We were honored to welcome Congressman Jerry Nadler to NYSCF recently. His visit highlights the importance of continued support for scientific research and innovation. Stem cell technology in New York City is rapidly advancing, with cutting-edge research institutions like NYSCF leading the way in innovative medical treatments and therapies. This progress is positioning NYC as a global hub for biotechnology, attracting top talent and significant investments in the healthcare sector. Congressman Nadler met with a group of NYSCF scientists, including Dr. Daniel Paull, Senior Vice President, Discovery and Platform Development at NYSCF. Dr. Paull oversees the NYSCF Global Stem Cell Array®, our fully robotic platform that brings the power of automation to stem cell research and disease modeling and allows scientists to study how disease affects patient populations.
The New York Stem Cell Foundation Research Institute’s Post
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🔧 Engineering New Models of the Human Gut 🔧 New R&D innovation merges stem cell biology with advanced engineering to create more accurate models of human organs for drug research and development. This could eventually lead to faster, safer and more tailored treatments. In a recent study by Roche #pRED and #TeamIHB scientists and EPFL collaborators, a new organoid-on-a-chip system combines the biological complexity of organoids with the precision of organs-on-a-chip. These innovative models exhibit unprecedented cellular diversity and longevity, as well as biological responses observed in human patients, offering detailed mechanistic understanding that can enable more precise therapeutic interventions. Read more 👉 http://spkl.io/60494AzaN #RocheInnovation #HealthInnovation
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Advanced in vitro models like organ on a chip or organoids are amazing technologies. Watchout this press release from roche to know more about the work done in the IHB, which I mentioned in the first post of the Organoids Series.
🔧 Engineering New Models of the Human Gut 🔧 New R&D innovation merges stem cell biology with advanced engineering to create more accurate models of human organs for drug research and development. This could eventually lead to faster, safer and more tailored treatments. In a recent study by Roche #pRED and #TeamIHB scientists and EPFL collaborators, a new organoid-on-a-chip system combines the biological complexity of organoids with the precision of organs-on-a-chip. These innovative models exhibit unprecedented cellular diversity and longevity, as well as biological responses observed in human patients, offering detailed mechanistic understanding that can enable more precise therapeutic interventions. Read more 👉 http://spkl.io/60494AzaN #RocheInnovation #HealthInnovation
Roche | Engineering models of the human gut
roche.com
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🔬🌿 Unlocking the Power of Stem Cells: A Journey Through Potency and Promise 🧬 In our latest blog post, we dive deep into the world of stem cells, exploring the different types and their potency. From the pluripotent embryonic stem cells (ESCs) to the multipotent adult stem cells (ASCs) and the groundbreaking induced pluripotent stem cells (iPSCs), we unravel the unique properties and potential applications of each type. 🔍 We also shine a spotlight on mesenchymal stem cells (MSCs), a promising subtype of ASCs that have garnered significant attention in regenerative medicine. 💪 Companies like 23 Century Lifecord in Malaysia are at the forefront of harnessing the power of MSCs derived from umbilical cord blood to develop innovative treatments for various conditions. 🇲🇾 But which stem cell type holds the most promise? 🤔 We compare the potency and characteristics of ESCs, ASCs, and iPSCs, discussing the advantages and limitations of each. While ESCs offer the broadest differentiation potential, ethical concerns and the risk of teratoma formation have limited their clinical applications. ASCs, particularly MSCs, provide a more accessible and ethically acceptable option, with the ability to target specific tissues and exert immunomodulatory effects. iPSCs bridge the gap between ESCs and ASCs, enabling patient-specific therapies and disease modeling, but their clinical translation is still in the early stages. The future of stem cell-based therapies is bright, and by staying informed about the latest developments and supporting ongoing research efforts, we can contribute to the advancement of these life-changing technologies. 🌟 Read our blog post now to uncover the fascinating world of stem cells and learn how companies like 23 Century Lifecord are pushing the boundaries of regenerative medicine! 🔗 Link in the comments below. 👇 https://lnkd.in/gSw2ACG2 #StemCells #RegenerativeMedicine #CellTherapy #MedicalResearch #23CenturyLifecord #Biotechnology #Science #Innovation
Which Stem Cells Have The Most Potency?
