Shambhavi Konde’s Post

What Factors Are Driving the Growth of the #AutomatedMicroscopy Market? The Automated Microscopy Market Size is poised for substantial growth due to increased adoption in life science research, rising demand for #diseasediagnosis, and #researchers' strong preference for automated microscopes. These factors drive market expansion as automated microscopy proves indispensable in various scientific endeavors, from fundamental research to clinical applications, fueling innovation and advancements in understanding biological phenomena and disease mechanisms. Key Market Players: Hitachi High-Tech Corporation, Thermo Fisher Scientific, Etaluma, Inc., Agilent Technologies., Nikon., Horiba Scientific, ZEISS Group, Bruker, Olympus Corporation, Danaher Corporation Want To Know More: https://lnkd.in/dQzpHk-2? utm_source=LinCamp&utm_medium=A00010_0904_GB&utm_campaign=LinkedIn #AMR #AutomatedMicroscopyMarketGrowth #LifeScienceResearch #DiseaseDiagnosisAdvancements #ResearcherPreferences #InnovationInMicroscopy #BiologicalDiscoveries

Probably a real Game Changer in #SingleCellResearch: A Laser based workstation for #dispensing, imaging and isolating Single Cells:

In the innovative realm of human-on-a-chip technology, the use of Partial Differential Equations (PDEs) is revolutionizing our approach to simulating the human circulatory system's intricacies on a microscale. By employing PDEs, we can meticulously model blood flow dynamics and substance transport within these complex microfluidic devices, paving the way for more accurate predictions and optimization of system behavior. This modeling capability is crucial for the precise delivery of nutrients, removal of waste, and facilitation of organ mimic communication, closely mirroring the physiological conditions of the human body. The application of Navier-Stokes equations allows us to capture the fluid motion of blood, considering its unique properties and the geometrical constraints of microfluidic channels. Concurrently, advection-diffusion equations enable the detailed study of how drugs, oxygen, and other vital substances are transported and interact within this system. This dual approach provides invaluable insights into device design and inter-organ interactions, significantly enhancing the potential of human-on-a-chip technology for drug development and disease modeling. As we continue to bridge the gap between in vitro studies and human biology, the strategic use of PDEs in human-on-a-chip models represents a quantum leap forward. It underscores the potential of mathematical modeling in biomedical engineering and the transformative impact it can have on personalized medicine, drug discovery, and our understanding of complex disease mechanisms. #BiomedicalEngineering #HumanOnAChip #MathematicalModeling #DrugDiscovery #PersonalizedMedicine

𝐓𝐫𝐚𝐧𝐬𝐟𝐨𝐫𝐦𝐢𝐧𝐠 𝐒𝐚𝐦𝐩𝐥𝐞 𝐇𝐚𝐧𝐝𝐥𝐢𝐧𝐠 𝐢𝐧 𝐅𝐥𝐨𝐰 𝐂𝐲𝐭𝐨𝐦𝐞𝐭𝐫𝐲 Flow cytometry, a powerful technique for analysing and quantifying cellular characteristics, has become indispensable in fields ranging from biomedical research to clinical diagnostics. Achieving pulsation-free sheath fluid movement for flow cytometry has been a challenge previously met only by traditional gear or peristaltic pumps. Thanks to their innovative Smooth Flow Technology for gentle and precise liquid handling, #KNF diaphragm pumps are driving innovation by offering a reliable, state-of-the-art solution that is revolutionising cell sample transport in flow cytometry systems. Learn more about how our innovative Smooth Flow Technology can improve flow cytometry performance: https://lnkd.in/eV67Giuw #FlowCytometry #Research #Precision #SmoothFlow

🚀 Exciting News! We're thrilled to announce the launch of our new website – a hub of innovation for the mechanobiology community and those exploring the dynamic world of 3D muscle contractility. 🌐 Our new digital home is designed to enhance your journey through the fascinating landscape of mechanobiology. It's not just a website; it's an educational platform where you can dive deep into the science that is revolutionizing medical treatments. 🧬 As leaders in the field, we are committed to providing you with content that not only enlightens but also empowers you to push the boundaries of what's possible. From detailed insights into cellular behavior to the latest advancements in tissue engineering, our content is curated to fuel your research and development endeavors. ✨ At #Optics11Life, innovation is at the core of what we do. Our mission is to apply our unique technology to help our customers develop breakthrough medical treatments and get them to patients faster. This new website reflects our dedication to this mission and to you, our community of scientists, researchers, and innovators. 🔍 Explore, learn, and be inspired as you navigate our new website, your go-to resource for the tools and knowledge to make a tangible impact in the world of modern medicine. 💡 Ready to begin your journey? Visit our new website now: www.optics11life.com #UnlockthePowerofMechanobiology #TranslationalResearch #Innovation #BreakthroughTreatments #WherePrecisionMeetsPossibility

