An AI-powered blood test to detect cancer using nanoDSF

08/08/2020

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We describe a novel cancer diagnostic method based on plasma denaturation profiles obtained by a non-conventional use of Differential Scanning Fluorimetry. We show that 84 glioma patients and 63 healthy controls can be automatically classified using denaturation profiles with the help of machine learning algorithms with 92 applied to any type of cancer and could become a powerful pan-cancer diagnostic and monitoring tool from a simple blood test.

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An AI-powered blood test to detect cancer using nanoDSF

Machine Learning Characterization of Cancer Patients-Derived Extracellular Vesicles using Vibrational Spectroscopies

Pan-Cancer Epigenetic Biomarker Selection from Blood Samples Using SAS

Machine Intelligence-Driven Classification of Cancer Patients-Derived Extracellular Vesicles using Fluorescence Correlation Spectroscopy: Results from a Pilot Study

Using Apple Machine Learning Algorithms to Detect and Subclassify Non-Small Cell Lung Cancer

Early Cancer Detection in Blood Vessels Using Mobile Nanosensors

CancerLinker: Explorations of Cancer Study Network

THALIS: Human-Machine Analysis of Longitudinal Symptoms in Cancer Therapy

An AI-powered blood test to detect cancer using nanoDSF

Related Research

Machine Learning Characterization of Cancer Patients-Derived Extracellular Vesicles using Vibrational Spectroscopies

Pan-Cancer Epigenetic Biomarker Selection from Blood Samples Using SAS

Machine Intelligence-Driven Classification of Cancer Patients-Derived Extracellular Vesicles using Fluorescence Correlation Spectroscopy: Results from a Pilot Study

Using Apple Machine Learning Algorithms to Detect and Subclassify Non-Small Cell Lung Cancer

Early Cancer Detection in Blood Vessels Using Mobile Nanosensors

CancerLinker: Explorations of Cancer Study Network

THALIS: Human-Machine Analysis of Longitudinal Symptoms in Cancer Therapy