23clifecord.com
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Cellino Biotech is automating the production of high-quality induced pluripotent stem cells (#IPSC), a breakthrough that could make personalized, regenerative treatments more accessible and efficient. I met with Nabiha Saklayen, Ph.D. to discuss how #machinelearning, #laseroptics, and #stemcell biology can pave the way for stem cell-derived #regenerativemedicine. https://lnkd.in/eazrpUDG
The Role Of Stem Cell Biology, Machine Learning, And Laser Physics On Regenerative Medicine
cellandgene.com
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Have you ever thought about how your cells feel after sorting? 🤔 This article touches "the impact of shear forces, osmotic forces, laser excitation, and electrical charges on cell health during traditional FACS" in stem cell research. https://lnkd.in/e8--8Xnv Need hard scientific data about the impact on cells? 😱 This recent publication from AstraZeneca makes a strong case why sorting with the microfluidic sorter MACSQuant Tyto has a minimum impact on the metabolism of cells and is less disruptive compared to classical droplet-based sorting. https://lnkd.in/eEi8wvnT Want to know why the Tyto is such a gentleman? 😇 It´s all about pressure, decompression, charges and shear forces. Get more insights here: https://lnkd.in/e-zautJa #astrazeneca #metabolomics #cellandgenetherapy #sterile #infectiousdisease #personalizedmedicine #flowcytometry #facs #microfluidic
Cell Sorting in Stem Cell Research - FluoroFinder
https://fluorofinder.com
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The research article "Serum-Induced Proliferation of Human Cardiac Stem Cells Is Modulated via TGFβRI/II and SMAD2/3", which I co-authored, has just been published. 📚 📖 Read the full article here: https://lnkd.in/e-zE52Kc A big shoutout to MDPI for their support! 🙌#CardiacStemCells #Research #Science
Serum-Induced Proliferation of Human Cardiac Stem Cells Is Modulated via TGFβRI/II and SMAD2/3
mdpi.com
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Journal of Stem Cell Research Stem cell research stands at the forefront of medical science, offering the potential to revolutionize the way we understand and treat a wide array of diseases and injuries. By investigating the unique properties and capabilities of stem cells, researchers aim to unlock new therapies that can regenerate damaged tissues, treat incurable diseases, and improve patient outcomes. Stem cells are unique cells with the ability to develop into many different cell types in the body during early life and growth. They serve as a repair system, replenishing adult tissues. Read our recent published work at: https://lnkd.in/gB5FdYzX Submit your work at: [email protected] For anymore queries whatsapp at: 1 (438) 699-5365 #stemcell #celltherapy #StemCellInnovation #CallForPapers #ResearchSubmission #BiotechResearch #InnovativeTherapies #StemCellScience #RegenerativeMedicine #StemCellResearch #postdoc #researcher
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Today on the international clinical trials day I would like to highlight the important labor of the clinical researchers and scientists. In the rapidly growing fields of longevity and stem cell therapy, the role of dedicated research developers and scientists is more crucial than ever. Our work transcends traditional medicine, aiming to uncover the intricate mechanisms of human biology and how these systems interact to extend the healthy lifespan of individuals. Clinical trials are the cornerstone of our progress, providing essential data to transform the discoveries made in research into real world applications. These trials are pathways to innovative treatments that can revolutionize healthcare and enhance quality of life. As scientists and research developers, our commitment to meticulous research and rigorous clinical testing ensures that every discovery is thoroughly evaluated for safety and efficacy. Our efforts are geared towards translating complex scientific concepts into tangible health benefits, fostering a future where longevity and well-being are accessible to all. Exciting developments in stem cell therapy are definitely on the horizon, but significant challenges remain. Standardizing production, ensuring safety, and making therapies affordable are crucial. We are often facing the challenges to optimize the types and quantities of cells, understand their behavior post-transplantation, and navigate regulatory hurdles. Despite these challenges, the potential of stem cells to replace, repair, and restore damaged tissues offers immense promise for regenerative medicine. Im beyond proud of belonging to a company that truly focuses prioritizing ongoing research and innovation. Our commitment to adhering to good clinical practices and maintaining high standards in our processes ensures the safety and well-being of our patients. 🌟 #StemCellTherapy #RegenerativeMedicine #ClinicalResearch #Biotechnology
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𝐏𝐑𝐄𝐏𝐀𝐑𝐄 𝐫𝐞𝐬𝐞𝐚𝐫𝐜𝐡𝐞𝐫𝐬 𝐟𝐫𝐨𝐦 𝐂𝐨𝐩𝐞𝐧𝐡𝐚𝐠𝐞𝐧, 𝐋𝐞𝐢𝐝𝐞𝐧 𝐚𝐧𝐝 𝐌𝐞𝐥𝐛𝐨𝐮𝐫𝐧𝐞 𝐜𝐨𝐦𝐞 𝐭𝐨𝐠𝐞𝐭𝐡𝐞𝐫 𝐝𝐮𝐫𝐢𝐧𝐠 𝐭𝐰𝐨-𝐝𝐚𝐲 𝐫𝐞𝐭𝐫𝐞𝐚𝐭 What research is ethically acceptable? Will stem cell treatment be cost effective? How do we best represent the future and engage with stakeholders? How are stem cell-based medicines viewed and valued by communities? PREPARE researchers from all three Nodes came together at reNEW Leiden to discuss these and other questions during their second global retreat. The interdisciplinary team shared progress on their research and dove into future challenges and opportunities. Roslyn Le Gautier 📢 : "Gathering colleagues across the three nodes, we had the unique opportunity to learn from one another and address common challenges and key differences in our work." Melanio (Morick) Mauricio III 📢 : "This retreat has further reinforced the significance of collaboration as we work towards our goal of preparing for the delivery of stem cell therapies." Read more on how #PREPARE aims to bridge the gap between research; clinical, regulatory and commercial sectors; and the public here: https://lnkd.in/ga-Ghvwy Leiden University Medical Center Faculty of Health and Medical Sciences, UCPH Murdoch Children's Research Institute (MCRI)
Helping make stem cell medicine reach the people who need it.
https://renew.science
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Are you up to speed on the ongoing debate reshaping our approach to stem cell research, emphasising a more ethically considerate path? Our latest update delves into induced Pluripotent Stem Cells (iPSCs). Unlike embryonic stem cells, iPSCs present a less contentious alternative, steering clear of the ethical and moral debates. iPSC technology is changing regenerative medicine, enabling researchers to bypass the ethical concerns of using embryos. It's a fundamental shift in the scientific community's approach to exploring potential treatments and therapies. Stay informed with our iPSC-dedicated series of articles on how these induced Pluripotent Stem Cells could impact future medical breakthroughs. It's an exciting time for #CGT, and we're here to keep you updated, so don't forget to follow us! Do you have questions? Start a conversation with our BDs Tristan Pritchard-Meaker and Sophia Kolbe! #ipsc #stemcellresearch #celltherapymanufacturing
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