📢 Speaker Update!
Florian Fuchs from HeartBeat.bio AG will be sharing groundbreaking insights into cardiac organoid technology for drug discovery and safety testing at our upcoming event.
Don't miss this chance to learn how HeartBeat.bio is advancing cardiac research and transforming drug development! 🌟
📅 1st of October | Free Admission
Limited spots available—reserve your spot now!
#Organoids #DrugDiscovery #Cardiotoxicity #HeartResearch #Innovation #Networking
Fancy winning a Large YETI mug?
We've launched a short survey to gather your valuable insights and help improve our microplate reader and compliance solutions.
Your feedback will play a crucial role in shaping the future of our technology and services, and people who partake will be entered into a prize draw for a large 30oz (887ml) YETI travel mug.
We're picking TWO winners every month!
Survey Link: https://lnkd.in/ewuvURSZ
T&C's apply: https://lnkd.in/gSUygViJ
There's still time to register! Join Dr. Elizabeth A. Proctor as she explores advanced cell culture approaches that help scientists streamline workflows, overcome the complexities of 3D biology, and promote drug discovery and precision medicine. Don't miss this opportunity to hear expert insights on cutting-edge 3D cell culture techniques that are revolutionizing drug discovery and precision medicine.
💻 NEW WEBINAR | The Future of Disease Modeling for Precision Medicine
Join experts from The Scientist and Molecular Devices as they explore advanced cell culture approaches that help scientists streamline workflows, overcome the complexities of 3D biology, and promote drug discovery and precision medicine.
Key takeaways include:
▪︎ How human-derived cerebral organoid models of Alzheimer’s disease enable discovery and therapeutic screening
▪︎ How studies of brain organoid microglia inform synaptic health, disease states, and drug target discovery
▪︎ The promise of iPSC-derived brain organoids for precision medicine testing of therapeutics against a patient’s own cells
#DiseaseModeling #DrugDiscovery #Organoids #3DBiology #TheFutureofCellCulture#Alzheimers
Using #automatedimaging, #AI-powered deep learning and specialised data analytics software can substantially improve the robustness of your cell painting assay – leading ultimately to deeper insights and more reliable data.
https://lnkd.in/ga6VPkYP
#cellpainting #phenotypicprofiling #highcontentimaging
Day 1 at Labdays Copenhagen is underway! ✅
We are at Booth 36, come and visit our experts, Maja Hoi and Louise Midtgaard who can tell you all about the different solutions Molecular Devices can offer to help scale up your lab 👍
#Labdays #Copenhagen #LifeScience #MolDev
Assay-ready organoids are now available for purchase.
Designed to help researchers start using #organoids quickly, simply and easily, our new 3D Ready Organoids enable you to explore the potential of organoid models in your own research.
Interested? Visit our website to learn more!
https://lnkd.in/e3ei6Je5
Interested in hearing expert perspectives on #3Dbiology and the role it plays in making next-gen drug discovery a reality?
We've curated insights from our in-house experts, on everything from the importance of diversity in the drug discovery process to #geneediting of organoids to the role #deeplearning and #ai will play in the future.
Visit our blog to learn more!
https://lnkd.in/eP78EjFZ
💻 UPCOMING WEBINAR | New Minis Analysis in Axon™ pCLAMP™ Software: Minis Search
Miniature excitatory post-synaptic currents (mEPSCs) or inhibitory post-synaptic currents (mIPSCs)—also known as "Minis"—are important bioelectrical signals used to communicate among neurons. Minis can be recorded by using an electrophysiology tool in experimental environments. Driven by neuroscientists' request for improved analysis of recorded minis, we have developed the Minis Search feature in the latest version of our Axon pCLAMP 11.4 software.
This new feature offers a streamlined workflow for detecting minis events, enhancing accuracy in measurements and simplifying event addition and deletion. In this webinar, Dr. Jeffrey Tang will demonstrate how to use Minis Search to perform analysis.
Learn how to:
▪︎ Streamline the workflow for detecting minis events
▪︎ Enable accurate measurement on each detected event
▪︎ Easily add or delete missing or unwanted events
▪︎ Detect superimposed events
▪︎ Adjust the event baseline
▪︎ Display slope marker and fitting curve
▪︎ Save and re-open the data file
Don't miss this opportunity to elevate your minis analysis skills and gain firsthand insights from Dr. Tang on leveraging the powerful new features of pCLAMP 11.4. Register now ➡️ https://bit.ly/3MoBsyf
#Electrophysiology #Neuroscience #MinisAnalysis #LaboratoryTechniques #BiophysicalResearch #Ephys
Electrophysiology, Microplate Reader and GxP consultant at Molecular Devices
2moLooking good!!