Discover the Latest in Biomedical Research Innovation

CLYTE, a trailblazing AI-biotech startup, is revolutionizing biomedical research. With groundbreaking innovations like the AI lab assistant Soφ, the precision tool CellCut, and the upcoming cell culture monitor Cadmus, CLYTE is tackling inefficiencies and enhancing research standardization. Their unique "First-Client Initiative" offers researchers free access to beta products, fostering a collaborative approach to scientific discovery and accelerating the pace of healthcare i

Emerging startups play a vital role in shaping the landscape of research innovation. In a fast-paced world driven by technological advancements, these nimble companies often introduce fresh ideas that challenge conventional wisdom. The synergy between agile startups and research institutions can lead to breakthroughs that ultimately benefit society.

Your scratch assay images look amazing, but are they statistically significant? Don't let your groundbreaking research get rejected for weak data analysis. Many researchers see a clear difference in cell migration but struggle to prove it with the right stats. This guide breaks down the intimidating process into simple, actionable steps. Learn how to choose the right test (t-test vs. ANOVA), avoid common pitfalls like pseudo-replication, and confidently turn your results into

Frustrated by peeling monolayers and mysterious gaps ruining your scratch assay? Don't discard that plate just yet! A single variable in your setup is the likely culprit, sabotaging your results before you even make the scratch. Uncover the simple cause behind monolayer detachment and learn the essential techniques to guarantee flawless, reproducible data in every single well. The definitive fix is inside.

Research innovation is an essential driver of progress in various fields, from healthcare to technology. It can shape how we understand our world and create solutions for its challenges. As we delve into the emerging trends in this exciting landscape, we find new technologies and methodologies that promise to transform traditional research paradigms.

Unlock the full potential of your scratch assays! Are you confident in your cell migration results? This definitive guide reveals why positive and negative controls are non-negotiable for robust, publishable data. Learn to select the best controls—from EGF and serum to cytochalasin D—and integrate them seamlessly into your workflow. We provide step-by-step instructions and pro-tips to help you eliminate ambiguity, troubleshoot with precision, and make confident claims about y

Struggling to distinguish between cell migration and proliferation in your scratch assays? Uncover the definitive solution with Mitomycin C! This powerful DNA crosslinking agent halts cell division, allowing you to isolate and measure true cell motility with confidence. Our comprehensive guide provides a step-by-step protocol, from preparing your stock solution to analyzing your results, ensuring your wound healing data is both accurate and reproducible.

Unlocking the future of medicine starts with the right tools. Biomedical research tools—like cell lines, chemical probes, and data platforms—are essential for turning scientific discoveries into real treatments. Validated and widely shared, these tools power breakthroughs in disease understanding and drug development. Learn how they bridge the gap between lab research and patient care, accelerating medical progress for everyone.

Unlock crystal-clear, high-contrast views of cell migration with Live/Dead staining! This powerful technique vividly stains live cells green and dead cells red, enabling precise quantification of wound healing and providing crucial insights into cell viability. Elevate your research from basic observation to high-content analysis with this simple, 30-minute protocol. Discover how to get sharper data and more compelling visuals for your regenerative medicine, drug testing, or

The field of biomedical research has undergone tremendous advancements over the past few decades. These innovations are not just reshaping our understanding of health and disease but are also paving the way for new treatments and personalized medicine. Exploring these developments can provide insights into the future of healthcare.

Unlock the power of crystal violet staining! This comprehensive, step-by-step Standard Operating Procedure (SOP) demystifies the widely-used technique for quantifying adherent cell numbers. From cell seeding and fixation to precise staining, washing, and solubilization, each phase is detailed for accuracy. Learn to troubleshoot common issues and ensure reliable, reproducible results for your cell viability, proliferation, or cytotoxicity assays.

Learn how to measure cell migration in wound healing assays! This new ImageJ plugin offers unparalleled accuracy and efficiency, overcoming the tediousness of manual methods and the unreliability of some automated systems. By providing a semi-automated, user-friendly interface, and a clear step-by-step process, it empowers researchers in cancer biology, tissue regeneration, and drug discovery to obtain more consistent and reproducible results, faster. Free, accessible, and po

Biomedical research is facing a critical trust test! Too many exciting findings simply can't be replicated, stalling cures and wasting vital resources. This biomedical research reproducibility crisis stems from flawed designs, shaky stats, and incomplete reporting. Discover the path forward: demanding transparency, enforcing rigorous methods, embracing open data, and revolutionizing training to rebuild trust and accelerate life-saving breakthroughs.

Discover the essential biomedical lab tools powering today's research! This guide covers key equipment, from fundamental microscopes, centrifuges & incubators to advanced molecular tools like PCR machines & sequencers. Learn about analytical instruments like flow cytometers & specialized devices such as CLYTE's CellCut 3.0 for scratch assays. Explore the crucial biomedical lab tools used by scientists to advance medicine and understand disease.

Perform the wound healing assay with this detailed step-by-step protocol. Learn the materials, methods, and procedures for seeding cells, creating a consistent scratch, imaging cell migration over time using microscopy, and analyzing wound closure rates. Includes tips for optimization and controlling proliferation. Essential technique for studying in vitro cell motility, cancer research, and drug screening. This guide provides the technical details needed for reproducible res

CellCut is a high-throughput, precision-engineered device for generating consistent wounds in in vitro scratch assays. Designed to replace manual pipette-tip methods, CellCut delivers uniform scratch width, reduced variability, and improved reproducibility across 96-well and 48-well plates. Ideal for cell migration, wound healing, and drug screening studies, CellCut enhances data quality and streamlines imaging workflows in both academic and industrial labs.

Unlocking the future of medicine starts with the right tools. Biomedical research tools—like cell lines, chemical probes, and data platforms—are essential for turning scientific discoveries into real treatments. Validated and widely shared, these tools power breakthroughs in disease understanding and drug development. Learn how they bridge the gap between lab research and patient care, accelerating medical progress for everyone.

Tired of inconsistent scratch assays with pipette tips? Meet CellCut by CLYTE—the game-changing device that delivers fast, reproducible in vitro scratches across 96-well plates in seconds. Designed for cell migration and wound healing studies, CellCut ensures precision, boosts throughput, and eliminates human error. Whether you're studying cancer, tissue regeneration, or drug responses, CellCut sets a new standard in high-quality, high-impact research.

Unlock cell movement secrets! Discover the in vitro scratch assay, a key, low-cost method to study cell migration. Learn how this technique mimics wound healing and analyzes cell-cell/cell-matrix interactions using basic lab tools & microscopy. We cover its power, versatility with transfected cells, and crucial considerations like standardization for understanding cell behavior in vitro. Essential reading for cell biology insights!

Struggling with messy scratch assay data? Traditional cell migration quantification often falls short. Explore this summary article on Monolayer Edge Velocimetry – a powerful quantification method offering accurate migration rate analysis by precisely measuring leading edge velocity. Revolutionize your in vitro results!