Objective To observe whether Cyclo-RGDfK (Arg-Gly-Asp-D-Phe-Lys) could enhance the adhesion of myofibroblast to decellularized scaffolds and upregulate the expression of Integrin αVβ3 gene. Methods Myofibroblast from the rat thoracic aorta was acquired by primary cell culture. The expression of Vimentin and α-smooth muscle actin(α-SMA) has been detected by immunoflurescent labeling. Decellularized valves have been randomly divided into three groups (each n=7). Group A (blank control): valves do not receive any pretreatment; Group B: valves reacted with linking agent NEthylN(3dimethylaminopropyl)carbodiimide hydrochloride (EDC) for 36 hours before being seeded; Experimental group: Cyclo-RGD peptide has been covalently immobilized onto the surface of scaffolds by linking agent EDC. The fifth generation of myofibroblast has been planted on the scaffolds of each group. The adhesion of myofibroblast to the scaffolds was evaluated by HE staining and electron scanning microscope. The expression of Integrin αVβ3 was quantified by halfquantitative reverse transcriptionpolymerase china reaction (RT-PCR). Results We can see that myofibroblast has exhibited b positive staining for Vimentin and α-SMA. Besides, it has been shown that the expression of Integrin αVβ3 was much higher in the experimental group than that of the group A and group B(Plt;0.05). There was no statistically difference in group A and group B (P=0.900). Conclusion RGD pretreatment does enhance the adhesive efficiency of seeding cells to the scaffolds and this effect may be related to the upregulation of Integrin αVβ3.
Objective To investigate the effect of canine decellularized tendon slices (DTSs) on tendon-bone healing in repairing rotator cuff injury of rabbit. Methods Canine DTSs were prepared by repetitive freeze/thaw 5 times combined with nuclease processing for 12 hours from the adult Beagles Achilles tendons. Histological observation and cytocompatibility evaluation for the canine DTSs were performed in vitro. Twenty-four mature male New Zealand white rabbits, weighing 2.5-3.0 kg, were randomly selected. U-shaped defect of more than 50% of normal tendon in width and 8 mm in length was made in infraspinatus tendons of unilateral limb as the experimental group; the canine DTSs were used to repair defect, and the insertion of infraspinatus tendon on greater tuberosity of humerus was reconstructed in the experimental group. No treatment was done on the contralateral limb as the control group. At 4, 8, and 12 weeks after operation, the specimens were harvested for histological observation and biomechanical test. Results Histological examination showed that collagen fibers of canine DTSs were well preserved, without residual cells. The cytocompatibility examination showed that fibroblasts attached well to canine DTSs. Biomechanical test showed that the maximum load and stiffness increased significantly with time, and the maximum load and stiffness at 12 weeks were significantly higher than those at 4 and 8 weeks (P lt; 0.05). The maximum load and stiffness of the experimental group at 4 and 8 weeks were significantly lower than those of the control group (P lt; 0.05). The stiffness of the experimental group at 12 weeks was significantly lower than that of the control group (t= — 5.679, P=0.000), but no significant difference was found in the maximum load at 12 weeks between 2 groups (t=0.969, P=0.361). Histological observation showed that the control group displayed a 4-layer structure of the tendon-bone insertion. In the experimental group at 4 weeks, the tendon-bone interface was filled with granulation tissue, and a small amount of Sharpey’s fibers-like connected the tendon to bone; granulation tissue disappeared, and fibroblasts, Sharpey’s fiber, new cartilage, and chondrocytes significantly increased with time; tendon-bone interface became mature, but the tide line was not observed between the unmineralized fibrocartilage and mineralized fibrocartilage. Conclusion Canine DTSs prepared by repetitive freeze/thaw 5 times combined with nuclease processing for 12 hours, can enhance the healing of host tendon-bone and improve the biomechanical characteristics of the rabbit infraspinatus tendon.
