#computational microscopy

Authors: Yichen Wu†‡§○ , Aniruddha Ray†‡§∥○, Qingshan Wei†‡§# , Alborz Feizi†‡§, Xin Tong†, Eva Chen‡, Yi Luo†‡§, and Aydogan Ozcan*†‡§∥ 

Abstract: Aggregation-based assays, using micro- and nanoparticles have been widely accepted as an efficient and cost-effective biosensing tool, particularly in microbiology, where particle clustering events are used as a metric to infer the presence of a specific target analyte and quantify its concentration. Here, we present a sensitive and automated readout method for aggregation-based assays using a wide-field lens-free on-chip microscope, with the ability to rapidly analyze and quantify microscopic particle aggregation events in 3D, using deep learning-based holographic image reconstruction. In this method, the computation time for hologram reconstruction and particle autofocusing steps remains constant, regardless of the number of particles/clusters within the 3D sample volume, which provides a major throughput advantage, brought by deep learning-based image reconstruction. As a proof of concept, we demonstrate rapid detection of herpes simplex virus (HSV) by monitoring the clustering of antibody-coated microparticles, achieving a detection limit of ∼5 viral copies/μL (i.e., ∼25 copies/test).