Avoid the hidden costs of tissue reprocessing! Skip Brown says, "The workload cost increase from regular processing with standard results to processing results that require reprocessing is $138.53. That is a 681.5% workload increase, a nearly 700% workload increase every time reprocessing of tissues is required." Learn more about how tissue processing protocols have an impact on your workflow, cost and timely delivery of results. https://ow.ly/L9Rj50POrUf #Histology #LabEfficiency #TissueProcessing #HealthcareInsights In Vitro Diagnostic Use Only
Leica Biosystems’ Post
More Relevant Posts
-
I'm excited to share this video showcasing our latest Auto Tissue Processor. This advanced equipment is designed to streamline the histology workflow, ensuring precise, efficient, and consistent results every time. 🔍 Key Features: Automated Workflow: Reduces manual handling and increases lab efficiency. High Throughput: Processes multiple samples simultaneously, saving valuable time. User-Friendly Interface: Intuitive controls for easy operation. Reliable Results: Consistent and high-quality tissue samples for accurate diagnostics. 💡 Whether you're in research, diagnostics, or pathology, this technology is a game-changer in tissue processing! #Histology #TissueProcessing #LabAutomation #clinicalmicrobiology #Innovation
To view or add a comment, sign in
-
What’s the difference between 2D and #3dcellculture? While 2D cell culture is convenient for cell analysis, 3D cell culture has the ability to mimic the exact environment of tissues, decreasing the need for animal testing and providing results that will improve the translation from in-vitro to in-vivo studies. Humabiologics offers native human-derived biomaterials to mimic the native tissue-specific environment for regenerative medicine and tissue engineering applications such as 2D and 3D cell culture that will help develop lifesaving therapies. Learn more about our product offerings here: https://lnkd.in/e-pi48RE #collagen #ISO13485 #gelatin #tissueengineering
To view or add a comment, sign in
-
Today, we celebrate the impact of pathology in advancing healthcare. We salute all pathologists, scientists, cytotechnologists, histotechnologists, and lab professionals pushing science forward. They're not just studying cells and tissues; they’re impacting lives. 💙 At Glint Lab, we’re proud to empower researchers at biotech and pharma companies with our diligently executed pathology services, from attentive tissue preparation to precise image quantification, uncovering insights that drive life-changing therapies. 🔍 What excites you most about the future of pathology? Let’s celebrate this incredible field and share thoughts on where it's headed... #InternationalPathologyDay #DigitalPathology #Histopathology
To view or add a comment, sign in
-
🔬 Spotlight on Applikate Technologies Inc at the #MedTechConference! 🔬 Excited to share that Applikate, a forward-thinking company, is presenting their cutting-edge technology at the MedTech Conference in Toronto. Applikate is redefining tissue analysis by developing next-gen solutions for tissue processing reagents, imaging hardware, and pathology software. Their innovative approach combines clearing histology and multiphoton microscopy, delivering high-quality, in-depth histopathology data—and here’s the game-changer: they do it without the need for time-consuming manual processes typically required by pathologists and their staff. 🚀 Applikate’s vision is to streamline pathology, improve accuracy, and ultimately enhance patient outcomes. If you’re attending #MedTechConf and interested in the future of pathology, Applikate is looking to connect with investors and partners to take this transformative technology even further. #PathologyInnovation #HealthcareTechnology #MedicalDevices #InvestmentOpportunity #Histopathology #Applikate Rick Torres Michael Levene Ming Zhao Brittany Connors, PMP
To view or add a comment, sign in
-
Discover the pathology service you've been searching for - fast, accurate, and reliable! We take you from tissue processing to deep image analysis with meticulous precision, ensuring efficiency without sacrificing quality. Why sets us apart? 🚀 Speed: Experience rapid results with high-throughput capabilities. 🧬 Reliability: Trust in our extensive range of over 400 IHC validated markers. 🤖 Tech-Forward: Benefit from our state-of-the-art platforms and automated workflows. ✅ Expertise: Count on our expert team for analyses that are spot-on every time. Bid farewell to delays and embrace a seamless transition from discovery to development. Learn more ➡️ https://bit.ly/3T0LTef #DigitalPathology #InSituHybridization
Advanced Digital Pathology and Histology for Biomarker Analysis
crownbio.com
To view or add a comment, sign in
-
How to handle a lab that generates more than 7000 slides every day?Here's an example: The digital pathology solution from KFBIO enables Ningbo Pathology Center, one of China's largest pathology labs, to maintain a smooth workflow and manage the heavy workload efficiently. #KFBIO #Digitalpathology
To view or add a comment, sign in
-
"The Gold Standard Paradox in Digital Image Analysis " - a must-read for anyone working in the field of #digitalpathology and #AI / #pathomics, describing the various ways in which even a well-trained pathologist can encounter common visual and optical illusions while doing quantitative work that can bias cell positivity counts, an important caveat for #imageanalysis that employ #pathologist assessments as training data. Ideally, approaches that incorporate both can help, by utilizing complementarity in the pathologists ability to extrapolate better across diverse staining, morphological variation; with the ability of #computational tools to provide objective and robust readouts for tedious tasks like #cellcounting.
