Both brightfield and fluorescence cell counting techniques can provide accurate cell counts and viability assessments. Learn the advantages of each in this video.
Cells that are elliptical in shape and less perfectly round can be difficult to count with an automated cell counter. CellDrop includes Irregular Cell Mode to address this issue. This feature enables researchers to accurately count a wider variety of cells.
This technical note describes how rapid and accurate viable pollen counts can be determined using the DeNovix CellDrop™ FL Automated Cell Counter in conjunction with fluorescein diacetate (FDA) fluorescent stain.
The CellDrop™ FL Automated Cell Counter enables the researcher to count PBMCs using a fluorescence image-based method. This Tech Note describes how CellDrop saves time, money and increases count accuracy and reproducibility vs. manual counting.
Employing best practices is essential for ensuring accurate and representative cell counts. This document explains the key factors that researchers should understand when using the CellDrop Automated Cell Counter.
A detailed description of how to optimize the AOPI or Custom Methods Applications for counting protoplasts on the DeNovix CellDrop™ FL Automated Cell Counter in conjunction with fluorescein diacetate (FDA) and propidium iodide(PI) fluorescent dyes.
The use of trypan blue can be problematic for counting cells and assessing viability in some sample types where debris or non-nucleated cells can interfere. The DeNovix Acridine Orange (Ao) / Propidium Iodide (PI) fluorescence assay is a simple, accurate alternative. Comparative data is presented here.
The NIST has proposed a robust method to assess cell counting linearity and reproducibility. This technical note presents data for the CellDrop using this method and compares results to manually cell counting.