Showing 37 - 48 of 52 results for "how to"
- PageJoin us for a live webinar to learn how automation is transforming PBMC isolation. Hear how a biobank improved throughput and achieved reliable validation, making cell isolation more efficient and effective.
- PageJoin our webinar to discover how the STEMdiff鈩 Cardiomyocyte Expansion Kit can generate over 600 million hPSC-derived ventricular cardiomyocytes in 30 days. Learn about heart disease, cell therapy advancements, and scaling up for pre-clinical models.
- PageThis holiday season, we鈥檙e helping to spread warmth and cheer. Let your colleagues and lab mates know how much they matter: download a free card for them here.
- PageOrganoids are a beneficial tool in the drug development pipeline from target discovery & validation to pre-clinical testing. Explore the resources linked on this page to learn more about how organoids can help your drug discovery workflow.
- PageLearn more about how the Contract Assay Services team at 海角破解版 Technologies can help you add intestinal organoid-based data to your research.
- PageAdd relevance to your drug discovery with organoid-based assays. Learn more about how the Contract Assay Services team at 海角破解版 Technologies can help you evaluate your preclinical drug candidates in organoid-based assays.
- PageLearn more about how you can scale up your immune cell assays using efficient workflow solutions. Explore the range of large-volume primary cell products, including leukopaks, whole blood, and peripheral blood mononuclear cells (PBMCs). Also learn more about scalable cell isolation solutions to efficiently obtain your cells of interest, and do more with your time in the lab.
- PageAs Scientists Helping Scientists, we work continually to improve the experience of researchers using our cell isolation products. Read on to learn how we are transitioning select EasySep鈩 Mouse kits from Normal Rat Serum to Mouse FcR Blocker, while maintaining the same optimal performance of our products as before.
- PageYour big ideas could lead to the next immunology breakthrough. Prepare for CSI by exploring these featured products and resources and learn how you can win a prize.
- PageLearn more about intestinal organoids and how they are being used to model intestinal development, health, disease across a wide range of research areas.
- PageResearchers often have many tasks to complete in little time, including experiments, data analysis, and writing. See how you can boost your productivity and accomplish more in less time.
- PageThe human airway epithelium constitutes the first line of defense against respiratory pathogens, air pollution, and allergens. Studying how these environmental insults affect the airway tissue and developing effective treatments to combat them requires a physiologically relevant model system. Conventional submerged culture systems do not adequately capture the complex morphological and functional characteristics of the in vivo human airway, and animal primary cell models can have limited experimental windows and lack perfect homology to human systems. Addressing these limitations, air-liquid interface (ALI) culture of human primary airway epithelial cells is being increasingly adopted as a model system for the in vivo human airway epithelium. For the study of respiratory viruses, such as COVID-19, ALI cultures are advantageous because they preserve key characteristics of the in vivo airway epithelium that viruses target. Viruses evolve in parallel to their host cells and, consequently, show pronounced specificity for both host species and cell type. Infection models for a given virus must therefore be specific to and closely representative of the native cells it targets. To date, the ALI culture system has been used to study a wide range of viruses, including the novel coronavirus.