Abstract: Objective To observe the physical characteristics of decellularized porcine pulmonary valved conduits crosslinked by carbodiimide (EDC). Methods [WTBZ]Twenty porcine pulmonary valved arteries were mobilized on relative asepsis condition. They were cut longitudinally into three samples at the junction position of pulmonary valve (every sample was comprised of a part of the pulmonary conduit wall and the corresponding valve). The samples were randomly divided into three groups by lotdrawing method. Group A was the control group which was made up of the fresh porcine arterial valved conduit samples without any other treatments. Group B was comprised of porcine pulmonary samples decellularized by trypsindetergent digestion. Group Cincluded the decellularized porcine pulmonary samples crosslinked by EDC. We observed the water content, thickness, tensile strength, and shrinkage temperature of all the samples, based on which the physical characeteristics of these samples were analyzed. Results [WTBZ]Complete cellfree-pulmonary conduit matrix was achieved by trypsindetergent digestion. Compared with group A, in group B, the water content of pulmonary wall was significantly higher (P=0.000), while the water content of pulmonary valve was not significantly different; the thickness of pulmonary wall and valve (P=0.000,0.000) and tensile strength of pulmonary wall and valve (Plt;0.01) was significantly lower, while shrinkage temperature was not significantly different. Compared with group B, in group C, the water content of pulmonary wall was significantly lower (P=0.000), while the water content of pulmonary valve, and the thickness of pulmonary wall and valve were not significantly different; the tensile strength of pulmonary wall (Plt;0.01) and valve (P=0.000), and the shrinkage temperature of them (P=0.000, 0.000) were significantly higher. Compared with group A, in group C, the water content of pulmonary wall and valve, and the tensile strength of them were not statistically different, while the thickness of pulmonary wall and valve was significantly lower (P=0.000, 0.000), and the shrinkage temperature of them was significantly higher (P=0.000, 0.000). Conclusion [WTBZ]EDC crosslinking method is available for treating decellularized porcine pulmonary valved conduits in order to enhance its tensile strength, and decrease water content of pulmonary wall.
Objective To summarize the recent research situation and progress of decellularized matrix in tissue engineered trachea transplantation and to forecast the possible perspects. Methods Recent original articles about study and application for decellularized matrix in tissue engineered trachea were reviewed. The application and study of different decellularized matrices involved in animals or patients with tracheal lesions were elaborated. Results Decellularized matrices researched and applied in tissue engineered trachea include jejunum, urinary bladder, aorta, and trachea. Conclusion Decellularized urinary bladder matrix and jejunal matrix appears to be efficacious method for the patch repair of partial circumferential tracheal defects. The application of decellularized aortic matrix may need more study, and decellularized tracheal matrix has a bright future in long tracheal defects.
ObjectiveExtracting the endothelial cells or all endothelial cells and interstitial cells from the cryopreserved homograft valves (HV), to evaluate the immunogenicity of this two kinds of decellular HV. MethodsFor extracting the endothelial cells, the leaflet and wall of the HV were decellularized by a 4-step detergent-enzymatic extraction method involving the 1% triton in combination with RNase (1μg/ml) and DNase (10μg/ml). For extracting the endothelial cells and interstitial cells, the leaflet and wall of the HV were decellularized by a 3-step detergent-enzymatic extraction method involving the 1% deoxycholic acid (DOA) in combination with RNase (20μg/ml) and DNase (200μg/ml). HLA-DR antigen expression was detected by using immunohistochemical techniques. The valve and wall of the HV were transplanted subcutaneously in the mice for 8 weeks, and the histology, calcium assay and calcium content were examined. ResultsFor the staining of the HLA-DR antigens, the immunogenic potential of the HV with extracting all endothelial cells and interstitial cells or only the endothelial cells was lower than cryopreserved HV, but it more obviously decreased for the HV with extracting all endothelial cells and interstitial cells. After 8 weeks embedded in the mice, the histological signs of the inflammatory reactions and the calcification extent to the cryopreserved HV and the HV with only extracting endothelial cells were stronger than the HV with extracting all endothelial cells and interstitial cells predominantly. And calcification extent or the inflammatory reactions to the wall of the HV were more severe than those of the leaflet. ConclusionsThe immunogenicity of the HV with extracting all endothelial cells and interstitial cells is much less than HV with only extracting endothelial cells. The histological signs of the inflammatory reactions and the calcification extent in vivo experiments is obviously decreased. For the HV with only extracting endothelial cells, though the histological signs of the inflammatory reactions slightly decrease, the calcification extent in vivo experiments is more severe, especially for the wall. The interstitial cells may be the important factor for the donor-reactive immune responses that is related to the graft calcification or destruction after implantation.
