NIST developed a procedure for characterizing the performance of a fluorescence microscope by benchmarking the detection threshold, saturation, and linear dynamic range to a physical artifact, such as a fluorescent material. This method has already been implemented by several universities and companies, and is proven to improve the reproducibility of wide-field fluorescence imaging. Our strategy adds value to image data repositories by benchmarking the conditions under which the images were acquired.
Follow BBD's procedure by downloading this guide.
Review this script developed to facilitate the implementation of our procedure in other laboratories.
Chart the benchmarked parameters using the attached Excel spreadsheet to ensure instrument performance over time.
Watch us implement this procedure in a NIST laboratory.
Review this procedure as published in Cytometry Part A.
Researchers and product developers are now able to implement our new procedure in quantitative wide-field fluorescence microscopy. NIST invites users to provide feedback on the usability and effectiveness of this analytical tool. We are also interested in knowing where you need benchmarking protocols in your quantitative imaging pipeline. Contact Michael Halter to learn more about this project and ways to collaborate with NIST.