the autografts were detected by HE staining, transmission electron microscope and scanning electron microscope. Results ①The fibroblasts obtained from the fullskin by enzyme could be passaged in the Dulbecco’s modified Eagle’s medium 2high gluco se w ith 10% calf bovine serum. ②A layer of fibroblastsw ere found on the surface of th ree different scaffo lds, the fibroblasts could grow into the co llagen membrane and the co llagengel, but could no t be found in the inner of ADM. ③A rt ificial derm is cont racted slightly by inoculat ing fabricat ion on collagen membrane and ADM , and the fibroblasts on them w ere no t act ive in proliferat ing; but the art ificial derm is built by the collagen gel cont racted obviously. Conclus ion The art ificial dermis built by ADM , collagen membrane and collagen gel as scaffolds have a preferable structure for an ideal subst itute of sk n, and can beused as the graft in the next experiments.
Objective To investigate the effects of transformin growth factor-beta (TGF-beta;) and interferon-gamma(IFN-gamma;)on collagen synthesis in human retinal pigment epithelial cells(RPE). Methods TGF-beta;(0.01~10 ng/ml),recombinant IFN-gamma;(100~10000 U/ml)or a combination of two were added to cultures of RPE and collagen synthesis of the cells were measured by3 H-proline incorporation assay,indirect immunofluorescence staining and dot-blot hybridization. Results TGF-beta; at 10 ng/ml increased cell uptake of 3 H-proline to 130.87% of controls.It intensified Type IV,I and Ⅲ collagen fluorescent staining as well as mRNA expression.IFN-gamma; at 10000 U/ml caused 54.72% inhibition of 3 H-proline uptake by RPE,and decreased TypeⅣ collagen fluorescent staining as well as mRNA expression of Type Ⅳ,I and Ⅲ collagens. Conclusion TGF-beta; and IFN-gamma; stimulated and inhibited collagen synthesis of human RPE,respectively.The combination of two had antagonistic effects.IFN-gamma; can be used for inhibition of collagen synthesis of RPE. (Chin J Ocul Fundus Dis, 1999, 15: 245-248)
Abstract For the purpose of studying the effects on wound healing of three new bioelectret composites (BC) which are composed ofcollagen polyvinyl alcohol and epidermal growth factor (EGF), 30 rabbits were divided into 5 groups. Three wounds in round shape (1.8 cm in diameter) were made in each side of the back of the rabbits. The wounds of 1~3 groups were treated by one of the three BC respectively, group 4 treated by SDAg, and group 5 were treated by Normal saline as control. From observation of the growth of the granulation tissue, the reepithelization and the pathological assessment, it was shown that the quality of wound healing in all BC treated wounds was better than that in SDAg or the control. It indicated that the BC benefited the wound healing, and this might also be due to its bioelectric effects and the direct effects from growth factor.
Ventricular assist device can provide the heart with a nonload circumstance and improve hemodynamics and energy metabolism of ischemic myocardium.With ventricular assistance,not only multiple organ failure is improved but also cardiac function and myocardial injury are resumed. In recent years, studies found that ventricular assistance have an impact on the myocardial interstitium on its structural protein-typeⅠ,Ⅲcollagens and their metabolism conditioning systems.It reverse adverse myocardial remodeling and improve cardiac function by changing myocardial collagen content and distribution.
