Frontiers in Veterinary Science (Sep 2024)

Exploring swine oviduct anatomy through micro-computed tomography: a 3D modeling perspective

  • Ramses Belda-Perez,
  • Ramses Belda-Perez,
  • Costanza Cimini,
  • Luca Valbonetti,
  • Tiziana Orsini,
  • Annunziata D’Elia,
  • Roberto Massari,
  • Carlo Di Carlo,
  • Alessia Paradiso,
  • Seerat Maqsood,
  • Ferdinando Scavizzi,
  • Marcello Raspa,
  • Nicola Bernabò,
  • Barbara Barboni

DOI
https://doi.org/10.3389/fvets.2024.1456524
Journal volume & issue
Vol. 11

Abstract

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The oviduct plays a crucial role in the reproductive process, serving as the stage for fertilization and the early stages of embryonic development. When the environment of this organ has been mimicked, it has been shown to enhance in vitro embryo epigenetic reprogramming and to improve the yield of the system. This study explores the anatomical intricacies of two oviduct regions, the uterotubal junction (UTJ) and the ampullary-isthmic junction (AIJ) by using micro-computed tomography (MicroCT). In this study, we have characterized and 3D-reconstructed the oviduct structure, by measuring height and width of the oviduct’s folds, along with the assessments of fractal dimension, lacunarity and shape factor. Results indicate distinct structural features in UTJ and AIJ, with UTJ displaying small, uniformly distributed folds and high lacunarity, while AIJ shows larger folds with lower lacunarity. Fractal dimension analysis reveals values for UTJ within 1.189–1.1779, while AIJ values range from 1.559–1.770, indicating differences in structural complexity between these regions. Additionally, blind sacs or crypts are observed, akin to those found in various species, suggesting potential roles in sperm sequestration or reservoir formation. These morphological differences align with functional variations and are essential for developing an accurate 3D model. In conclusion, this research provides information about the oviduct anatomy, leveraging MicroCT technology for detailed 3D reconstructions, which can significantly contribute to the understanding of geometric-morphological characteristics influencing functional traits, providing a foundation for a biomimetic oviduct-on-a-chip.

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