Scientific Reports (Sep 2023)

Advancing autologous urothelial micrografting and composite tubular grafts for future single-staged urogenital reconstructions

  • Nikolai Juul,
  • Fatemeh Ajalloueian,
  • Oliver Willacy,
  • Clara Ibel Chamorro,
  • Magdalena Fossum

DOI
https://doi.org/10.1038/s41598-023-42092-3
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 15

Abstract

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Abstract Urogenital reconstructive surgery can be impeded by lack of tissue. Further developments within the discipline of tissue engineering may be part of a solution to improve clinical outcomes. In this study, we aimed to design an accessible and easily assembled tubular graft with autologous tissue, which could be constructed and implanted as a single-staged surgical procedure within the premises of an ordinary operating room. The ultimate goals would be to optimize current treatment-options for long-term urinary diversion. Therefore, we evaluated the optimal composition of a collagen-based scaffold with urothelial micrografts in vitro, and followingly implanted the construct in vivo as a bladder conduit. The scaffold was evaluated in relation to cell regeneration, permeability, and biomechanical properties. After establishing an optimized scaffold in vitro, consisting of high-density collagen with submerged autologous micrografts and reinforced with a mesh and stent, the construct was successfully implanted in an in vivo minipig model. The construct assemblance and surgical implantation proved feasible within the timeframe of a routine surgical intervention, and the animal quickly recovered postoperatively. Three weeks post-implantation, the conduit demonstrated good host-integration with a multilayered luminal urothelium. Our findings have encouraged us to support its use in more extensive preclinical large-animal studies.