【Abstract】 Objective To investigate the feasibil ity of applying enzymatic method to prepare decellularizedporcine aorta and to evaluate its biomechanical properties, immunogenicity and cell compatibil ity. Methods 0.1% trypsin- 0.01% EDTA was appl ied to extract cells from porcine aorta under 37 continuously vibrating condition and its histology and microstructure were observed. The thickness, stress-strain curve, ultimate tension stress (UTS) and strain of failure (SOF) were compared before and after decellularization for 48, 96 and 120 hours under uniaxial tensile tests, respectively. The histological change was observed at 1, 3 and 6 weeks after the decellularized tissue was implanted subcutaneously in 3 dogs. According to the HE stains and a semi-quantitative Wakitani grading method, gross changes, category and amounts of infiltrated cells and neo-capillaries were compared between pre- and post-decellularization of porcine aortae. Endothel ial cells from canine external jugular vein were seeded onto the decellularized patches to observe the cell compatibil ity. Results Microscopy and electron microscopies examination identified that cell components was completely removed from the fresh porcine aorta and Masson’ strichrome showed that the structure of matrix (fibrins) was maintained intact at 96 hours using the decellularization method. There were no significant differences in the thickness, UTS and SOF between before and after decellularization (P gt; 0.05). However, The UTS values showed a decrease tendency and SOF showed an increase tendency. The stress-strain curve also verified a decrease tendency in mechanical intensity and an increase one in ductil ity after decellularization. After implanting the acellularized matrix subcutaneously in canine, moderately lymphocyte infiltration was seen at the 1st week and the infiltration was replaced by fibroblasts accompanied by neocapillary formation at the 6th week. A semi-quantity histological evaluation showed that there were differences in gross observation, category and the numbers of the infiltrated cells between decellularized and non-decellularized tissues(P lt; 0.05). A cell monolayer was identified by HE staining and scanning electron microscopywhen the endothel ial cells were seeded onto the inner luminal surface of the scaffold, al igned at the same direction on the whole. Conclusion The decellularized porcine aortic scaffold, prepared by trypsin-EDTA extraction under continuously vibrating condition, could meet the requirements of tissue-engineering graft in biomechanical properties, immunogenicity and cell compatibil ity.
Objective To compare the effect of fabricating decellularized scaffold of homograft bioprosthetic tube valved (HBTV) with two kinds of cell detergents and to provide a homograft bioprosthetic scaffold for fabrication of tissueengineering heart valve (TEHV). Methods The active cells in the HBTV, which conserved by liquid nitrogen, were decellularized by low osmotic pressure of Tris buffer, in which containing sodium dodecylsulphate (SDS) and deoxycholic acid (DOA) respectively. The leaflets or aortic wall was fixed with fixative and stained with hematoxylin and eosin, collagen fibers or elastic fibers for observation and photographs by light microscope or by scanning electron microscope (SEM) after decellularized. Results When the leaflets of HBTV were incubated togetherwith 0.03% SDS or 0.5% DOA of Tris buffer respectively for 48 hours, the activeendothelial cells (ECs) in the leaflets were not only decellularized completely, but also reserved the collagen fibers or elastic fibers integrally, which is two of the main components of extracellular matrix (ECM). A part of fibroblast inthe center leaflets was reserved. The morphologic structure of leaflets after decellularized was not significantly different from that before decellularized. The concentration of SDS was increased to 0.1% when decellularized the cells of aortic wall, but DOA was still kept 0.5%. Conclusion The better decellularizedscaffold of HBTV obtained was disposed by 0.03%-0.1% SDS or 0.5% DOA, which wasadvantageous to adhesiveness and amplification of implantation cells on the decellularized scaffold of HBTV in order that HBV reendothelialized or for the TEHVfabricated in vitro.
Objective To develop a new small-caliber vascular xenograft and evaluate the feasibility of xenogenic artery for coronary artery bypass grafting. Methods Canine carotid arteries were decellularized by detergent and enzymatic extraction. All decellularized xenografts were randomly divided into two groups. Heparin-linked group (n=24): grafts were then covalently linked with heparin. Non-heparin-linked group (n=24): as control. Xenografts in two groups were implanted in rabbits' left and right carotid artery respectively as bypass grafts. Graft patency was checked by ultrasonography after 3 weeks, 3 and 6 months. Grafts were harvested after 3 and 6 months. Microscopic observation and immunohistochemical staining were performed. Results All the cells were removed while the extracellular matrix were well preserved observed. Heparin was successfully linked to the grafts through their whole thickness. There was no obstruction at both sides after implantation of the grafts, while less thrombus was found in the decellularized heparin-linked grafts than in the other side. Smooth muscle cells densely populated the graft wall and endothelial cells covered the lumen at 3 months after implantation. Conclusion Canine common carotid artery treated by detergent and enzymatic extraction and heparin linkage may be a new small-caliber vascular xenograft for coronary artery bypass grafting.
