Background: Endothelial and smooth muscle cells were used as seeding cells and heterogeneous acellularized matrix was used as scaffold to construct the tissue-engineered graft. Methods: A 2 weeks piglet was selected...Background: Endothelial and smooth muscle cells were used as seeding cells and heterogeneous acellularized matrix was used as scaffold to construct the tissue-engineered graft. Methods: A 2 weeks piglet was selected as a donor of seeding cells. Two-centimetre length of common carotid artery was dissected. Endothelial cells and smooth muscle cells were harvested by trypsin and collagenase digestion respectively. The isolated cells were cultured and expanded using routine cell culture technique. An adult sheep was used as a donor of acellularized matrix. The thoracic aorta was harvested and processed by a multi-step decellularizing technique to remove the original cells and preserve the elastic and collagen fibers. The cultured smooth muscle cells and endothelial cells were then seeded to the acellularized matrix and incubated in vitro for another 2 weeks. The cell seeded graft was then transplanted to the cell-donated piglet to substitute part of the native pulmonary artery. Results: The cultured cells from piglet were characterized as endothelial cells by the presence of specific antigens vWF and CD31, and smooth muscle cells by the presence of specific antigen a-actin on the cell surface respectively with immunohistochemical technique. After decellularizing processing for the thoracic aorta from sheep, all the cellular components were extracted and elastic and collagen fibers kept their original morphology and structure. The maximal load of acellular matrix was decreased and 20% lower than that of untreated thoracic aorta, but the maximal tensions between them were not different statistically and they had similar load-tension curves. Three months after transplantation, the animal was sacrificed and the graft was removed for observation. The results showed that the inner surfaces of the graft were smooth, without thrombosis and calcification. Under microscopy, a great number of growing cells could be seen and elastic and collagen fibers were abundant. Conclusion: Cultured self-derived endothelial and smooth muscle cells could be used as seeding cells and heterogeneous acellularized matrix could be used as scaffold in constructing tissue-engineered graft.展开更多
Objective: To study the kinetics and distribution of smooth muscle cell (SMC) proliferation, phe-notypic modulation, and various extracellular matrix (ECM) components accumulation during vein graft remodeling. Methods...Objective: To study the kinetics and distribution of smooth muscle cell (SMC) proliferation, phe-notypic modulation, and various extracellular matrix (ECM) components accumulation during vein graft remodeling. Methods: Normal vein and vein graft in carotid arteries were examined on d 4, d 7, d 14, d 60 and d180 after bypass grafting with immunohistochemical markers of cellular proliferation (proliferating cell nuclear antigen, PCNA), cytoskeletal protein production (a-actin SMC), myosin heavy chain (MHO iso-forms, ECM proteins, and histochemistry (hematoxylin eosin and Elastica-van Gieson stain). Results: Normal veins demonstrated an extremely low level of cellular proliferation and expressed as adult phenotype SM-Cs in media. After bypass grafting, medial SMCs in the graft appeared to be damaged and began to proliferate on d 4, and subsequently migrated and formed the neointima on d 7. Thereafter, the neointima thickened throughout the 180-day period of the experiment, although the neointimal SMC proliferation decreased after d 14. Meanwhile SMCs underwent a distinct phenotypic change from normal adult type to embryonic type. On d 60, embryonic phenotype SMCs began to return to the adult phenotype, but remain to be present in the neointima for as long as 180 d. ECM components including type I collagen, heparin sulfate proteoglucan (HSPG), and dermatan sulfate proteoglcan (decorin) were detected within the neointima on d 7. Thereafter, the accumulation of ECM increased progressively with time. On d 180, a large amount of ECM components were found in the neointima. HSPG mainly accumulated in the superficial and cellular region of the neointima , decorin, on other hand, located in hypocellular area deep in neointima. Type I collagen scatted in both regions. The elastic fibers became rich and arranged continuously in the neointima. Conclusion: The neointima of vein graft was initially formed by proliferation of the embryonic-type SMCs and then thickened infinitely due to ECM accumulation. Prolonged existence of the embryonic-type SMCs in the neointima may contribute to ECM accumulation and increase in the neointima thickness infinitely, which may predispose accelerated stenosis in the vein graft.展开更多
