Receive a weekly summary and discussion of the top papers of the week by leading researchers in the field.

In Scientific reports ; h5-index 158.0

The fraction of red blood cells adopting a specific motion under low shear flow is a promising inexpensive marker for monitoring the clinical status of patients with sickle cell disease. Its high-throughput measurement relies on the video analysis of thousands of cell motions for each blood sample to eliminate a large majority of unreliable samples (out of focus or overlapping cells) and discriminate between tank-treading and flipping motion, characterizing highly and poorly deformable cells respectively. Moreover, these videos are of different durations (from 6 to more than 100 frames). We present a two-stage end-to-end machine learning pipeline able to automatically classify cell motions in videos with a high class imbalance. By extending, comparing, and combining two state-of-the-art methods, a convolutional neural network (CNN) model and a recurrent CNN, we are able to automatically discard 97% of the unreliable cell sequences (first stage) and classify highly and poorly deformable red cell sequences with 97% accuracy and an F1-score of 0.94 (second stage). Dataset and codes are publicly released for the community.

Darrin Maxime, Samudre Ashwin, Sahun Maxime, Atwell Scott, Badens Catherine, Charrier Anne, Helfer Emmanuèle, Viallat Annie, Cohen-Addad Vincent, Giffard-Roisin Sophie

2023-Jan-13