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1. Optimizing Feature Selection for Binary Classification with Noisy Labels: A Genetic Algorithm Approach

Author

Imani, Vandad, Moradi, Elaheh, Sevilla-Salcedo, Carlos, Fortino, Vittorio, and Tohka, Jussi

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Neural and Evolutionary Computing
Abstract

Feature selection in noisy label scenarios remains an understudied topic. We propose a novel genetic algorithm-based approach, the Noise-Aware Multi-Objective Feature Selection Genetic Algorithm (NMFS-GA), for selecting optimal feature subsets in binary classification with noisy labels. NMFS-GA offers a unified framework for selecting feature subsets that are both accurate and interpretable. We evaluate NMFS-GA on synthetic datasets with label noise, a Breast Cancer dataset enriched with noisy features, and a real-world ADNI dataset for dementia conversion prediction. Our results indicate that NMFS-GA can effectively select feature subsets that improve the accuracy and interpretability of binary classifiers in scenarios with noisy labels.

Published
2024

2. Quantitative in vitro to in vivo extrapolation for human toxicology and drug development

Author

Cattelani, Luca, del Giudice, Giusy, Serra, Angela, Fratello, Michele, Saarimäki, Laura Aliisa, Fortino, Vittorio, Federico, Antonio, Tsiros, Periklis, Mannerström, Marika, Toimela, Tarja, Serchi, Tommaso, Lynch, Iseult, Doganis, Philip, Sarimveis, Haralambos, and Greco, Dario

Subjects
Quantitative Biology - Quantitative Methods
Abstract

Traditional animal testing for toxicity is expensive, time consuming, ethically questioned, sometimes inaccurate because of the necessity to extrapolate from animal to human, and in most cases not formally validated according to modern standards. This is driving regulatory bodies and companies in backing alternative methods focusing on in silico and in vitro approaches. These are complex to implement and validate, and their wide adoption is not yet established despite legal directives providing an imperative. It is difficult to link a cell level response to effects on a whole organism, but the advances in high-throughput toxicogenomics towards elucidating the mechanism of action of substances are gradually reducing this gap and fostering the adoption of Next Generation Safety Assessment approaches. Quantitative in vitro to in vivo extrapolation (QIVIVE) methods hold the promise to reveal how to use in vitro -omics data to predict the potential for in vivo toxicity. They could improve lead compounds prioritisation, reduce time and costs, also in numbers of animal lives, and help with the complexity of extrapolating between species. We provide a description of QIVIVE state of the art, including how the problems of dosing and timing are being approached, how in silico simulation can take into account the variability of individuals, and how multiple techniques can be integrated to face complex tasks like the prediction of long term toxicity, including a close look into the open problems and challenges ahead., Comment: We authors have decided to withdraw the preprint from arXiv at this time. This decision stems from our desire to revisit and refine certain specific points in our work

Published
2024

3. Dual-stage optimizer for systematic overestimation adjustment applied to multi-objective genetic algorithms for biomarker selection

Author

Cattelani, Luca and Fortino, Vittorio

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Machine Learning
Abstract

The challenge in biomarker discovery using machine learning from omics data lies in the abundance of molecular features but scarcity of samples. Most feature selection methods in machine learning require evaluating various sets of features (models) to determine the most effective combination. This process, typically conducted using a validation dataset, involves testing different feature sets to optimize the model's performance. Evaluations have performance estimation error and when the selection involves many models the best ones are almost certainly overestimated. Biomarker identification with feature selection methods can be addressed as a multi-objective problem with trade-offs between predictive ability and parsimony in the number of features. Genetic algorithms are a popular tool for multi-objective optimization but they evolve numerous solutions thus are prone to overestimation. Methods have been proposed to reduce the overestimation after a model has already been selected in single-objective problems, but no algorithm existed capable of reducing the overestimation during the optimization, improving model selection, or applied in the more general multi-objective domain. We propose DOSA-MO, a novel multi-objective optimization wrapper algorithm that learns how the original estimation, its variance, and the feature set size of the solutions predict the overestimation. DOSA-MO adjusts the expectation of the performance during the optimization, improving the composition of the solution set. We verify that DOSA-MO improves the performance of a state-of-the-art genetic algorithm on left-out or external sample sets, when predicting cancer subtypes and/or patient overall survival, using three transcriptomics datasets for kidney and breast cancer., Comment: Added link to source code repository

