Search Results - "Dilmen, E."

Advancements in kidney organoids and tubuloids to study (dys)function by Dilmen, E., Orhon, I., Jansen, J., Hoenderop, J.G.J.

“…Human kidney organoids and tubuloids are emerging models with the promise to overcome the limitations of conventional in vitro research models and to better…”
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A semi-permeable insert culture model for the distal part of the nephron with human and mouse tubuloid epithelial cells by Dilmen, E., Olde Hanhof, C.J.A., Yousef Yengej, F.A., Ammerlaan, C.M.E., Rookmaaker, M.B., Orhon, I., Jansen, J., Verhaar, M.C., Hoenderop, J.G.

“…Tubuloids are advanced in vitro models obtained from adult human or mouse kidney cells with great potential for modelling kidney function in health and…”
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Differentiated mouse kidney tubuloids as a novel in vitro model to study collecting duct physiology by Olde Hanhof, C J A, Dilmen, E, Yousef Yengej, F A, Latta, F, Ammerlaan, C M E, Schreurs, J, Hooijmaijers, L, Jansen, J, Rookmaaker, M B, Orhon, I, Verhaar, M C, Hoenderop, J G

“…Kidney tubuloids are cell models that are derived from human or mouse renal epithelial cells and show high similarities with their counterparts. Tubuloids grow…”
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A novel sonar-based obstacle detection approach sensor-based coverage problem by Dilmen, E., Yazici, A., Parlaktuna, O.

“…In this paper, a vector-projection-based algorithm is developed to detect obstacles in narrow environments. This algorithm can be used for especially…”
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