Objective: To investigate changes of Ca2+ activated potassium channels (KCa) in autogenous vein grafts. Methods: Contraction of venous ring was measured by means of perfusion in vitro. The intimal rabbits proliferatio...Objective: To investigate changes of Ca2+ activated potassium channels (KCa) in autogenous vein grafts. Methods: Contraction of venous ring was measured by means of perfusion in vitro. The intimal rabbits proliferation of vascular and proliferation of cultured smooth muscle cells(vascular smooth muscle cells, VSMCs)were observed by the means of computerised image analysis and MTT method respectively. Furthermore, whole cell mode of patch clamp was used to record KCa of VSMCs isolated from autogenous vein grafts. Results: One week after transplantation there were no significant differences of contraction and intimal relative thickness between autogenous vein grafts and control. Contraction and intimal relative thickness of autogenous vein graft were significantly increased 2 weeks after transplantation (P<0.05, n=8 vs control), and they was more enhanced 4 weeks after vein transplantation (P<0.01, n=8 vs control).TEA(blocker of Ca2+ activated potassium channels)increased MTT A490 nm value of VSMCs from femoral vein in a dose dependent manner(P<0.05, n=8). KCa current density was significantly attenuated in VSMCs from autogenous vein grafts (1-4) week after transplantation(P<0.05, n=5).Conclusion: KCa is inhibited in autogenous vein graft, which account for vasospasm and intimal proliferation.展开更多
Objective: To design an extravascular trestle model coated phosphorus-32, an isotope radiating beta rays, and investigate its effects on intimal hyperplasia of autologous vein grafts. Methods: ETA cDNA was used as a g...Objective: To design an extravascular trestle model coated phosphorus-32, an isotope radiating beta rays, and investigate its effects on intimal hyperplasia of autologous vein grafts. Methods: ETA cDNA was used as a gene probe specific to vascular SMCs on the basis of in situ hybridization. The femoral veins were transplanted reversely into colateral femoral arteries in rabbits, and the animals were divided into control, chemical agents and phosphorus-32 groups. The morphometry was applied to calculate the ETA cDNA expression and intimal thickness. Spearman correlation method was utilized to investigate their relationship. Results: Intimal thickness in grafts of phosphorus-32 group was markedly reduced. Additionally, intimal ETA gene expression was also decreased in beta rays group. The values increased at a slower rate significantly different from that of control and aspirin groups (P<0.01). The correlation of ETA cDNA expression and intimal thickness exhibited a strongly positive relation. Conclusion: Beta rays in extravascular model could remarkably inhibit intimal thickening and SMC proliferation. The correlation is an indirect evidence indicating that intimal hyperplasia composed of SMCs proliferation. It suggests that ETA cDNA expression could be a quantitative estimation of vascular SMC because of its specifics.展开更多
Objective To investigate the depressant effect and mechanism of atorvastatin on the chronic rejection of aortic allograft in rats. Methods: The models of abdominal aorta transplantation were made with micro-surgery i...Objective To investigate the depressant effect and mechanism of atorvastatin on the chronic rejection of aortic allograft in rats. Methods: The models of abdominal aorta transplantation were made with micro-surgery in rats. The recipients were divided into three groups: allograft control group, atorvastatin-treated group and isograft control group. Vascular intimal thickness in all of the groups were observed by histological examination. The expression of PCNA and α-SMA were determined by immunohistochemistry. The content of nitric oxide was determined by nitrate reductase chromatometry. Results: The vascular intimal thickness in rats of atorvastatin-treated group (11.60% ± 2.40% ) were lower than those in allograft control group (34.60 % ± 6.40 % ; P 〈 0.05) and higher than those in isograft control group (1.15 % ± 0.65 %; P〈 0.05 ). The expression level of PCNA was decreased in atorvastatin-treated group (4.80% ± 0.80% ) than allograft control group (18.40% ± 1.80% ; P〈0.05) and higher than isograft group (1.20% ± 0.40% ; P〈0.05). Conclusion: The expression of PCNA in the transplant aorta could be suppressed by atorvastatin, which resalted in relief of chronic rejection of aortic allograft.展开更多