Published
2023
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5. Multi-Objective Genetic Algorithm for Multi-View Feature Selection

Author

Imani, Vandad, Sevilla-Salcedo, Carlos, Moradi, Elaheh, Fortino, Vittorio, and Tohka, Jussi

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Multi-view datasets offer diverse forms of data that can enhance prediction models by providing complementary information. However, the use of multi-view data leads to an increase in high-dimensional data, which poses significant challenges for the prediction models that can lead to poor generalization. Therefore, relevant feature selection from multi-view datasets is important as it not only addresses the poor generalization but also enhances the interpretability of the models. Despite the success of traditional feature selection methods, they have limitations in leveraging intrinsic information across modalities, lacking generalizability, and being tailored to specific classification tasks. We propose a novel genetic algorithm strategy to overcome these limitations of traditional feature selection methods for multi-view data. Our proposed approach, called the multi-view multi-objective feature selection genetic algorithm (MMFS-GA), simultaneously selects the optimal subset of features within a view and between views under a unified framework. The MMFS-GA framework demonstrates superior performance and interpretability for feature selection on multi-view datasets in both binary and multiclass classification tasks. The results of our evaluations on three benchmark datasets, including synthetic and real data, show improvement over the best baseline methods. This work provides a promising solution for multi-view feature selection and opens up new possibilities for further research in multi-view datasets.

Published
2023

9. AIM in Allergy

Author

Wisgrill, Lukas, Werner, Paulina, Fortino, Vittorio, Fyhrquist, Nanna, Lidströmer, Niklas, editor, and Ashrafian, Hutan, editor

Published
2022
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11. Biomarkers of nanomaterials hazard from multi-layer data

Author

Fortino, Vittorio, Kinaret, Pia Anneli Sofia, Fratello, Michele, Serra, Angela, Saarimäki, Laura Aliisa, Gallud, Audrey, Gupta, Govind, Vales, Gerard, Correia, Manuel, Rasool, Omid, Ytterberg, Jimmy, Monopoli, Marco, Skoog, Tiina, Ritchie, Peter, Moya, Sergio, Vázquez-Campos, Socorro, Handy, Richard, Grafström, Roland, Tran, Lang, Zubarev, Roman, Lahesmaa, Riitta, Dawson, Kenneth, Loeschner, Katrin, Larsen, Erik Husfeldt, Krombach, Fritz, Norppa, Hannu, Kere, Juha, Savolainen, Kai, Alenius, Harri, Fadeel, Bengt, and Greco, Dario

Published
2022
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15. A Comprehensive Evaluation Framework for Benchmarking Multi-Objective Feature Selection in Omics-Based Biomarker Discovery

Author

Cattelani, Luca, Ghosh, Arindam, Rintala, Teemu J., and Fortino, Vittorio

Abstract

Machine learning algorithms have been extensively used for accurate classification of cancer subtypes driven by gene expression-based biomarkers. However, biomarker models combining multiple gene expression signatures are often not reproducible in external validation datasets and their feature set size is often not optimized, jeopardizing their translatability into cost-effective clinical tools. We investigated how to solve the multi-objective problem of finding the best trade-offs between classification performance and set size applying seven algorithms for machine learning-driven feature subset selection and analyse how they perform in a benchmark with eight large-scale transcriptome datasets of cancer, covering both training and external validation sets. The benchmark includes evaluation metrics assessing the performance of the individual biomarkers and the solution sets, according to their accuracy, diversity, and stability of the composing genes. Moreover, a new evaluation metric for cross-validation studies is proposed that generalizes the hypervolume, which is commonly used to assess the performance of multi-objective optimization algorithms. Biomarkers exhibiting 0.8 of balanced accuracy on the external dataset for breast, kidney and ovarian cancer using respectively 4, 2 and 7 features, were obtained. Genetic algorithms often provided better performance than other considered algorithms, and the recently proposed NSGA2-CH and NSGA2-CHS were the best performing methods in most cases.

