Tissue engineering of ureteral grafts by seeding urothelial differentiated hADSCs onto biodegradable ureteral scaffolds

Shi, Jianguo; Fu, Weijun; Wang, Xiaoxiong; Xu, Yong-De; Li, Gang; Hong, Bao-fa; Wang, Yan; Du, Zhimin; Zhang, Xu

doi:10.1002/jbm.a.34182

Cited by 25 publications

(19 citation statements)

References 35 publications

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“…The combination of cells derived from native tissue with other cell types has recently gained attention to address currently defined challenges in regenerative medicine 1 . For example, vascular endothelial cells and urothelial cells were both able to differentiate adipose-derived stem cells into respectively the osteogenic and urothelial lineage in order to enhance bone and urothelial tissue engineering 2,3 . Articular cartilage matrix production of expanded articular chondrocytes has been shown to be positively influenced by primary chondrocytes and human adipose-derived and embryonic stem cells in vitro 4e6 .…”

Section: Introductionmentioning

confidence: 99%

One-stage focal cartilage defect treatment with bone marrow mononuclear cells and chondrocytes leads to better macroscopic cartilage regeneration compared to microfracture in goats

Bekkers

Creemers

Tsuchida

et al. 2013

Osteoarthritis and Cartilage

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Section: Introductionmentioning

confidence: 99%

One-stage focal cartilage defect treatment with bone marrow mononuclear cells and chondrocytes leads to better macroscopic cartilage regeneration compared to microfracture in goats

Bekkers

Creemers

Tsuchida

et al. 2013

Osteoarthritis and Cartilage

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“…For example, stem cells can now be used in cell therapy applications to obtain cell sheets or 3D proto-tissues under controlled conditions [24][25][26][27][28][29]. The latter are dictated by different local environment factors, such as growth-differentiation factors, adhesive molecules within the extracellular matrix, the properties of a possible supporting scaffold, as well as genetic programming and stochastic events [30][31][32][33][34][35][36][37][38][39][40]. All these studies may require a significant amount of primary cells and an extensive in vitro expansion, but ASCs generally undergo ''replicative senescence'' and irreversible growth arrest after a few replication cycles [20].…”

Section: Introductionmentioning

confidence: 99%

Isolation and Characterization of a Spontaneously Immortalized Multipotent Mesenchymal Cell Line Derived from Mouse Subcutaneous Adipose Tissue

Zamperone

Pietronave

Merlin

et al. 2013

Stem Cells and Development

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The emerging field of tissue engineering and regenerative medicine is a multidisciplinary science that is based on the combination of a reliable source of stem cells, biomaterial scaffolds, and cytokine growth factors. Adult mesenchymal stem cells are considered important cells for applications in this field, and adipose tissue has revealed to be an excellent source of them. Indeed, adipose-derived stem cells (ASCs) can be easily isolated from the stromal vascular fraction (SVF) of adipose tissue. During the isolation and propagation of murine ASCs, we observed the appearance of a spontaneously immortalized cell clone, named m17.ASC. This clone has been propagated for more than 180 passages and stably expresses a variety of stemness markers, such as Sca-1, c-kit/CD117, CD44, CD106, islet-1, nestin, and nucleostemin. Furthermore, these cells can be induced to differentiate toward osteogenic, chondrogenic, adipogenic, and cardiogenic phenotypes. m17.ASC clone displays a normal karyotype and stable telomeres; it neither proliferates when plated in soft agar nor gives rise to tumors when injected subcutaneously in NOD/SCID-γ (null) mice. The analysis of gene expression highlighted transcriptional traits of SVF cells. m17.ASCs were genetically modified by lentiviral vectors carrying green fluorescent protein (GFP) as a marker transgene and efficiently engrafted in the liver, when injected in the spleen of NOD/SCID-γ (null) monocrotaline-treated mice. These results suggest that this non-tumorigenic spontaneously immortalized ASC line may represent a useful tool (cell model) for studying the differentiation mechanisms involved in tissue repair as well as a model for pharmacological/toxicological studies.

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“…This way the initial tissue contraction takes place in a more controlled environment, without the toxic influences of urine (Adamowicz et al , ). Recent studies have shown the successful application of these techniques by implanting the tissue in non‐functional locations (Fu et al , ; Shi et al , ; Xu et al , ), as well as using them for ureteral repair afterwards (Liao et al , ; Zhang et al , ). Pre‐implantation before functional implantation may therefore improve the outcome of the reconstruction.…”

Section: Discussionmentioning

confidence: 99%

Ureteral reconstruction with reinforced collagen scaffolds in a porcine model

Jonge

Simaioforidis

Geutjes

et al. 2017

J Tissue Eng Regen Med

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Repair of long ureteral defects often requires extensive surgical procedures and graft tissue, which is associated with various complications, for example, graft site morbidity or lack of suitable tissue. Tissue engineering might provide an alternative therapeutic approach in these cases. Reinforced tubular collagen‐Vicryl scaffolds (l = 5 cm, lumen Ø = 6 mm, thickness = 3 mm) were developed with or without vascular endothelial growth factor and basic fibroblast growth factor, and evaluated in a pre‐clinical porcine model. The reinforced scaffolds were successfully implanted in 20 pigs, and functional, macroscopic and microscopic evaluation was performed at 1 and 3 months. Two animals without scaffold implantation served as control. All animals survived until their predetermined evaluation time point, and grafted scaffolds showed urothelial regeneration, smooth muscle cell ingrowth and neovascularization. Loopogram and macroscopic evaluation revealed constriction of the scaffold lumen and hydroureteronephrosis. Enhanced muscle ingrowth was observed in growth factor‐loaded scaffolds, but this was not significant. We conclude that reinforced collagen‐Vicryl scaffolds are mechanically suitable for ureteral repair, but further optimization to prevent strictures is required. Copyright © 2016 John Wiley & Sons, Ltd.

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Tissue engineering of ureteral grafts by seeding urothelial differentiated hADSCs onto biodegradable ureteral scaffolds

Cited by 25 publications

References 35 publications

One-stage focal cartilage defect treatment with bone marrow mononuclear cells and chondrocytes leads to better macroscopic cartilage regeneration compared to microfracture in goats

One-stage focal cartilage defect treatment with bone marrow mononuclear cells and chondrocytes leads to better macroscopic cartilage regeneration compared to microfracture in goats

Isolation and Characterization of a Spontaneously Immortalized Multipotent Mesenchymal Cell Line Derived from Mouse Subcutaneous Adipose Tissue

Ureteral reconstruction with reinforced collagen scaffolds in a porcine model

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