ObjectiveTo explore the possibility of constructing tissue engineered adipose by adipose tissue derived extracellular vesicles (hAT-EV) combined with decellularized adipose tissue (DAT) scaffolds, and to provide a new therapy for soft tissue defects.MethodsThe adipose tissue voluntarily donated by the liposuction patient was divided into two parts, one of them was decellularized and observed by HE and Masson staining and scanning electron microscope (SEM). Immunohistochemical staining and Western blot detection for collagen type Ⅰ and Ⅳ and laminin were also employed. Another one was incubated with exosome-removed complete medium for 48 hours, then centrifuged to collect the medium and to obtain hAT-EV via ultracentrifugation. The morphology of hAT-EV was observed by transmission electron microscopy; the nanoparticle tracking analyzer (NanoSight) was used to analyze the size distribution; Western blot was used to analyse membrane surface protein of hAT-EV. Adipose derived stem cells (ADSCs) were co-cultured with PKH26 fluorescently labeled hAT-EV, confocal fluorescence microscopy was used to observe the uptake of hAT-EV by ADSCs. Oil red O staining was used to evaluate adipogenic differentiation after hAT-EV and ADSCs co-cultured for 15 days. The DAT was scissored and then injected into the bilateral backs of 8 C57 mice (6-week-old). In experimental group, 0.2 mL hAT-EV was injected weekly, and 0.2 mL PBS was injected weekly in control group. After 12 weeks, the mice were sacrificed, and the new fat organisms on both sides were weighed. The amount of new fat was evaluated by HE and peri-lipoprotein immunofluorescence staining to evaluate the ability of hAT-EV to induce adipogenesis in vivo.ResultsAfter acellularization of adipose tissue, HE and Masson staining showed that DAT was mainly composed of loosely arranged collagen with no nucleus; SEM showed that no cells and cell fragments were found in DAT, and thick fibrous collagen bundles could be seen; immunohistochemical staining and Western blot detection showed that collagen type Ⅰ and Ⅳ and laminin were retained in DAT. It was found that hAT-EV exhibited a spherical shape of double-layer envelope, with high expressions of CD63, apoptosis-inducible factor 6 interacting protein antibody, tumor susceptibility gene 101, and the particle size of 97.9% hAT-EV ranged from 32.67 nmto 220.20 nm with a peak at 91.28 nm. Confocal fluorescence microscopy and oil red O staining showed that hAT-EV was absorbed by ADSCs and induced adipogenic differentiation. In vivo experiments showed that the wet weight of fat new organisms in the experimental group was significantly higher than that in the control group (t=2.278, P=0.048). HE staining showed that the structure of lipid droplets in the experimental group was more than that in the control group, and the collagen content in the control group was higher than that in the experimental group. The proportion of new fat in the experimental group was significantly higher than that in the control group ( t=4.648, P=0.017).ConclusionDAT carrying hAT-EV can be used as a new method to induce adipose tissue regeneration and has a potential application prospect in the repair of soft tissue defects.
Objective To investigate the effect of repeated freezing and thawing combining nuclease treatment on the decellularization of bovine tendons, and the morphology, structure, biochemical compositions, and mechanical properties of the decellularized tendons. Methods A total of 48 fresh 1-day-old bovine Achilles tendons were randomly divided into 3 groups (n=16): fresh normal tendons (group A), repeated freezing and thawing for 5 times (liquid nitrogen refrigeration/37℃ thawing, group B), and repeated freezing and thawing combining nuclease processing for 24 hours (group C). In each group, 2 tendons were used for scanning electron microscope (SEM), 3 tendons for histological and immunohistochemical observations, 3 tendons for DNA content detection, and 8 tendons for biomechanical testing. Results SEM observation indicated the intact, aligned, and densely packed collagen fibers with no disruption in groups A and B, and the slightly loose collagen fibers with little disruption in group C. The alcian blue staining, sirius red staining, and immunohistochemical staining showed that the most of glycosaminoglycan, collagen type I, collagen type III, and fibronectin in group C were retained after decellularization treatment. HE and DAPI staining showed that the cell nuclei between the collagen fibers were clearly visible in groups A and B; however, the cell nuclei between collagen fibers almost were invisible with a few residual nuclei on the endotendineum in group C. DNA quantitative detection confirmed that DNA content in group C [(0.05 ± 0.02) μg/mg] was significantly lower than those in group A [(0.24 ± 0.12) μg/mg] and group B [(0.16 ± 0.07) μg/mg] (P lt; 0.05). Biomechanical testing showed that the values of tensile strength, failure strain, stiffness, and elastic modulus were different among 3 groups, but no significant difference was found (P gt; 0.05). Conclusion Repeated freezing and thawing combining nuclease processing can effectively remove the component of cells, and simultaneously retain the original collagen fibrous structure, morphology, most of the extracellular matrix compositions, and mechanical properties of the bovine tendons.