Published
2024
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17. Multi-task deep latent spaces for cancer survival and drug sensitivity prediction.

Author

Rintala, Teemu J, Napolitano, Francesco, and Fortino, Vittorio

Subjects
MACHINE learning, HIGH throughput screening (Drug development), ARTIFICIAL intelligence, SURVIVAL analysis (Biometry), OVERALL survival
Abstract

Motivation Cancer is a very heterogeneous disease that can be difficult to treat without addressing the specific mechanisms driving tumour progression in a given patient. High-throughput screening and sequencing data from cancer cell-lines has driven many developments in drug development, however, there are important aspects crucial to precision medicine that are often overlooked, namely the inherent differences between tumours in patients and the cell-lines used to model them in vitro. Recent developments in transfer learning methods for patient and cell-line data have shown progress in translating results from cell-lines to individual patients in silico. However, transfer learning can be forceful and there is a risk that clinically relevant patterns in the omics profiles of patients are lost in the process. Results We present MODAE, a novel deep learning algorithm to integrate omics profiles from cell-lines and patients for the purposes of exploring precision medicine opportunities. MODAE implements patient survival prediction as an additional task in a drug-sensitivity transfer learning schema and aims to balance autoencoding, domain adaptation, drug-sensitivity prediction, and survival prediction objectives in order to better preserve the heterogeneity between patients that is relevant to survival. While burdened with these additional tasks, MODAE performed on par with baseline survival models, but struggled in the drug-sensitivity prediction task. Nevertheless, these preliminary results were promising and show that MODAE provides a novel AI-based method for prioritizing drug treatments for high-risk patients. Availability and implementation https://github.com/UEFBiomedicalInformaticsLab/MODAE. [ABSTRACT FROM AUTHOR]

Published
2024
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18. COPS: A novel platform for multi-omic disease subtype discovery via robust multi-objective evaluation of clustering algorithms.

Author

Rintala, Teemu J. and Fortino, Vittorio

Subjects
*NONNEGATIVE matrices, *MATRIX decomposition, *SURVIVAL rate, *PARETO optimum, *MULTIOMICS, *BREAST
Abstract

Recent research on multi-view clustering algorithms for complex disease subtyping often overlooks aspects like clustering stability and critical assessment of prognostic relevance. Furthermore, current frameworks do not allow for a comparison between data-driven and pathway-driven clustering, highlighting a significant gap in the methodology. We present the COPS R-package, tailored for robust evaluation of single and multi-omics clustering results. COPS features advanced methods, including similarity networks, kernel-based approaches, dimensionality reduction, and pathway knowledge integration. Some of these methods are not accessible through R, and some correspond to new approaches proposed with COPS. Our framework was rigorously applied to multi-omics data across seven cancer types, including breast, prostate, and lung, utilizing mRNA, CNV, miRNA, and DNA methylation data. Unlike previous studies, our approach contrasts data- and knowledge-driven multi-view clustering methods and incorporates cross-fold validation for robustness. Clustering outcomes were assessed using the ARI score, survival analysis via Cox regression models including relevant covariates, and the stability of the results. While survival analysis and gold-standard agreement are standard metrics, they vary considerably across methods and datasets. Therefore, it is essential to assess multi-view clustering methods using multiple criteria, from cluster stability to prognostic relevance, and to provide ways of comparing these metrics simultaneously to select the optimal approach for disease subtype discovery in novel datasets. Emphasizing multi-objective evaluation, we applied the Pareto efficiency concept to gauge the equilibrium of evaluation metrics in each cancer case-study. Affinity Network Fusion, Integrative Non-negative Matrix Factorization, and Multiple Kernel K-Means with linear or Pathway Induced Kernels were the most stable and effective in discerning groups with significantly different survival outcomes in several case studies. Author summary: We developed COPS (Clustering algorithms for Omics-driven Patient Stratification), a computational platform to tackle challenges in disease subtype discovery using single or multi-omics data. COPS employs innovative methods for assessing clustering stability and utilizes the Pareto optimal criterion to find solutions balancing clustering evaluation metrics and clinical relevance. Our comprehensive comparison across several multi-omic cancer datasets demonstrated the efficacy of both pathway-based and non-pathway-based methods in different contexts. Furthermore, we introduced two new methods utilizing pathway graph kernels and multiple kernel learning for pathway-based patient stratification. In our benchmarking study, we observed that different clustering algorithms yielded solutions with different trade-offs between clustering stability, association with known subtypes, and significance of survival differences between the clusters. This work underscores the need for future clustering algorithms to simultaneously address both stability and clinical relevance. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Translatome profiling reveals Itih4 as a novel smooth muscle cell-specific gene in atherosclerosis

