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Search results for: 'wp json wp v2 posts 44173'

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  • Branching out: In vitro angiogenesis advancements

    In this interview with RegMedNet, our expert, Iris Bischoff-Kont, discusses the latest advancements in angiogenesis research and their potential applications in regenerative medicine. Dr Bischoff-Kont also explores the challenges faced in translating angiogenesis research findings into clinical therapies and the importance of understanding the crosstalk between angiogenesis and other processes like inflammation…. Go To Page

  • Accelerating regenerative medicine with air-liquid interface (ALI) technology

    Gain expert insights into the increasing relevance of ALI in regenerative medicine from our in-depth interview featured on RegMedNet…. Go To Page

  • The importance of MSC characterization

    Characterization of mesenchymal stem cells (MSCs) is vital for their successful application in regenerative medicine. These multipotent cells can differentiate into several cell types, making them a promising therapeutic option for various diseases. In our blog post, we discuss the importance of MSC characterization in ensuring standardized and reproducible cell isolation,… Go To Page

  • Advancements and applications of tumor organoids in cancer research

    Organoid models of patient-specific tumors are transforming our understanding of cancer heterogeneity and its implications for personalized medicine. In this interview with BioTechniques, our experts, Janina Moros, Alexander Trampe and Zinnia Noor, discuss the benefits of tumor organoids, how to establish and culture them and their applications across different areas of cancer biology…. Go To Page

  • 15 cell culture facts: Things about cell culture you might not know

    As a researcher working in cell culture, you must have a deep understanding of your specific research area. However, scientific knowledge is advancing rapidly. Therefore, keeping up with all the developments in cell-based research can be challenging. In this article, we present 15 facts about cell culture that can add to your knowledge…. Go To Page

  • Advancing angiogenesis research for tissue repair and regeneration

    Angiogenesis, the formation of new blood vessels, is critical for tissue repair and regeneration. Gain expert insights into the latest angiogenesis research from our in-depth interview featured on RegMedNet…. Go To Page

  • Tumor organoids – a new dimension in cancer research

    Tumor organoids offer a more accurate representation of the 3D tumor microenvironment, opening new avenues for cancer research and personalized medicine. However, establishing and maintaining tumor organoids can be more challenging than working with 2D cell cultures…. Go To Page

  • In vitro angiogenesis: Advancing biomedical research

    Scientists have used in vitro angiogenesis as a model to further our understanding of the formation of blood vessels and the potential for therapeutic interventions. Curious to learn how? Read on to learn about the role of innovative in vitro models in unraveling the mechanisms regulating angiogenesis in a controlled laboratory setting…. Go To Page

  • Now available: Cryo-SFM Plus – The ultimate cryopreservation medium

    Cryo-SFM Plus, our high-performance cryopreservation medium, is here! Find out how it can benefit your research…. Go To Page

  • Optimizing cryopreservation: Serum-free cell freezing medium

    Cryopreservation is an integral part of biomedical research and clinical applications. However, maintaining cell viability and function during freezing and thawing can be challenging. Serum-free cryopreservation media formulations are advanced solutions that can be used instead of serum-containing freezing media to maintain cell function while ensuring reproducibility and standardization — read on to learn why…. Go To Page

  • Endothelial to mesenchymal transition: Beyond blood vessels

    Endothelial to mesenchymal transition (EndMT) is a complex biological process that is essential for various physiological functions, from embryonic development to tissue repair.1 But what happens when the mechanisms underlying EndMT are deregulated? In this article, we explore the intricacies of EndMT, discussing its mechanisms, role in health and disease, and therapeutic potential…. Go To Page

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