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Organoids.com search for results as listed below with the link list and email address for this website
An organoid is a miniaturized and simplified version of an organ produced in vitro in three dimensions that shows realistic micro-anatomy. They are derived from one or a few cells from a tissue, embryonic stem cells or induced pluripotent stem cells, which can self-organize in three-dimensional culture owing to their self-renewal and differentiation capacities.
Link: https://en.wikipedia.org/wiki/Organoid (Actived: Thursday Jun 13, 2019)
Organoids can range in size from less than the width of a hair to five millimeters. There are potentially as many types of organoids as there are different tissues and organs in the body. To date, researchers have been able to produce organoids that resemble the brain, kidney, lung, intestine, stomach, and liver, and many more are on the way.
Link: https://hsci.harvard.edu/organoids (Actived: Saturday Jun 15, 2019)
Link: https://www.nature.com/articles/nmeth.4575 (Actived: Tuesday Jan 2, 2018)
Culturing Organoids To date, organoid culture systems have been developed to model tissue structures from all three primary cell lineages. 3,4,6 Although different tissues require their own specific culture methods, in general, appropriate pluripotent stem cells or tissue-specific progenitor cells are embedded in Matrigel®, or another appropriate extracellular matrix.
Link: https://www.stemcell.com/technical-resources/area-of-interest/organoid-research.html (Actived: Thursday Jun 13, 2019)
Link: https://www.organoids.com/en/ (Actived: Saturday Jun 15, 2019)
Link: https://www.nature.com/articles/s41586-019-1289-x (Actived: Thursday Jun 13, 2019)
Figure 1. Mouse Intestinal Epithelial Organoids. 3D Organoids were generated from adult mouse intestinal tissue following the protocol outlined by Clevers et al. Science. 2013. Organoid cells begin to form lumens and bud structures at around day 3-5 in culture and form complex crypt-like structures around day 7-10.
Link: https://www.sigmaaldrich.com/technical-documents/articles/biology/cell-culture/3d-organoid-culture.html (Actived: Friday Jun 14, 2019)
Link: https://www.eos2019.eu/ (Actived: Friday Jun 14, 2019)
Organoids. In the 30 years since the advent of 3D culturing, organoid research has exploded. The incredible range of tissue models and techniques have also given way to some of the most captivating images being created in biology. In this edition of the Cell Picture Show, we showcase the beauty of 3D cultured organoids.
Link: https://www.cell.com/pictureshow/organoids (Actived: Friday Jun 14, 2019)
Link: https://www.nejm.org/doi/full/10.1056/NEJMra1806175 (Actived: Thursday Feb 7, 2019)
Intestinal organoids have been cultured with immune cells 10,11,33 by introduction of the non-epithelial cells in the extracellular matrix supporting the organoid culture, thus recapitulating the interactions expected to take place at the basolateral side of the epithelium.
Link: https://www.stemcell.com/technical-resources/area-of-interest/organoid-research/intestinal-research/overview.html (Actived: Saturday Jun 15, 2019)
Organoids have therapeutic potential, allowing researchers the possibility to test cancer treatments, for example, on a lab-grown sample of a patient’s tumor, or cystic fibrosis treatments on a patient’s gut organoid. But on a more basic level, organoids offer a new window into human development.
Link: https://journalistsresource.org/tip-sheets/research/organoid-brain-research-explainer/ (Actived: Wednesday Jun 12, 2019)
In vitro three-dimensional (3D) cultures are emerging as novel systems with which to study tissue development, organogenesis and stem cell behavior ex vivo . When grown in a 3D environment, embryonic stem cells (ESCs) self-organize into organoids and acquire the right tissue patterning to develop into several endoderm- and ectoderm-derived tissues, mimicking their in vivo counterparts.
Link: http://dev.biologists.org/content/142/18/3113 (Actived: Saturday Jun 15, 2019)
Within organovir the research programme is a full package ITN programme which enables 15 ESRs to familiarize themselves not only with the scientific and technical aspects of innovative 3D culture systems for virus research, but also with the financial, commercial, ethical, communicative, policy and dissemination aspects enabling optimal valorisation of organoids.
Link: https://organovir.com/ (Actived: Thursday Jun 13, 2019)
The goal of this Cell Symposium is to bring scientists studying organoids and organ engineering together with bioengineers to discuss the exciting opportunities and challenges for engineering complexity in higher-order organ-like systems and to foster collaborations and synergize efforts toward generating cellular platforms that can address a
Link: http://www.cell-symposia.com/organoids-2019/ (Actived: Friday Jun 14, 2019)