Author

Ravindran, Aarthi, primary, Holappa, Lari, additional, Niskanen, Henri, additional, Skovorodkin, Ilya, additional, Kaisto, Susanna, additional, Beter, Mustafa, additional, Kiema, Miika, additional, Selvarajan, Ilakya, additional, Nurminen, Valtteri, additional, Aavik, Einari, additional, Aherrahrou, Rédouane, additional, Pasonen-Seppänen, Sanna, additional, Fortino, Vittorio, additional, Laakkonen, Johanna P, additional, Ylä-Herttuala, Seppo, additional, Vainio, Seppo, additional, Örd, Tiit, additional, and Kaikkonen, Minna U, additional

Published
2024
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21. AIM in Allergy

Author

Wisgrill, Lukas, primary, Werner, Paulina, additional, Fortino, Vittorio, additional, and Fyhrquist, Nanna, additional

Published
2021
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36. The integration of large-scale public data and network analysis uncovers molecular characteristics of psoriasis

Author

Federico, A., Pavel, Alisa, Mobus, Lena, McKean, David, Giudice, Giusy Del, Fortino, Vittorio, Niehues, H., Bogaard, E.H.J. van den, Rinaldis, Emanuele de, Greco, D., Federico, A., Pavel, Alisa, Mobus, Lena, McKean, David, Giudice, Giusy Del, Fortino, Vittorio, Niehues, H., Bogaard, E.H.J. van den, Rinaldis, Emanuele de, and Greco, D.

Abstract

Contains fulltext : 286078.pdf (Publisher’s version ) (Open Access)

Published
2022

37. Biomarkers of nanomaterials hazard from multi-layer data

Author

Fortino, Vittorio, primary, Kinaret, Pia, additional, Fratello, Michele, additional, Serra, Angela, additional, Saarimäki, Laura, additional, Gallud, Audrey, additional, Gupta, Govind, additional, Vales, Gerard, additional, Correia, Manuel, additional, Rasool, Omid, additional, Ytterberg, A. Jimmy, additional, Monopoli, Marco, additional, Skoog, Tiina, additional, Ritchie, Peter, additional, Moya, Sergio, additional, Vázquez-Campos, Socorro, additional, Handy, Richard, additional, Grafström, Roland, additional, Tran, Lang, additional, Zubarev, Roman, additional, Lahesmaa, Riitta, additional, Dawson, Kenneth, additional, Löschner, Katrin, additional, Larsen, Erik, additional, Krombach, Fritz, additional, Norppa, Hannu, additional, Kere, Juha, additional, Savolainen, Kai, additional, Alenius, Harri, additional, Fadeel, Bengt, additional, and Greco, Dario, additional

Published
2022
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38. Integrated Network Pharmacology Approach for Drug Combination Discovery: A Multi-Cancer Case Study

