🌍 Join us as we continue our journey through the history of scientific discovery! Ep. 6 - The First Use of Cell Spheroids 🔬 In the 1970s and 1980s, the first use of cell spheroids marked a significant advancement compared to traditional 2D cell cultures. Since in vivo cells interact with their environment in three dimensions, early 3D cell cultures led to the creation of more predictive in vitro cell models for various applications, including cancer research and drug testing. What awaits us in 2024? 🚀 Stay tuned to find out more at Euroocs 2024! 🚀 #Tokyo #Millifluidic #MIVO #ScientificResearch #Euroocs2024
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Breakthrough in Cancer Treatment: Delivering Proteins Inside Cells with Hybrid Nanotubes How can nanotechnology be a valuable tool for cancer prevention and treatment? Intracellularly delivered LOx can selectively target and kill cancer cells while sparing healthy ones, offering a precise cancer treatment approach. This exceptional story was written by Dr Michael Broadly and published on Health and Science publication on Medium. You can read it via my friend link https://lnkd.in/gTM8WWK8
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A new dimension of cancer cell culture A new dimension in cancer cell modeling is here! The tumoroid, also known as a cancer organoid, workflow offers cancer researchers… · Access to more physiologically relevantcancer modeling · Improved in vitro predictivity · Opportunity to “Fail early, fail cheaply” However, it can be time-consuming to adopt a 3D model system or to implement new media into an existing workflow. Utilizing a service to outsource initial modeling projects allows our customers to view the output and benefits of tumoroid models without the significant investment of adapting lab and staff to work with a 3D system. Learn more about the benefits of 3D modeling and how our team of scientists are at your service. URL: https://lnkd.in/eAfCBqBT #3DCancerResearch #tumoroidculture #tumoroid #cancerorganoids #oncopro
Tumoroid Modeling and Assay Development | Thermo Fisher Scientific - US
thermofisher.com
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Microscopy and Plate Reader–based Methods for Monitoring the Interaction of Platelets and Tumor Cells in vitro ➡ https://lnkd.in/d9rrbyvc 👉 Platelets are key players in cancer metastasis, and we're revolutionizing drug discovery with in vitro methods. 👉By isolating and labeling platelets for co-culture with tumor cells, Veeresh Toragall, PhD, , Elizabeth J. Hale, Kenneth Hulugalla and Thomas Werfel at University of Mississippi have potentially fast-tracked antiplatelet #drug screening. 👉#Promising results show ifetroban's potential in disrupting #platelet-#tumor cell interactions. 🌟 Stay tuned to Bio-protocol to know more on such useful tools in the fight against cancer! #CancerResearch #DrugDiscovery #Platelets #Metastasis #Science #bioprotocol #reprodicibility #reproduciblescience #openaccess
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Join this webinar to learn how to make the most of your advanced HCMI models! There’s still plenty of room!
The #HCMI program provides the research community with high-quality cancer models via ATCC and associated clinical, #biospecimen, and molecular characterization data via NCI’s Genomic Data Commons. Join our upcoming #webinar to learn more about the HCMI program and how to better search and identify models of interest. Register now: https://ow.ly/E7Kk50PqPXW
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Looking to the future at what lies ahead in #cancerresearch, our CSO, Stefano Gullà spoke with Megan Thomas at Drug Discovery World (DDW) to discuss how Artificial Intelligence🖥will play an increasing role in both research and clinical development of next generation cancer treatments! Stefano commented 'With ongoing advances in technology, the landscape is poised for continued innovation and the development of transformative therapies that will improve patient outcomes and ultimately lead to better cancer prevention, diagnosis, and treatment strategies.' 📰 Find the Global Cancer Research Guide on page 40 in #DDW’s Summer issue 2024 here: https://bit.ly/3XGUYgl
DDW Summer 2024 - Drug Discovery World (DDW)
https://www.ddw-online.com
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Leveraging AlphaFold and AI for Rapid Discovery of Targeted Treatments for Liver Cancer Accelerating Drug Discovery with AI: The Role of AlphaFold in Targeting Liver Cancer: AI is significantly transforming the field of drug discovery, offering new ways to design and synthesize medicines more efficiently. A notable example is AlphaFold... https://lnkd.in/e4H3cskS #AI #ML #Automation
Leveraging AlphaFold and AI for Rapid Discovery of Targeted Treatments for Liver Cancer
openexo.com
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Leveraging AlphaFold and AI for Rapid Discovery of Targeted Treatments for Liver Cancer Accelerating Drug Discovery with AI: The Role of AlphaFold in Targeting Liver Cancer: AI is significantly transforming the field of drug discovery, offering new ways to design and synthesize medicines more efficiently. A notable example is AlphaFold... https://lnkd.in/e4H3cskS #AI #ML #Automation
Leveraging AlphaFold and AI for Rapid Discovery of Targeted Treatments for Liver Cancer
openexo.com
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A cancer cell has electrical properties that can relay information about its physiology, cancer state, and degree of drug resistance. However, disruptive techniques do not allow researchers to investigate these properties at the single-cell level. In a cancer cell monitoring breakthrough, scientists at Tokyo University of Science have developed a new microfluidic platform that improves the electrorotation analytical approach to determine the electrical properties of a number of cells. They validated this device by determining cancer cell membrane permittivity and cytoplasm conductivity. Read more about the research which was recently published in Lab on a Chip, here: https://ow.ly/p7Bc50Qhf3K #ResearchNews #TokyoUniversityOfScience #Device #LabOnAChip #Cancer #CellProperties #Electrorotation #CellCharacterization #SingleCellResearch #HighThroughput #Microfluidics
Non-Invasive Technology for the High-Throughput Characterization of Cancer Cells
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What happens when chemical engineering meets biomedicine? ✨ World, meet R3CE A game-changing 3D culture platform provides researchers with the means to delve deep into the realms of cancer research, clinical treatments, and drug discovery. R3CE stands for "Rapid, Reproducible, and Rare Cell 3D Expansion." The revolutionary technique allows rare cells, such as CTC, to be captured and cultivated for subsequent research. Our groundbreaking research has now set its sights on breast, lung, and colon cancer, promising new horizons in understanding and combating these diseases. Follow us on LinkedIn for the latest insights and discoveries! #AcroCyte #3DCellCulture #PrecisionMedicine #CirculatingTumorCell #Organoid #Cancer #DrugDiscovery
R3CE 3D Cell Culture
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Don't miss out: this webinar walks you through how to access the clinical and molecular characterization data associated with the Human Cancer Models Initiative!
The #HCMI program provides the research community with high-quality cancer models via ATCC and associated clinical, #biospecimen, and molecular characterization data via NCI’s Genomic Data Commons. Join our upcoming #webinar to learn more about the HCMI program and how to better search and identify models of interest. Register now: https://ow.ly/E7Kk50PqPXW
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