Adipose tissue engineering with cells in engineered matrices.
TL;DR: This article reviews the key progress to date in the field of adipose tissue engineering using a cell-seeded scaffold approach, where engineered extracellular matrix substitutes are seeded with exogenous cells that may contribute to the regenerative response.
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Abstract: Tissue engineering has shown promise for the development of constructs to facilitate large volume soft tissue augmentation in reconstructive and cosmetic plastic surgery. This article reviews the key progress to date in the field of adipose tissue engineering. In order to effectively design a soft tissue substitute, it is critical to understand the native tissue environment and function. As such, the basic physiology of adipose tissue is described and the process of adipogenesis is discussed. In this article, we have focused on tissue engineering using a cell-seeded scaffold approach, where engineered extracellular matrix substitutes are seeded with exogenous cells that may contribute to the regenerative response. The strengths and limitations of each of the possible cell sources for adipose tissue engineering, including adipose-derived stem cells, are detailed. We briefly highlight some of the results from the major studies to date, involving a range of synthetic and naturally derived scaffolds. While these studies have shown that adipose tissue regeneration is possible, more research is required to develop optimized constructs that will facilitate safe, predictable and long-term augmentation in clinical applications.
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Citations
Composite hydrogel scaffolds incorporating decellularized adipose tissue for soft tissue engineering with adipose-derived stem cells.
Hoi Ki Cheung,Tim Tian Y. Han,Dale M. Marecak,John F. Watkins,Brian G. Amsden,Lauren E. Flynn,Lauren E. Flynn +6 more
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The performance of decellularized adipose tissue microcarriers as an inductive substrate for human adipose-derived stem cells.
Allison E.B. Turner,Claire Yu,Claire Yu,Juares Bianco,Juares Bianco,John F. Watkins,Lauren E. Flynn,Lauren E. Flynn +7 more
TL;DR: The adipogenic differentiation of human adipose-derived stem cells (ASCs) was investigated on microcarriers fabricated from human decellularized adipose tissue (DAT), suggesting that the DAT provided an adipo-inductive substrate for the human ASCs.
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Additive manufacturing of photo-crosslinked gelatin scaffolds for adipose tissue engineering
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Dermal Adipocytes: From Irrelevance to Metabolic Targets?
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