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Adipose-derived stem cells significantly increases collagen level and fiber maturity in patient-specific biological engineered blood vessels

AbstractTissue engineering has driven significant research in the strive to create a supply of tissues for patient treatment. Cell integration into engineered tissues maximizes functional capabilities, however, issues of rejection remain. Autologous cell sources able to solve this issue are difficult to identify for tissue engineering purposes. Here, we present the efficacy of patient-sourced cells derived from adipose (adipose-derived stem cells, ASCs) and skin tissue (dermal fibroblasts, PtFibs) to build a combined engineered tunica media and adventitia graft, respectively. Patient cells were integrated into our lab’s vascular tissue engineering technique of forming vascular rings that are stacked into a tubular structure to create the vascular graft. For the media layer, ASCs were successfully differentiated into the smooth muscle phenotype using angiotensin II followed by culture in smooth muscle growth factors, evidenced by significantly increased expression of ?SMA and myosin light chain kinase. Engineered media vessels composed of differentiated ASCs (ASC-SMCs) exhibited an elastic modulus (45.2 ± 18.9 kPa) between that of vessels of undifferentiated ASCs (71.8 ± 35.3 kPa) and control human aortic smooth muscle cells (HASMCs; 18.7 ± 5.49 kPa) (p

Publication date: 22/09/2023

Author: Bryan T. Wonski,  Bijal Patel,  Donna G. Tepper,  Aamir Siddiqui,  Loay S. Kabbani,  Mai T. Lam

Reference: https://doi.org/10.1371/journal.pone.0291766

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This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870292.