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In vitro and in vivo evaluation of biohybrid tissue-engineered vascular grafts with transformative 1H/19F MRI traceable scaffolds.
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- Author(s): Rama, Elena1 (AUTHOR); Mohapatra, Saurav Ranjan2 (AUTHOR); Sugimura, Yukiharu3 (AUTHOR); Suzuki, Tomoyuki3 (AUTHOR); Siebert, Stefan2 (AUTHOR); Barmin, Roman1 (AUTHOR); Hermann, Juliane4 (AUTHOR); Baier, Jasmin1 (AUTHOR); Rix, Anne1 (AUTHOR); Lemainque, Teresa1,5 (AUTHOR); Koletnik, Susanne1 (AUTHOR); Elshafei, Asmaa Said1 (AUTHOR); Pallares, Roger Molto1 (AUTHOR); Dadfar, Seyed Mohammadali1,6 (AUTHOR); Tolba, René H.7 (AUTHOR); Schulz, Volkmar1 (AUTHOR); Jankowski, Joachim4,8,9 (AUTHOR); Apel, Christian2 (AUTHOR); Akhyari, Payam3 (AUTHOR); Jockenhoevel, Stefan2 (AUTHOR)
- Source:
Biomaterials. Dec2024, Vol. 311, pN.PAG-N.PAG. 1p.
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- Abstract:
Biohybrid tissue-engineered vascular grafts (TEVGs) promise long-term durability due to their ability to adapt to hosts' needs. However, the latter calls for sensitive non-invasive imaging approaches to longitudinally monitor their functionality, integrity, and positioning. Here, we present an imaging approach comprising the labeling of non-degradable and degradable TEVGs' components for their in vitro and in vivo monitoring by hybrid 1H/19F MRI. TEVGs (inner diameter 1.5 mm) consisted of biodegradable poly(lactic- co -glycolic acid) (PLGA) fibers passively incorporating superparamagnetic iron oxide nanoparticles (SPIONs), non-degradable polyvinylidene fluoride scaffolds labeled with highly fluorinated thermoplastic polyurethane (19F-TPU) fibers, a smooth muscle cells containing fibrin blend, and endothelial cells. 1H/19F MRI of TEVGs in bioreactors, and after subcutaneous and infrarenal implantation in rats, revealed that PLGA degradation could be faithfully monitored by the decreasing SPIONs signal. The 19F signal of 19F-TPU remained constant over weeks. PLGA degradation was compensated by cells' collagen and α-smooth-muscle-actin deposition. Interestingly, only TEVGs implanted on the abdominal aorta contained elastin. XTT and histology proved that our imaging markers did not influence extracellular matrix deposition and host immune reaction. This concept of non-invasive longitudinal assessment of cardiovascular implants using 1H/19F MRI might be applicable to various biohybrid tissue-engineered implants, facilitating their clinical translation. [Display omitted] [ABSTRACT FROM AUTHOR]
- Abstract:
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