𝐓𝐫𝐚𝐧𝐬𝐟𝐨𝐫𝐦𝐢𝐧𝐠 𝐒𝐚𝐦𝐩𝐥𝐞 𝐇𝐚𝐧𝐝𝐥𝐢𝐧𝐠 𝐢𝐧 𝐅𝐥𝐨𝐰 𝐂𝐲𝐭𝐨𝐦𝐞𝐭𝐫𝐲 Flow cytometry, a powerful technique for analyzing and quantifying cellular characteristics, has become indispensable in fields ranging from biomedical research to clinical diagnostics. Achieving pulsation-free sheath fluid movement for flow cytometry has been a challenge previously met only by traditional gear or peristaltic pumps. Thanks to their innovative Smooth Flow Technology for gentle and precise liquid handling, #KNF diaphragm pumps are driving innovation by offering a reliable, state-of-the-art solution that is revolutionizing cell sample transport in flow cytometry systems. Learn more about how our innovative Smooth Flow Technology can improve flow cytometry performance: https://lnkd.in/ebSMsjd3 #FlowCytometry #Research #Precision #SmoothFlow 

Looking for resources to learn Biomedical Image Analysis? Look no further! Follow the link to download a full free guide on biomedical image analysis resources. https://buff.ly/46488Vh #imageanalysis #microscopy #BIanalysis #freeguide

Read the latest issue of #Imaging & #Microscopy. #Research, #Innovation, #Science, #Technology,#ConfocalImaging, #RamanMicroscopy, #BiomedicalResearch, #PharmaceuticalDevelopment #EMC2024, #3DAFM, #ScanningProbeMicroscopy

Missed the CytoFLEX Nano launch? No problem! We've got you covered. Here are some insights and highlights from the webinar by our Flow Cytometry Department Manager Aya Shelly Ben Refael   In recent years nanoparticles and EVs in particular have become a valuable source of information as indicators for the state of the cells and tissues they derive from. Current methods aimed at characterizing EVs are limited in their ability provide multi-faceted data regarding these particles. Thus, multiple techniques to accurately count, characterize and determine the size of EVs, resulting in time-consuming and laborious workflows with poor repeatability CytoFLEX Nano was purpose-built utilizing the CytoFLEX platform's superb sensitivity while listening to the challenges of researchers studying EVs. It is the first flow cytometer that allows a one-platform characterization of EVs: Size – Instrument calibration with reference particles lets the user determine the size of their EVs, at least as small as 40nm particles resolved from background Count – Highly controlled volumetric delivery of the sample yields accurate and reproducible counting data Characterize – Achieve the highest flexibility in experimental design with 6 fluorescence channels across 4 lasers   The instrument's workflow includes an extensive QC process and multiple options of on-board cleaning. These processes address the important considerations one needs to take into account when preparing a nanoparticles experiment, increasing data accuracy and reproducibility.    The ability to analyze nanoparticles based on their characteristics on one platform opens new possibilities for a deeper understanding of EVs and their role. We are excited to see these possibilities unveiled with this unique tool to propel researchers to more robust, accurate and reproducible nanoparticle data.   Beckman Coulter Life Sciences #QC #cytoflex #flowcytometry

🚀 Exciting News! The latest issue of Imaging & Microscopy is here! We are thrilled to announce the release of the August 2024 edition of Imaging & Microscopy. This issue is packed with groundbreaking research, insightful interviews, and the latest advancements in microscopy. 🔬 Highlighted Articles: ▪️ Plenary Speakers at the European Microscopy Congress 2024: Get a sneak peek into the upcoming EMC2024 from 25-30 August. Every morning, a renowned scientist will present the latest advancements in their field. This article features interviews with four of these speakers, sharing their expectations for the congress in Copenhagen. ▪️ Clarity Meets Precision: Discover how innovative detector technology is advancing confocal imaging, enabling precise imaging of both high- and low-intensity fluorescence signals. 🔬Cover+Coverstory sponsored by Evident Scientific. ▪️ From Single Cells to Advanced Drug Delivery Systems: Dive into the world of Raman Microscopy in Biomedical Research and Pharmaceutical Development. Learn how Raman microscopy enables precise analyses of drugs and their interactions with carrier systems or cells and tissues. ▪️ 3D AFM: A Microscope for Imaging of Solid-Liquid Interfaces: Explore the world of Scanning Probe Microscopy with a focus on three-dimensional atomic force microscopy (3D AFM). This force microscopy-based method allows for imaging solid-liquid interfaces at atomic and molecular scales, providing angstrom-resolution images of water and organic solvents on mica, graphite, and collagen surfaces. Don’t miss out on these and other exciting articles! Read the digital edition now and stay ahead in the world of microscopy. Read the full magazine here: 🔴https://lnkd.in/e2XQQx2M #Trends #Journal #Wiley #Microscopy #Imaging #Research #Innovation #Science #Technology #ConfocalImaging #RamanMicroscopy #BiomedicalResearch #PharmaceuticalDevelopment #EMC2024 #3DAFM #ScanningProbeMicroscopy #DigitalEdition