Identifying prostate cancer and its clinical risk in asymptomatic men using machine learning of high dimensional peripheral blood flow cytometric natural killer cell subset phenotyping data Simon Hood Georgina Cosma Gemma Foulds A. Catherine Johnson Stephen Reeder Stéphanie McArdle E. Masood Khan Graham Pockley A. 2134/12562178.v1 https://repository.lboro.ac.uk/articles/journal_contribution/Identifying_prostate_cancer_and_its_clinical_risk_in_asymptomatic_men_using_machine_learning_of_high_dimensional_peripheral_blood_flow_cytometric_natural_killer_cell_subset_phenotyping_data/12562178 <div>We demonstrate that prostate cancer can be identified by flow cytometric profiling of blood immune cell subsets. Herein, we profiled natural killer (NK) cell subsets in the blood of 72 asymptomatic men with Prostate Specific Antigen (PSA) levels < 20ng ml, of whom 31 had benign disease (no cancer) and 41 had prostate cancer. Statistical and computational methods identified a panel of eight phenotypic features(CD56 <sup>dim</sup>CD16<sup>high</sup>, CD56<sup>+</sup>DNAM-1<sup>-</sup>, CD56<sup>+</sup>LAIR-1<sup>+</sup>, CD56<sup>+</sup>LAIR-1<sup>-</sup>, CD56<sup>BRIGHT</sup>CD8<sup>+</sup>, CD56<sup>+</sup>NKp30<sup>+</sup>, CD56<sup>+</sup>NKp30<sup>-</sup>, CD56<sup>+</sup>NKp46<sup>+</sup>) which, when incorporated into an Ensemble machine learning prediction model, distinguished between the presence of benign prostate disease and prostate cancer. The machine learning model was then adapted to predict the D’Amico Risk Classification using data from 54 patients with prostate cancer and was shown to accurately differentiate between the presence of low/intermediate risk disease and high risk disease without the need for additional clinical data. This simple blood test has the potential to transform prostate cancer diagnostics</div> 2020-06-25 10:26:14 Biochemistry and Cell Biology