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Adult Animal Stem Cell-Derived Organoids in Biomedical Research and the One Health Paradigm.

Vojtech GabrielChristopher ZdyrskiDipak Kumar SahooAbigail RalstonHannah WickhamAgnes Bourgois-MochelBasant AhmedMaria M MerodioKarel PauknerPablo Enrique PiñeyroJamie KopperEric W RoweJodi D SmithDavid K MeyerholzAmir KolAustin ViallMohamed ElbadawyJonathan P MochelKarin Allenspach
Published in: International journal of molecular sciences (2024)
Preclinical biomedical research is limited by the predictiveness of in vivo and in vitro models. While in vivo models offer the most complex system for experimentation, they are also limited by ethical, financial, and experimental constraints. In vitro models are simplified models that do not offer the same complexity as living animals but do offer financial affordability and more experimental freedom; therefore, they are commonly used. Traditional 2D cell lines cannot fully simulate the complexity of the epithelium of healthy organs and limit scientific progress. The One Health Initiative was established to consolidate human, animal, and environmental health while also tackling complex and multifactorial medical problems. Reverse translational research allows for the sharing of knowledge between clinical research in veterinary and human medicine. Recently, organoid technology has been developed to mimic the original organ's epithelial microstructure and function more reliably. While human and murine organoids are available, numerous other organoids have been derived from traditional veterinary animals and exotic species in the last decade. With these additional organoid models, species previously excluded from in vitro research are becoming accessible, therefore unlocking potential translational and reverse translational applications of animals with unique adaptations that overcome common problems in veterinary and human medicine.
Keyphrases
  • endothelial cells
  • induced pluripotent stem cells
  • healthcare
  • mental health
  • stem cells
  • public health
  • pluripotent stem cells
  • human health
  • multiple sclerosis
  • bone marrow
  • risk assessment
  • social media