Helping digital pathology scientists and businesses promote their products and services through (featured) blogs, podcasts and videos🔬Digital pathologist & publisher 👉🏻 Ask me about VIP sponsorship packages
What is the superpower of specialty pathology? It's the quantification of the information in the image. Visual assessment is not enough. And if you read "The Gold Standard Paradox in Digital Image Analysis " by Famke Aeffner DVM PhD DACVP DABT et al you know why... So there are 3 components to the successful specialty pathology work: 1) Robust method development for staining 2) Robust method development for tissue image analysis 3) The oversight of a knowledgeable pathologists. You can learn more about this process at Charles River Laboratories here: https://bit.ly/4bZlK7I #drugdevelopment #imageanalysis #digitalpathology #biotech
To view or add a comment, sign in
-
🎙️ In this interview, Oanh Nguyen, Jason Roberts, and Misagh Naderi had the chance to discuss how Visiopharm’s software is helping us tackle complex image analysis challenges and explore data in innovative ways. 🧠 And, to give credit where it’s due, one of the key drivers of efficiency in our workflow is the seamless integration between Visiopharm and our image management platform provider Pathcore. Together with our in-house cloud-based digital infrastructure, they create a highly efficient and user-friendly environment for our #clients, #pathologists, #scientists, #imageanalysts, and #datascientists to collaborate effortlessly, with full transparency and accountability. ⚡ Leveraging these strategic partnerships with Visiopharm and Pathcore, Glint Lab's #imageanalysis turnaround time is now lightning-fast. 📢 A special shout-out to Jeni Caldara, Kirsten Anderson, and Stephane Langevin for their incredible work in managing our partnerships and helping make them such a success. #pathology #precisionmedicine
Discover Glint Lab’s Journey with Visiopharm ✨ Meet Glint Lab, a California-based full stack precision pathology laboratory dedicated to preclinical and early-stage discovery. In our latest interview, Oanh Nguyen, Jason Roberts, and Misagh Naderi, PhD share how they use Visiopharm software to tackle complex challenges in histopathology. “Visiopharm offers us the unparalleled ability to develop robust custom algorithms for a wide variety of image analysis applications, and to explore spatial data in ways that can not be done with comparable tools.“ – Jason Roberts. Read the full story here: https://hubs.ly/Q02VrM_R0 #VisiopharmStories #CustomerSuccess
To view or add a comment, sign in
-
A comprehensive kit driving transformation of biomedical research.
🧬 Ready to take organoid research to the next level? Dive into the intricate 3D vascular structures captured through advanced microscopy! 🌱✨This video highlights how our #OrganoidReagentKit enables precise analysis and development of complex tissue models. 🚀 With our innovative solutions, explore how 3D cell culture and organoid technology are transforming biomedical research! 🌐🔬 #OrganoidResearch #3DCellCulture #OrganoidReagentKit #VascularOrganoids #DrugDiscovery #BiotechInnovation #NestBiotech #RegenerativeMedicine #PharmaceuticalResearch
To view or add a comment, sign in
-
Why #SpheroidOnChip is Revolutionizing #3DCellCulture Traditional methods like hanging drop cultures and microwell plates have been key in advancing 3D cell culture. However, they come with limitations that can impact the quality of research results. These static environments often face rapid depletion of oxygen and nutrients, along with the accumulation of waste products, which can compromise spheroid viability and skew experimental outcomes (Tevlek 2023 et al.). 💡 Enter Spheroid-on-Chip Technology! Microfluidic chips provide a more advanced and dynamic approach to spheroid culture. Here’s how they overcome the drawbacks of traditional methods: / Precise Microenvironment Control: Microfluidic chips allow for fine-tuned regulation of chemical gradients, pressure, and shear stress, crucial for mimicking the natural conditions within tissues / Direct Perfusion: Unlike static cultures, microfluidic systems continuously supply oxygen and nutrients while removing waste products, significantly enhancing spheroid viability and functionality / 💡 Indirect Perfusion: We use the approach of indirect perfusion via a vascular network. This approach creates an oxygen gradient and supplies fresh nutrients, while avoiding shear stress on the spheroids, closely simulating physiological conditions. With these capabilities, spheroid-on-chip technology offers a more reliable and realistic model for in vivo conditions, paving the way for breakthroughs in drug development, cancer research, and tissue engineering. #SpheroidOnChip #Microfluidics #3DCellCulture #BiomedicalResearch #InVivoModeling
To view or add a comment, sign in
119,880 followers