基金Project (No. 99ZB14018) supported by the Natural Science Foun-dation of Shanghai, China
文摘Background: Endothelial and smooth muscle cells were used as seeding cells and heterogeneous acellularized matrix was used as scaffold to construct the tissue-engineered graft. Methods: A 2 weeks piglet was selected as a donor of seeding cells. Two-centimetre length of common carotid artery was dissected. Endothelial cells and smooth muscle cells were harvested by trypsin and collagenase digestion respectively. The isolated cells were cultured and expanded using routine cell culture technique. An adult sheep was used as a donor of acellularized matrix. The thoracic aorta was harvested and processed by a multi-step decellularizing technique to remove the original cells and preserve the elastic and collagen fibers. The cultured smooth muscle cells and endothelial cells were then seeded to the acellularized matrix and incubated in vitro for another 2 weeks. The cell seeded graft was then transplanted to the cell-donated piglet to substitute part of the native pulmonary artery. Results: The cultured cells from piglet were characterized as endothelial cells by the presence of specific antigens vWF and CD31, and smooth muscle cells by the presence of specific antigen a-actin on the cell surface respectively with immunohistochemical technique. After decellularizing processing for the thoracic aorta from sheep, all the cellular components were extracted and elastic and collagen fibers kept their original morphology and structure. The maximal load of acellular matrix was decreased and 20% lower than that of untreated thoracic aorta, but the maximal tensions between them were not different statistically and they had similar load-tension curves. Three months after transplantation, the animal was sacrificed and the graft was removed for observation. The results showed that the inner surfaces of the graft were smooth, without thrombosis and calcification. Under microscopy, a great number of growing cells could be seen and elastic and collagen fibers were abundant. Conclusion: Cultured self-derived endothelial and smooth muscle cells could be used as seeding cells and heterogeneous acellularized matrix could be used as scaffold in constructing tissue-engineered graft.
文摘Objective: To study the kinetics and distribution of smooth muscle cell (SMC) proliferation, phe-notypic modulation, and various extracellular matrix (ECM) components accumulation during vein graft remodeling. Methods: Normal vein and vein graft in carotid arteries were examined on d 4, d 7, d 14, d 60 and d180 after bypass grafting with immunohistochemical markers of cellular proliferation (proliferating cell nuclear antigen, PCNA), cytoskeletal protein production (a-actin SMC), myosin heavy chain (MHO iso-forms, ECM proteins, and histochemistry (hematoxylin eosin and Elastica-van Gieson stain). Results: Normal veins demonstrated an extremely low level of cellular proliferation and expressed as adult phenotype SM-Cs in media. After bypass grafting, medial SMCs in the graft appeared to be damaged and began to proliferate on d 4, and subsequently migrated and formed the neointima on d 7. Thereafter, the neointima thickened throughout the 180-day period of the experiment, although the neointimal SMC proliferation decreased after d 14. Meanwhile SMCs underwent a distinct phenotypic change from normal adult type to embryonic type. On d 60, embryonic phenotype SMCs began to return to the adult phenotype, but remain to be present in the neointima for as long as 180 d. ECM components including type I collagen, heparin sulfate proteoglucan (HSPG), and dermatan sulfate proteoglcan (decorin) were detected within the neointima on d 7. Thereafter, the accumulation of ECM increased progressively with time. On d 180, a large amount of ECM components were found in the neointima. HSPG mainly accumulated in the superficial and cellular region of the neointima , decorin, on other hand, located in hypocellular area deep in neointima. Type I collagen scatted in both regions. The elastic fibers became rich and arranged continuously in the neointima. Conclusion: The neointima of vein graft was initially formed by proliferation of the embryonic-type SMCs and then thickened infinitely due to ECM accumulation. Prolonged existence of the embryonic-type SMCs in the neointima may contribute to ECM accumulation and increase in the neointima thickness infinitely, which may predispose accelerated stenosis in the vein graft.