Author

Federico, Antonio, primary, Fratello, Michele, additional, Scala, Giovanni, additional, Möbus, Lena, additional, Pavel, Alisa, additional, del Giudice, Giusy, additional, Ceccarelli, Michele, additional, Costa, Valerio, additional, Ciccodicola, Alfredo, additional, Fortino, Vittorio, additional, Serra, Angela, additional, and Greco, Dario, additional

Published
2022
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40. Additional file 1 of The integration of large-scale public data and network analysis uncovers molecular characteristics of psoriasis

Author

Federico, Antonio, Pavel, Alisa, Möbus, Lena, McKean, David, del Giudice, Giusy, Fortino, Vittorio, Niehues, Hanna, Rastrick, Joe, Eyerich, Kilian, Eyerich, Stefanie, van den Bogaard, Ellen, Smith, Catherine, Weidinger, Stephan, de Rinaldis, Emanuele, and Greco, Dario

Abstract

Additional file 1. Additional material including supplemetary figures and tables.

Published
2022
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42. ThETA: transcriptome-driven efficacy estimates for gene-based TArget discovery

Author

Failli, Mario, Paananen, Jussi, and Fortino, Vittorio

Subjects
AcademicSubjects/SCI01060, Drug Discovery, Gene Expression, Gene Regulatory Networks, Transcriptome, Applications Notes, Software
Abstract

Summary Estimating efficacy of gene–target-disease associations is a fundamental step in drug discovery. An important data source for this laborious task is RNA expression, which can provide gene–disease associations on the basis of expression fold change and statistical significance. However, the simply use of the log-fold change can lead to numerous false-positive associations. On the other hand, more sophisticated methods that utilize gene co-expression networks do not consider tissue specificity. Here, we introduce Transcriptome-driven Efficacy estimates for gene-based TArget discovery (ThETA), an R package that enables non-expert users to use novel efficacy scoring methods for drug–target discovery. In particular, ThETA allows users to search for gene perturbation (therapeutics) that reverse disease-gene expression and genes that are closely related to disease-genes in tissue-specific networks. ThETA also provides functions to integrate efficacy evaluations obtained with different approaches and to build an overall efficacy score, which can be used to identify and prioritize gene(target)–disease associations. Finally, ThETA implements visualizations to show tissue-specific interconnections between target and disease-genes, and to indicate biological annotations associated with the top selected genes. Availability and implementation ThETA is freely available for academic use at https://github.com/vittoriofortino84/ThETA. Contact vittorio.fortino@uef.fi Supplementary information Supplementary data are available at Bioinformatics online.

Published
2020

46. Multiparametric Profiling of Engineered Nanomaterials: Unmasking the Surface Coating Effect

Author

Gallud, Audrey, primary, Delaval, Mathilde, additional, Kinaret, Pia, additional, Marwah, Veer Singh, additional, Fortino, Vittorio, additional, Ytterberg, Jimmy, additional, Zubarev, Roman, additional, Skoog, Tiina, additional, Kere, Juha, additional, Correia, Manuel, additional, Loeschner, Katrin, additional, Al‐Ahmady, Zahraa, additional, Kostarelos, Kostas, additional, Ruiz, Jaime, additional, Astruc, Didier, additional, Monopoli, Marco, additional, Handy, Richard, additional, Moya, Sergio, additional, Savolainen, Kai, additional, Alenius, Harri, additional, Greco, Dario, additional, and Fadeel, Bengt, additional

Published
2020
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47. Immune‐microbiota interaction in Finnish and Russian Karelia young people with high and low allergy prevalence

