Publication
Engineering Stem Cell Self-organization to Build Better Organoids
Publications associées (36)
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Biological research heavily relies on the use of animal models, which has made it difficult to answer specific questions about human biology and disease. However, with the advent of human organoids - miniature versions of tissues generated in 3D human stem ...
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In humans, mice, and other mammals key internal organs such as the gut, the lungs, the pancreas, and the liver all derive from the same embryonic tissue: the endoderm. The development of all of these structures thus depends on a same set of early cells, an ...
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FRONTIERS MEDIA SA2022Capturing Cardiogenesis in Gastruloids
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Organoids are powerful models for studying tissue development, physiology, and disease. However, current culture systems disrupt the inductive tissue-tissue interactions needed for the complex morphogenetic processes of native organogenesis. Here, we show ...
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One of the long-standing goals in the field of tissue engineering is the fabrication of de novo tissues or even organs to provide better tissue models for basic research and drug discovery, and to alleviate a shortage of donor organs in the future. Resear ...
Defined matrices for epithelial organoid culture and disease modelling
Advances in our understanding of the biology of stem cells and their niches have provided the necessary foundation to create in vitro complex self-organizing three-dimensional (3D) structures called organoids. While organoids represent a highly promising n ...
EPFL2021New and improved methods for integrated models of metabolism and gene expression
The beginning of the 21st century was marked by the advent of disruptive technologies, which ushered an era of groundbreaking advances in fundamental sciences, carried by the great pace at which computational capabilities spread and evolved. But the new ce ...
EPFL2021Homeostatic mini-intestines through scaffold-guided organoid morphogenesis
Matthias Lütolf, Nathalie Brandenberg, Yoji Tabata, Nikolche Gjorevski, Mikhail Nikolaev, Nicolas Antoine Vincent Broguiere, Olga Mitrofanova, Devanjali Dutta
Epithelial organoids, such as those derived from stem cells of the intestine, have great potential for modelling tissue and disease biology(1-4). However, the approaches that are used at present to derive these organoids in three-dimensional matrices(5,6)r ...
NATURE PUBLISHING GROUP2020