BioTek Instruments focuses its attention on the latest scientific developments in cell-based assays. A central theme is to develop assays with greater physiological relevance such that disease models can be better understood, drugs developed with better efficacy and safety issues probed without resorting to extensive animal testing. This is manifest in the following trends seen over the last few years which are supplanting previous tools and methods.
BioTek microplate instrumentation is designed specifically to enable these latest trends in cell-based assays from both a workflow automation and detection perspective. The following application notes and scientific publications demonstrate this capability.
Primary Human Cells
- A Homogeneous Assay to Quantify Endogenous AKT Phosphorylation in Human Umbilical Vein Endothelial Cells
- Semi-Automation of a Non-Radioactive Antibody-Dependent Cell-Mediated Cytotoxicity (ADCC) Assay
Live Cell Kinetic Assays
- Automated Fluorescence Detection and Imaging of RNA Species in Live Cells
- Automated Fluorescence Imaging of GPCR Dependent Second-Messenger Systems
- Induction and Inhibition Studies of Hypoxia and Oxidative Stress in Immortalized Keratinocytes
- Investigation of Cell Migration using a High Density Cell Exclusion Assay and Automated Microplate Imager
3D Cell Culture
- Validation of a Novel Tumoroid-Based Cell Culture Model to Perform 3D in vitro Cell Signaling Analyses
- The Effect of Cell Culture Method on Long-Term Primary Hepatocyte Cell Health
- Validation of a Novel 3D Cell Culture System to Perform in vitro Cytotoxicity Analyses using Human Primary Hepatocytes
- Validation of a 3-Dimensional Human Liver Microtissue Model for Long-term Hepatotoxicity Studies
Visit the Tech Resources section of www.biotek.com for more Application Notes covering our full line of microplate instrumentation.
By: BioTek Instruments