Objective To study the allograft effect of two kinds of tissue engineered oral mucosa lamina proprias on skin fullthickness wounds. Methods The cultured Wistar rat oral mucosa fibroblasts (OMF) were incorporated into collag en or chitosancollagen to construct the tissue engineered oral mucosa laminaproprias, and then the OMFs were labeled with BrdU. The fullthickness round skin defects were made with a round knife (diameter, 0.8 cm) on the backs of 36 Wistar rats (2125 weeks old), which were divided into 2 experimental groups: the fibroblastpopulated collagen lattices (FPCL) group (grafted by FPCLs) and the fibroblastpopulated chitosan collagen lattices (FPCCL) group (grafted by FPCCLs), and the control group (only covered with gauges). All the wounds were observed by the naked eyes or the light microscope, and were measured 4, 7, 14, and 21 days postoperatively. Results There were no infection during the wound healing period. At 7 days after the grafting, the wounds in the 3 groups were covered by scab and/or gauze; at 14 days, the gauze and scab on the wounds in the three groups were all replaced by the new epidermis naturally except one scab each in the FPCCL group and the control groups,which was replaced at 17 days.All the centers of the new epidermis were measurable as the pink red points. At 21 days, all the new skins were smooth without hairs, and their color was similar to the normal one. At 4, 7, and 14 days,there was an indication that the wound diameters became significantly smaller in the three groups; but after the 14th day, there was no significant indication of this kind. At 7 days, the wound diameter in the FPCL group was significantly smaller than that in the FPCCL group and the control group (Plt;0.01). Under the lightmicroscope, at 4 days postoperatively, the decayed tissue on the surfaces of the recipient wounds in the FPCL group and the FPCCL group was separated from the lower granular tissue in which there were many inflammatory cells, fibroblasts, and new vessels. There was a similar-phenomenon in the control group. Each skin wound in the three groups was only partly keratinocyted at 7 days postoperativel y. The recipient wounds were wholly keratinocyted with when rete ridges observed at 14 and 21 days, but in the control group the wounds were keratinocyted with no rete ridges. Fibers in the new dermis were thin. The OMFs with Brdu appeared in the granular tissue and new dermis at 4, 7, 14, and 21 days postoperatively, which could be illustr ated by the immunohistochemical staining. The positive OMFs and the granular tissue joined in the repair of the skin defe cts without any allergic reaction during the period of the wound healing. Conclusion The oral mucosa fibroblasts as the new seed cells can join i n the repair of the skin defects effectively and feasibly. The fibroblastpopul ated collagen lattices and the fibroblastpopulated chitosan collagen lat tices can repair skin defects effectively and feasibly, too. And the quality of the new skins was better in the two experimental groups than in the control group.
Objective To isolate,culture and expand bone marrow mesenchymal stem cells (MSCs) in vitro,induce MSCs to differentiate directionally towards chondrocytes,and provide experimental basis for clinical application of MSCs and construction of tissue engineering tracheal cartilage. Methods Cultured MSCs were isolated from bone marrow of Sprague-Dawley rats,purified using adherence separation,and identified by flow cytometry analysis. Transforming growth factor β1 (TGF-β1)and insulin-like growth factor 1 (IGF-1) were used as main induction factors to induce MSCs to differentiate directionally towards chondrocytes. The expression of collagen typeⅡwas evaluated by immunocytochemical staining 21 days after induction. Light microscope and electron microscope were used to observe tiny and ultrastructural changes of the cells before and after induction. Results The expression of collagen typeⅡwas positive by immunocytochemical staining 21 days after induction. MSCs were fusiform before induction under light microscope and electron microscope. After induction,the cells became larger,polygon,star-shaped or triangular. Transmission electron microscope showed that the cells had abundant organelles,larger nuclei and more nucleoli after induction. Conclusion Abundant organelles,larger nuclei and more nucleoli are the ultrastructure changes of chondrocytes differentiated from MSCs,indicating that the cells are active in differentiation and metabolism.
ObjectiveTo observe the bladder regeneration by collagen membrane scaffolds for bladder construction to find a new alternative scaffold material. MethodsTwelve healthy adult male Sprague Dawley rats, weighing 300-350 g, were randomly divided into collagen membrane scaffold group (experimental group, n=6), and sham operated group (control group, n=6). Upper hemicystectomy was performed and collagen scaffold was used for reconstruction in experimental group, while the bladder was turned over without bladder resection in control group. At 30 days after operation, the animals were sacrificed and grafts were harvested;HE staining and Masson staining were used to evaluate the bladder regeneration, immunohistochemical staining was performed with α-smooth muscleactin (α-SMA) and von Willebrand factor (vWF) markers to evaluate the percentage of α-SMA positive area and capillary number. ResultsThe rats of 2 groups survived to the end of the experiment, and no urine leakage or infection was observed in experimental group. Histologically, control group presented a pattern of normal bladder structure, experimental group presented a pattern of almost normal urothelium with a small amount of smooth muscle cells and a thin layer of undegraded collagen fibers. Immunohistochemically, experimental group showed ingrowth of smooth muscle fibers and new capillary formation along the collagen membrane scaffolds. The percentage of α-SMA positive area and capillary number in experimental group were significantly lower than those in control group (6.49%±2.14% vs. 52.42%±1.78% and 4.83±0.75 vs. 14.83±1.17, respectively)(t=40.40, P=0.00; t=17.62, P=0.00). ConclusionThe collagen membrane scaffolds could be an effective scaffold material for bladder reconstruction.