WORLD ORGANOID RESEARCH DAY+ Speakers include:
Professor Thomas Hartung
Professor Luc JW van der Laan
See all the speakers here
Specialises in organoid cultures in toxicology and the use of artificial intelligence at Johns Hopkins Bloomberg School of Public Health, USA. Discussion Panel member.
See all the speakers here
Professor Luc JW van der Laan
See all the speakers here
From Organoids in virus research to Organoids in Space, this promises to be the best in person event yet for Organoid and Organ-on-a-chip researchers!
Professor Luc JW van der Laan
Professor Luc JW van der Laan
Professor Luc JW van der Laan
Specialises in translational research of liver organ transplantation and organoid technology at the Erasmus MC Transplant Institute, UMC, Netherlands. Discussion Panel member.
Professor Dasja Pajkrt
See all the speakers here
Professor Luc JW van der Laan
Specialises in human organoid models for virus and Paediatric Infectious Disease research at OrganoVIR Labs and Amsterdam UMC, Netherlands. Discussion Panel member.
See all the speakers here
See all the speakers here
See all the speakers here
From Organoids in virus research to Organoids in Space, this promises to be the best in person event yet for Organoid and Organ-on-a-chip researchers!
Professor Hugo Vankelecom
See all the speakers here
See all the speakers here
Specialises in the biology of stem cells in tissues in both health and disease. KU Leuven, Belgium.
Discussion Panel member.
Dr Madeline Lancaster
See all the speakers here
See all the speakers here
Specialises in Human brain development in cerebral organoids at the MRC Laboratory of Molecular Biology (LMB), U.K.
Discussion Panel member.
See all the speakers here
See all the speakers here
See all the speakers here
From Organoids in virus research to Organoids in Space, this promises to be the best in person event yet for Organoid and Organ-on-a-chip researchers!
Dr Luned Badder
See all the speakers here
Dr Luned Badder
Specialises in using organoids as pre-clinical model systems to evaluate the efficacy of precision anti-cancer virotherapies. Cardiff University, U.K
Discussion Panel member.
All the latest ORGANOID papers
MDPI Organoids
The Company Of Biologists
MDPI Organoids
Frontiers
The Company Of Biologists
MDPI Organoids
The Company Of Biologists
The Company Of Biologists
The Company Of Biologists
Nature
Elsevier Publications
The Company Of Biologists
Elsevier Publications
Elsevier Publications
Elsevier Publications
PubMed
Elsevier Publications
Elsevier Publications
Join us!
Google Scholar
Google Scholar
Google Scholar
Google Scholar
Google Scholar
Join us!
Google Scholar
Join us!
Technology publication highlights
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
UPM Biomedicals. Scalable and Automated Three-Dimensional Cell Cultures.
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
Scalable and Automated Three-Dimensional Cell Cultures for High-Throughput and High-Content Screening with GrowDex® hydrogels
Organoid Cell Culture & Cryopreservation Tools for growth, harvesting & storage
Celldynamics. Lab weighing and sorting of organoids and spheroids with the W8. Scroll down to paper.
Scalable expansion of iPSC and their derivatives across multiple lineages with CERO 3D.
AMSBIO is launching a suite of products to assist the increasing number of scientists adopting these structures for use in...
Scalable expansion of iPSC and their derivatives across multiple lineages with CERO 3D.
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Scalable expansion of iPSC and their derivatives across multiple lineages with CERO 3D.
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Scientist on July 19, 2022
Tropism of AAV Vectors in Photoreceptor-Like Cells of Human iPSC-Derived Retinal Organoids
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Design, Develop, Deliver: 10 FAQs About PhenoVista Biosciences’ Assay Development Services
Michelle E. McClements, Hannah Steward, William Atkin, Emily Archer Goode, Carolina Gándara, Valeria Chichagova, and Robert E. MacLaren
Qkine. Adult stem cell-derived organoids media recipe quick reference guide and posters.
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Qkine. Adult stem cell-derived organoids media recipe quick reference guide and posters.
