Litcius/Paper detail

Accurate stratification between VEXAS syndrome and differential diagnoses by deep learning analysis of peripheral blood smears

Floris Chabrun, Valentin Lacombe, Xavier Dieu, Franck Geneviève, G. Urbanski

2023Clinical Chemistry and Laboratory Medicine (CCLM)13 citationsDOI

Abstract

Abstract Objectives VEXAS syndrome is a newly described autoinflammatory disease associated with UBA1 somatic mutations and vacuolization of myeloid precursors. This disease possesses an increasingly broad spectrum, leading to an increase in the number of suspected cases. Its diagnosis via bone-marrow aspiration and UBA1 -gene sequencing is time-consuming and expensive. This study aimed at analyzing peripheral leukocytes using deep learning approaches to predict VEXAS syndrome in comparison to differential diagnoses. Methods We compared leukocyte images from blood smears of three groups: participants with VEXAS syndrome (identified UBA1 mutation) (VEXAS); participants with features strongly suggestive of VEXAS syndrome but without UBA1 mutation (UBA1-WT); participants with a myelodysplastic syndrome and without clinical suspicion of VEXAS syndrome (MDS). To compare images of circulating leukocytes, we applied a two-step procedure. First, we used self-supervised contrastive learning to train convolutional neural networks to translate leukocyte images into lower-dimensional encodings. Then, we employed support vector machine to predict patients’ condition based on those leukocyte encodings. Results The VEXAS, UBA1-WT, and MDS groups included 3, 3, and 6 patients respectively. Analysis of 33,757 images of neutrophils and monocytes enabled us to distinguish VEXAS patients from both UBA1-WT and MDS patients, with mean ROC-AUCs ranging from 0.87 to 0.95. Conclusions Image analysis of blood smears via deep learning accurately distinguished neutrophils and monocytes drawn from patients with VEXAS syndrome from those of patients with similar clinical and/or biological features but without UBA1 mutation. Our findings offer a promising pathway to better screening for this disease.

Topics & Concepts

Peripheral bloodMedical diagnosisDifferential diagnosisMedicinePeripheralRisk stratificationStratification (seeds)PathologyDiseaseInternal medicineBiologyBotanyGerminationSeed dormancyDormancyOtitis Media and Relapsing PolychondritisVascular Anomalies and TreatmentsOsteomyelitis and Bone Disorders Research