文摘Objective: To investigate changes of Ca2+ activated potassium channels (KCa) in autogenous vein grafts. Methods: Contraction of venous ring was measured by means of perfusion in vitro. The intimal rabbits proliferation of vascular and proliferation of cultured smooth muscle cells(vascular smooth muscle cells, VSMCs)were observed by the means of computerised image analysis and MTT method respectively. Furthermore, whole cell mode of patch clamp was used to record KCa of VSMCs isolated from autogenous vein grafts. Results: One week after transplantation there were no significant differences of contraction and intimal relative thickness between autogenous vein grafts and control. Contraction and intimal relative thickness of autogenous vein graft were significantly increased 2 weeks after transplantation (P<0.05, n=8 vs control), and they was more enhanced 4 weeks after vein transplantation (P<0.01, n=8 vs control).TEA(blocker of Ca2+ activated potassium channels)increased MTT A490 nm value of VSMCs from femoral vein in a dose dependent manner(P<0.05, n=8). KCa current density was significantly attenuated in VSMCs from autogenous vein grafts (1-4) week after transplantation(P<0.05, n=5).Conclusion: KCa is inhibited in autogenous vein graft, which account for vasospasm and intimal proliferation.
文摘Objective: To design an extravascular trestle model coated phosphorus-32, an isotope radiating beta rays, and investigate its effects on intimal hyperplasia of autologous vein grafts. Methods: ETA cDNA was used as a gene probe specific to vascular SMCs on the basis of in situ hybridization. The femoral veins were transplanted reversely into colateral femoral arteries in rabbits, and the animals were divided into control, chemical agents and phosphorus-32 groups. The morphometry was applied to calculate the ETA cDNA expression and intimal thickness. Spearman correlation method was utilized to investigate their relationship. Results: Intimal thickness in grafts of phosphorus-32 group was markedly reduced. Additionally, intimal ETA gene expression was also decreased in beta rays group. The values increased at a slower rate significantly different from that of control and aspirin groups (P<0.01). The correlation of ETA cDNA expression and intimal thickness exhibited a strongly positive relation. Conclusion: Beta rays in extravascular model could remarkably inhibit intimal thickening and SMC proliferation. The correlation is an indirect evidence indicating that intimal hyperplasia composed of SMCs proliferation. It suggests that ETA cDNA expression could be a quantitative estimation of vascular SMC because of its specifics.
文摘Objective To investigate the depressant effect and mechanism of atorvastatin on the chronic rejection of aortic allograft in rats. Methods: The models of abdominal aorta transplantation were made with micro-surgery in rats. The recipients were divided into three groups: allograft control group, atorvastatin-treated group and isograft control group. Vascular intimal thickness in all of the groups were observed by histological examination. The expression of PCNA and α-SMA were determined by immunohistochemistry. The content of nitric oxide was determined by nitrate reductase chromatometry. Results: The vascular intimal thickness in rats of atorvastatin-treated group (11.60% ± 2.40% ) were lower than those in allograft control group (34.60 % ± 6.40 % ; P 〈 0.05) and higher than those in isograft control group (1.15 % ± 0.65 %; P〈 0.05 ). The expression level of PCNA was decreased in atorvastatin-treated group (4.80% ± 0.80% ) than allograft control group (18.40% ± 1.80% ; P〈0.05) and higher than isograft group (1.20% ± 0.40% ; P〈0.05). Conclusion: The expression of PCNA in the transplant aorta could be suppressed by atorvastatin, which resalted in relief of chronic rejection of aortic allograft.