CN-BIO. Transform discovery with predictive human organ models.
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Qkine. Adult stem cell-derived organoids media recipe quick reference guide and posters.
Application notes, webinars, videos, guides and more.
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Cellesce develops bioprocessing systems for the expansion of organoids in significant volumes in a way that minimises handling time and maximises reproducibility as a costeffective model for early-stage drug discovery.
MIMETAS: Neuromuscular junction-on-a-chip
MIMETAS: Neuromuscular junction-on-a-chip
Cellesce’s bioreactor technology for the expansion of patient-derived breast cancer organoids
Neuromuscular junction-on-a-chip: ALS disease modelling and read-out development in microfluidic devices.
StemCultures
MIMETAS: Neuromuscular junction-on-a-chip
Crown Bioscience
Gain Better Control of your Cell Culture Conditions. Technology for Sustained Delivery of Recombinant Proteins
Crown Bioscience
MIMETAS: Neuromuscular junction-on-a-chip
Crown Bioscience
Organoids for Oncology Drug Development
Getting noticed
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
"In this episode, podcast host Dr. Dwight Stoll talks with Dr. Steven Ray Wilson (above), a professor in the Department of Chemistry at the University of Oslo, Norway. In the conversation, Dr. Wilson shares his thoughts on a broad range of topics including the opportunities that organoid analysis presents, the potential for organoids to influence environmental chemistry, publishing on pre-print servers, and more".
Analytically Speaking Ep. 12: Hyphenating Organoids with Chromatography.
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
"In this episode, podcast host Dr. Dwight Stoll talks with Dr. Steven Ray Wilson (above), a professor in the Department of Chemistry at the University of Oslo, Norway. In the conversation, Dr. Wilson shares his thoughts on a broad range of topics including the opportunities that organoid analysis presents, the potential for organoids to influence environmental chemistry, publishing on pre-print servers, and more".
HOT! 'Three-dimensional in vitro culture models in oncology research'
Organoid intelligence (OI): the new frontier in biocomputing and intelligence-in-a-dish
'Human Brain Organoid: A Versatile tool neurodegeneration Diseases and for Drug Screening
Jubelin C, Muñoz-Garcia J, Griscom L, Cochonneau D, Ollivier E, Heymann MF, Vallette FM, Oliver L, Heymann D. Three-dimensional in vitro culture models in oncology research. Cell Biosci. 2022 Sep 11;12(1):155. doi: 10.1186/s13578-022-00887-3. PMID: 36089610.
'Human Brain Organoid: A Versatile tool neurodegeneration Diseases and for Drug Screening
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
'Human Brain Organoid: A Versatile tool neurodegeneration Diseases and for Drug Screening
Ma C, Seong H, Li X, Yu X, Xu S, Li Y. Human Brain Organoid: A Versatile Tool for Modeling Neurodegeneration Diseases and for Drug Screening. Stem Cells Int. 2022 Aug 25;2022:2150680. doi: 10.1155/2022/2150680. PMID: 36061149; PMCID: PMC9436613.
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
Chew SH, Martinez C, Chirco KR, Kandoi S, Lamba DA. Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids. Invest Ophthalmol Vis Sci. 2022 Sep 1;63(10):12. doi: 10.1167/iovs.63.10.12. PMID: 36129723.
