Random Forests Highlight the Combined Effect of Environmental Heavy Metals Exposure and Genetic Damages for Cardiovascular Diseases

Alfonso Monaco,Aldo Innocente Galeandro,Roberto Bellotti,Sabina Tangaro,Andrea Del Buono,Nicola Amoroso,Armando D’Orta,Francesco Di Tuoro,Antonio Lacalamita

doi:10.3390/app11188405

Abstract

Heavy metals are a dangerous source of pollution due to their toxicity, permanence in the environment and chemical nature. It is well known that long-term exposure to heavy metals is related to several chronic degenerative diseases (cardiovascular diseases, neoplasms, neurodegenerative syndromes, etc.). In this work, we propose a machine learning framework to evaluate the severity of cardiovascular diseases (CVD) from Human scalp hair analysis (HSHA) tests and genetic analysis and identify a small group of these clinical features mostly associated with the CVD risk. Using a private dataset provided by the DD Clinic foundation in Caserta, Italy, we cross-validated the classification performance of a Random Forests model with 90 subjects affected by CVD. The proposed model reached an AUC of 0.78 ± 0.01 on a three class classification problem. The robustness of the predictions was assessed by comparison with different cross-validation schemes and two state-of-the-art classifiers, such as Artificial Neural Network and General Linear Model. Thus, is the first work that studies, through a machine learning approach, the tight link between CVD severity, heavy metal concentrations and SNPs. Then, the selected features appear highly correlated with the CVD phenotype, and they could represent targets for future CVD therapies.

Highlights

We evaluated to which extent heavy metals concentrations and SNPs provide a valuable tool to predict the severity of cardiovascular diseases (CVD) conditions
It is well known that high concentrations of heavy metals may be harmful to human health and are related to the onset of degenerative pathologies such as cardiovascular pathologies, neoplasia and neurodegenerative diseases, just to mention a few
Human scalp hair analysis (HSHA) is a minimally invasive test that detects the toxic minerals in the human body with high accuracy

Summary

Introduction

Heavy metals, such as lead, mercury, aluminium, arsenic, and others, pose severe threats to human health [1]. Their absorption by human bodies, in several heterogeneous ways and doses, can perturb and eventually damage the normal health balance; besides, they can affect human health at different scales, ranging from cellular DNA to anatomical structures such as the nervous system [2]. Heavy metals have a strong penetrating power allowing them, in some cases, to overcome the different protective structures of the human body, such as the blood–brain barrier, restricting, amongst other functions, the access of pathogens into the cerebrospinal fluid or the placenta which can protect the fetus from maternal toxins [3]. Human beings have elaborated a series of techniques and processes of defense

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