Your search keyword '"DeAndrés-Galiana EJ"' showing total 2 results

1. Sensitivity analysis of gene ranking methods in phenotype prediction.

Author

deAndrés-Galiana EJ, Fernández-Martínez JL, and Sonis ST

Subjects

Artificial Intelligence, Gene Expression Profiling, Genetic Techniques, Humans, Software, Genotype, Neoplasms genetics, Oligonucleotide Array Sequence Analysis, Phenotype

Abstract

Introduction: It has become clear that noise generated during the assay and analytical processes has the ability to disrupt accurate interpretation of genomic studies. Not only does such noise impact the scientific validity and costs of studies, but when assessed in the context of clinically translatable indications such as phenotype prediction, it can lead to inaccurate conclusions that could ultimately impact patients. We applied a sequence of ranking methods to damp noise associated with microarray outputs, and then tested the utility of the approach in three disease indications using publically available datasets., Materials and Methods: This study was performed in three phases. We first theoretically analyzed the effect of noise in phenotype prediction problems showing that it can be expressed as a modeling error that partially falsifies the pathways. Secondly, via synthetic modeling, we performed the sensitivity analysis for the main gene ranking methods to different types of noise. Finally, we studied the predictive accuracy of the gene lists provided by these ranking methods in synthetic data and in three different datasets related to cancer, rare and neurodegenerative diseases to better understand the translational aspects of our findings., Results and Discussion: In the case of synthetic modeling, we showed that Fisher's Ratio (FR) was the most robust gene ranking method in terms of precision for all the types of noise at different levels. Significance Analysis of Microarrays (SAM) provided slightly lower performance and the rest of the methods (fold change, entropy and maximum percentile distance) were much less precise and accurate. The predictive accuracy of the smallest set of high discriminatory probes was similar for all the methods in the case of Gaussian and Log-Gaussian noise. In the case of class assignment noise, the predictive accuracy of SAM and FR is higher. Finally, for real datasets (Chronic Lymphocytic Leukemia, Inclusion Body Myositis and Amyotrophic Lateral Sclerosis) we found that FR and SAM provided the highest predictive accuracies with the smallest number of genes. Biological pathways were found with an expanded list of genes whose discriminatory power has been established via FR., Conclusions: We have shown that noise in expression data and class assignment partially falsifies the sets of discriminatory probes in phenotype prediction problems. FR and SAM better exploit the principle of parsimony and are able to find subsets with less number of high discriminatory genes. The predictive accuracy and the precision are two different metrics to select the important genes, since in the presence of noise the most predictive genes do not completely coincide with those that are related to the phenotype. Based on the synthetic results, FR and SAM are recommended to unravel the biological pathways that are involved in the disease development., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

2. Analysis of clinical prognostic variables for Chronic Lymphocytic Leukemia decision-making problems.

Author

deAndrés-Galiana EJ, Fernández-Martínez JL, Luaces O, Del Coz JJ, Huergo-Zapico L, Acebes-Huerta A, González S, and González-Rodríguez AP

Subjects

Adult, Aged, Aged, 80 and over, Algorithms, Antineoplastic Agents therapeutic use, Autoimmune Diseases diagnosis, Decision Making, Disease Progression, False Positive Reactions, Female, Humans, Machine Learning, Male, Middle Aged, Models, Statistical, Probability, Prognosis, ROC Curve, Retrospective Studies, Risk Assessment, Software, Time-to-Treatment, Diagnosis, Computer-Assisted methods, Leukemia, Lymphocytic, Chronic, B-Cell diagnosis, Medical Informatics methods

Abstract

Introduction: Chronic Lymphocytic Leukemia (CLL) is a disease with highly heterogeneous clinical course. A key goal is the prediction of patients with high risk of disease progression, which could benefit from an earlier or more intense treatment. In this work we introduce a simple methodology based on machine learning methods to help physicians in their decision making in different problems related to CLL., Material and Methods: Clinical data belongs to a retrospective study of a cohort of 265 Caucasians who were diagnosed with CLL between 1997 and 2007 in Hospital Cabueñes (Asturias, Spain). Different machine learning methods were applied to find the shortest list of most discriminatory prognostic variables to predict the need of Chemotherapy Treatment and the development of an Autoimmune Disease., Results: Autoimmune disease occurrence was predicted with very high accuracy (>90%). Autoimmune disease development is currently an unpredictable severe complication of CLL. Chemotherapy Treatment has been predicted with a lower accuracy (80%). Risk analysis showed that the number of false positives and false negatives are well balanced., Conclusions: Our study highlights the importance of prognostic variables associated with the characteristics of platelets, reticulocytes and natural killers, which are the main targets of the autoimmune haemolytic anemia and immune thrombocytopenia for autoimmune disease development, and also, the relevance of some clinical variables related with the immune characteristics of CLL patients that are not taking into account by current prognostic markers for predicting the need of chemotherapy. Because of its simplicity, this methodology could be implemented in spreadsheets., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016