A Digital Time-lapse, Bright Field Technology to Drive Faster, Higher Throughput Bioanalysis

Please complete the form to download the whitepaper.

I am interested in these subject areas: *

Materials Science

Pharma/Life Sciences

Analytical Instruments

Chemical Reagents

Other

By completing and submitting this form, you understand and agree that use of American Chemical Society (ACS) websites are subject to the ACS Terms of Use and ACS Privacy Policy , including the fact that ACS and its third party sponsors can contact you based on the information provided. In order to process your registration completely, you understand that your information will be transferred to ACSâ€™ affiliates globally.

Overview

The constant need to develop more rapid and cost-effective technologies for accurate, sensitive and specific detection in biological samples is a driving force behind the integration of new sample preparation tools, automation and informatics across the bioanalytical workflow. These technologies have potential applications in different fields of research ranging from microbiology, toxicology and medicinal chemistry to the pharmaceutical and cosmetic industries, ¹ as well as food and environmental safety. ² We present the design characteristics, operational features and key advantages of a new digital, time-lapse, bright field technology with demonstrated uses and great potential across a range of applications involving bioanalysis of microbial and mammalian cells.

Key Learning Objectives

Integrating Automation and Informatics to Advance Large-Scale Cell Biology
Existing Technologies: Challenges and Limitations
Comparing Optical Technology for Imaging Live Cells
New Digital, Time-Lapse Technology
Algorithms Enable Segmentation, Growth Kinetics, and Cell Proliferation and Migration Analyses
Proven Applications and Future Developments