'Uncovering the mode of action of engineered T cells in patient cancer organoids'
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
'Timed Notch Inhibition Drives Photoreceptor Fate Specification in Human Retinal Organoids'
Dekkers, J.F., Alieva, M., Cleven, A. et al. Uncovering the mode of action of engineered T cells in patient cancer organoids. Nat Biotechnol (2022). https://doi.org/10.1038/s41587-022-01397-w
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
Beghin, A., Grenci, G., Sahni, G. et al. Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification. Nat Methods (2022). https://doi.org/10.1038/s41592-022-01508-0
'Everything You Always Wanted to Know About Organoid-Based Models (and Never Dared to Ask)'
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
Isabelle Hautefort, Martina Poletti, Diana Papp Tamas Korcsmaros
Open Access Published:May 24, 2022 :https://doi.org/10.1016/j.jcmgh.2022.04.012
'PDOs identify an apico-basolateral polarity switch associated with survival in colorectal cancer'
'Automated high-speed 3D imaging of organoid cultures with multi-scale phenotypic quantification)'
'PDOs identify an apico-basolateral polarity switch associated with survival in colorectal cancer'
Canet-Jourdan C, Pagès DL, Nguyen-Vigouroux C, Cartry J, Zajac O, Desterke C, Lopez JB, Gutierrez-Mateyron E, Signolle N, Adam J, Raingeaud J, Polrot M, Gonin P, Mathieu JRR, Souquere S, Pierron G, Gelli M, Dartigues P, Ducreux M, Barresi V, Jaulin F. Patient-derived organoids identify an apico-basolateral polarity switch associated with survival in colorectal cancer. J Cell Sci. 2022 Jun 15:jcs.259256. doi: 10.1242/jcs.259256. Epub ahead of print. PMID: 35703098.
'A stochastic mathematical model of 4D tumour spheroids with real-time fluorescent cell cycle..'
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
'PDOs identify an apico-basolateral polarity switch associated with survival in colorectal cancer'
A stochastic mathematical model of 4D tumour spheroids with real-time fluorescent cell cycle labelling. Jonah J. Klowss, Alexander P. Browning, Ryan J. Murphy, Elliot J. Carr, Michael J. Plank, Gency Gunasingh, Nikolas K. Haass† and Matthew J. Simpson
'3D liver cell models - a tool for bridging the gap between animal studies and clinical trials...'
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
Tutty MA, Movia D, Prina-Mello A. Three-dimensional (3D) liver cell models - a tool for bridging the gap between animal studies and clinical trials when screening liver accumulation and toxicity of nanobiomaterials. Drug Deliv Transl Res. 2022 May 4:1–27. doi: 10.1007/s13346-022-01147-0. Epub ahead of print. PMID: 35507131; PMCID: PMC9066991.
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
'Patient-derived organoids and a characterization-based drug discovery platform for treatment of..'
Watanabe S, Yogo A, Otsubo T, Umehara H, Oishi J, Kodo T, Masui T, Takaishi S, Seno H, Uemoto S, Hatano E. Establishment of patient-derived organoids and a characterization-based drug discovery platform for treatment of pancreatic cancer. BMC Cancer. 2022 May 3;22(1):489. doi: 10.1186/s12885-022-09619-9. PMID: 35505283; PMCID: PMC9063137.
All the latest Organ-on-a-chip papers
PubMed
The Company Of Biologists
PubMed
Nature
The Company Of Biologists
PubMed
The Company Of Biologists
The Company Of Biologists
The Company Of Biologists
Organoid or Spheroid?
What's the difference?
Spheroids
- Simple 3D clusters of single or multiple cell types.
- Do not self-assemble, simply stick together.
- No need for supportive/scaffolding in vitro matrices.
- Cannot regenerate and difficult to long term culture.
- Very successful for disease modelling (including recreating tumours) and stem cell research in Drug Discovery. Inexpensive.
Organoids
- Complex 3D clusters of multiple cells (stem, progenitor) from a specific organ. Self-assemble.
- Require supportive/scaffolding in vitro matrices.
- Form miniature versions of viable parent organs such as mini-gut, mini brain mini lung etc.
- Regenerate, good for long term culture for in vivo like studies.
- Very successful for disease modelling, drug discovery and regenerative medicine.
Prospective Instruments' MPX
MPX, the world’s first turnkey, compact, fully integrated, next-generation multiphoton microscope!
The MPX combines different imaging techniques in one easy-to-use and portable device: non-linear MP (two-photon, SHG & THG) and widefield epi-fluorescence and fluorescence lifetime imaging to maximize informational content, ranging from single cells up to living animals.
Jump to organoid model research
