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. 2025 Sep;108(5):392-403.
doi: 10.1002/cyto.b.22229. Epub 2025 Feb 27.

Clinical validation of a real-time machine learning-based system for the detection of acute myeloid leukemia by flow cytometry

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Clinical validation of a real-time machine learning-based system for the detection of acute myeloid leukemia by flow cytometry

Lauren M Zuromski et al. Cytometry B Clin Cytom. 2025 Sep.

Abstract

Machine-learning (ML) models in flow cytometry have the potential to reduce error rates, increase reproducibility, and boost the efficiency of clinical labs. While numerous ML models for flow cytometry data have been proposed, few studies have described the clinical deployment of such models. Realizing the potential gains of ML models in clinical labs requires not only an accurate model but also infrastructure for automated inference, error detection, analytics and monitoring, and structured data extraction. Here, we describe an ML model for the detection of Acute Myeloid Leukemia (AML), along with the infrastructure supporting clinical implementation. Our infrastructure leverages the resilience and scalability of the cloud for model inference, a Kubernetes-based workflow system that provides model reproducibility and resource management, and a system for extracting structured diagnoses from full-text reports. We also describe our model monitoring and visualization platform, an essential element for ensuring continued model accuracy. Finally, we present a post-deployment analysis of impacts on turn-around time and compare production accuracy to the original validation statistics.

Keywords: AML; efficiency; flow cytometry; laboratory improvement.

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