Author

Ruokolainen, Lasse, primary, Fyhrquist, Nanna, additional, Laatikainen, Tiina, additional, Auvinen, Petri, additional, Fortino, Vittorio, additional, Scala, Giovanni, additional, Jousilahti, Pekka, additional, Karisola, Piia, additional, Vendelin, Johanna, additional, Karkman, Antti, additional, Markelova, Olga, additional, Mäkelä, Mika J., additional, Lehtimäki, Sari, additional, Ndika, Joseph, additional, Ottman, Noora, additional, Paalanen, Laura, additional, Paulin, Lars, additional, Vartiainen, Erkki, additional, Hertzen, Leena, additional, Greco, Dario, additional, Haahtela, Tari, additional, and Alenius, Harri, additional

Published
2020
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48. The EDCMET Project: Metabolic Effects of Endocrine Disruptors

Author

Küblbeck, Jenni, primary, Vuorio, Taina, additional, Niskanen, Jonna, additional, Fortino, Vittorio, additional, Braeuning, Albert, additional, Abass, Khaled, additional, Rautio, Arja, additional, Hakkola, Jukka, additional, Honkakoski, Paavo, additional, and Levonen, Anna-Liisa, additional

Published
2020
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49. Knowledge Generation with Rule Induction in Cancer Omics

Author

Scala, Giovanni, Federico, Antonio, Fortino, Vittorio, Greco, Dario, Majello, Barbara, Lääketieteen ja terveysteknologian tiedekunta - Faculty of Medicine and Health Technology, and Tampere University

Subjects
rule induction, omics data, machine learning, TCGA (The Cancer Genome Atlas), Biolääketieteet - Biomedicine, Syöpätaudit - Cancers, Lääketieteen bioteknologia - Medical biotechnology, cancer, patients classification
Published
2020

50. Multiparametric profiling of engineered nanomaterials : unmasking the surface coating effect

Author

Gallud, Aucrey, Delaval, Mathilde, Kinaret, Pia, Marwah, Veer Singh, Fortino, Vittorio, Ytterberg, Jimmy, Zubarev, Roman, Skoog, Tiina, Kere, Juha, Correia, Manuel, Loeschner, Katrin, Al-Ahmady, Zahraa, Kostarelos, Kostas, Ruiz, Jaime, Astruc, Didier, Monopoli, Marco, Handy, Richard, Moya, Sergio, Savolainen, Kai, Alenius, Harri, Greco, Dario, Fadeel, Bengt, Gallud, Aucrey, Delaval, Mathilde, Kinaret, Pia, Marwah, Veer Singh, Fortino, Vittorio, Ytterberg, Jimmy, Zubarev, Roman, Skoog, Tiina, Kere, Juha, Correia, Manuel, Loeschner, Katrin, Al-Ahmady, Zahraa, Kostarelos, Kostas, Ruiz, Jaime, Astruc, Didier, Monopoli, Marco, Handy, Richard, Moya, Sergio, Savolainen, Kai, Alenius, Harri, Greco, Dario, and Fadeel, Bengt

Abstract

Despite considerable efforts, the properties that drive the cytotoxicity of engineered nanomaterials (ENMs) remain poorly understood. Here, the authors inverstigate a panel of 31 ENMs with different core chemistries and a variety of surface modifications using conventional in vitro assays coupled with omics-based approaches. Cytotoxicity screening and multiplex-based cytokine profiling reveals a good concordance between primary human monocyte-derived macrophages and the human monocyte-like cell line THP-1. Proteomics analysis following a low-dose exposure of cells suggests a nonspecific stress response to ENMs, while microarray-based profiling reveals significant changes in gene expression as a function of both surface modification and core chemistry. Pathway analysis highlights that the ENMs with cationic surfaces that are shown to elicit cytotoxicity downregulated DNA replication and cell cycle responses, while inflammatory responses are upregulated. These findings are validated using cell-based assays. Notably, certain small, PEGylated ENMs are found to be noncytotoxic yet they induce transcriptional responses reminiscent of viruses. In sum, using a multiparametric approach, it is shown that surface chemistry is a key determinant of cellular responses to ENMs. The data also reveal that cytotoxicity, determined by conventional in vitro assays, does not necessarily correlate with transcriptional effects of ENMs.

Published
2020

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