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Your search keyword '"Pouliot, Yannick"' showing total 45 results
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45 results on '"Pouliot, Yannick"'

1. Modeling Disease Progression in Mild Cognitive Impairment and Alzheimer's Disease with Digital Twins

Author

Bertolini, Daniele, Loukianov, Anton D., Smith, Aaron M., Li-Bland, David, Pouliot, Yannick, Walsh, Jonathan R., and Fisher, Charles K.

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

Alzheimer's Disease (AD) is a neurodegenerative disease that affects subjects in a broad range of severity and is assessed in clinical trials with multiple cognitive and functional instruments. As clinical trials in AD increasingly focus on earlier stages of the disease, especially Mild Cognitive Impairment (MCI), the ability to model subject outcomes across the disease spectrum is extremely important. We use unsupervised machine learning models called Conditional Restricted Boltzmann Machines (CRBMs) to create Digital Twins of AD subjects. Digital Twins are simulated clinical records that share baseline data with actual subjects and comprehensively model their outcomes under standard-of-care. The CRBMs are trained on a large set of records from subjects in observational studies and the placebo arms of clinical trials across the AD spectrum. These data exhibit a challenging, but common, patchwork of measured and missing observations across subjects in the dataset, and we present a novel model architecture designed to learn effectively from it. We evaluate performance against a held-out test dataset and show how Digital Twins simultaneously capture the progression of a number of key endpoints in clinical trials across a broad spectrum of disease severity, including MCI and mild-to-moderate AD.

Published
2020

2. Generating Digital Twins with Multiple Sclerosis Using Probabilistic Neural Networks

Author

Walsh, Jonathan R., Smith, Aaron M., Pouliot, Yannick, Li-Bland, David, Loukianov, Anton, and Fisher, Charles K.

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

Multiple Sclerosis (MS) is a neurodegenerative disorder characterized by a complex set of clinical assessments. We use an unsupervised machine learning model called a Conditional Restricted Boltzmann Machine (CRBM) to learn the relationships between covariates commonly used to characterize subjects and their disease progression in MS clinical trials. A CRBM is capable of generating digital twins, which are simulated subjects having the same baseline data as actual subjects. Digital twins allow for subject-level statistical analyses of disease progression. The CRBM is trained using data from 2395 subjects enrolled in the placebo arms of clinical trials across the three primary subtypes of MS. We discuss how CRBMs are trained and show that digital twins generated by the model are statistically indistinguishable from their actual subject counterparts along a number of measures.

Published
2020

4. Association of genetic ancestry with molecular tumor profiles in colorectal cancer.

Author

Rhead, Brooke, Hein, David M., Pouliot, Yannick, Guinney, Justin, De La Vega, Francisco M., and Sanford, Nina N.

Subjects
SOMATIC mutation, RACE, BLACK people, GENE expression, GENE expression profiling
Abstract

Background: There are known disparities in incidence and outcomes of colorectal cancer (CRC) by race and ethnicity. Some of these disparities may be mediated by molecular changes in tumors that occur at different rates across populations. Genetic ancestry is a measure complementary to race and ethnicity that can overcome missing data issues and better capture genetic similarity in admixed populations. We aimed to identify somatic mutations and tumor gene expression differences associated with both genetic ancestry and imputed race and ethnicity. Methods: Sequencing was performed with the Tempus xT NGS 648-gene panel and whole exome capture RNA-Seq for 8454 primarily late-stage CRC patients. Genetic ancestry proportions for five continental groups—Africa (AFR), American indigenous (AMR), East Asia (EAS), Europe (EUR), and South Asia (SAS)—were estimated using ancestry informative markers. To address data gaps, race and ethnicity categories were imputed, resulting in assignments for 952 Hispanic/Latino, 420 non-Hispanic (NH) Asian, 1061 NH Black, and 5763 NH White individuals. We assessed association of genetic ancestry proportions and imputed race and ethnicity categories with somatic mutations in relevant CRC genes and in 2608 expression profiles, as well as 1957 consensus molecular subtypes (CMS). Results: Increased AFR ancestry was associated with higher odds of somatic mutations in APC, KRAS, and PIK3CA and lower odds of BRAF mutations. Additionally, increased EAS ancestry was associated with lower odds of mutations in KRAS, EUR with higher odds in BRAF, and the Hispanic/Latino category with lower odds in BRAF. Greater AFR ancestry and the NH Black category were associated with higher rates of CMS3, while a higher proportion of Hispanic/Latino patients exhibited indeterminate CMS classifications. Conclusions: Molecular differences in CRC tumor mutation frequencies and gene expression that may underlie observed differences by race and ethnicity were identified. The association of AFR ancestry with increased KRAS mutations aligns with higher CMS3 subtype rates in NH Black patients. The increase of indeterminate CMS in Hispanic/Latino patients suggests that subtype classification methods could benefit from enhanced patient diversity. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Translational bioinformatics in the cloud: an affordable alternative.

Author

Dudley, Joel T, Pouliot, Yannick, Chen, Rong, Morgan, Alexander A, and Butte, Atul J

Subjects
Genetics, Clinical Sciences
Abstract

With the continued exponential expansion of publicly available genomic data and access to low-cost, high-throughput molecular technologies for profiling patient populations, computational technologies and informatics are becoming vital considerations in genomic medicine. Although cloud computing technology is being heralded as a key enabling technology for the future of genomic research, available case studies are limited to applications in the domain of high-throughput sequence data analysis. The goal of this study was to evaluate the computational and economic characteristics of cloud computing in performing a large-scale data integration and analysis representative of research problems in genomic medicine. We find that the cloud-based analysis compares favorably in both performance and cost in comparison to a local computational cluster, suggesting that cloud computing technologies might be a viable resource for facilitating large-scale translational research in genomic medicine.

Published
2010

12. 132 Racial differences in TMB measures between paired tumor/normal and tumor-only sequencing across endometrial, bladder, and non-small cell lung cancers

Author

Vega, Francisco De La, primary, Pouliot, Yannick, additional, Reichard, Chad, additional, Ben-Shachar, Rotem, additional, Rhead, Brooke, additional, Carson, Kenneth, additional, Cooney, Matheww, additional, Kaneva, Kristiyana, additional, Dowlati, Afshin, additional, and Guinney, Justin, additional

Published
2022
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15. Paired tumor/normal sequencing to overcome racial differences in tumor mutational burden (TMB).

Author

Carson, Kenneth Robert, primary, Salahudeen, Ameen, additional, Fidler, Mary Jo J., additional, Seder, Christopher W., additional, Liptay, Michael J., additional, Feldman, Lawrence Eric, additional, Nguyen, Ryan Huu-Tuan, additional, Weinberg, Frank, additional, Pasquinelli, Mary, additional, Huelsman, Karen M., additional, Kaneva, Kristiyana, additional, Rhead, Brooke, additional, Pouliot, Yannick, additional, and De La Vega, Francisco, additional

Published
2022
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18. A deep-learning-based RNA-seq germline variant caller.

Author

Cook, Daniel E, Venkat, Aarti, Yelizarov, Dennis, Pouliot, Yannick, Chang, Pi-Chuan, Carroll, Andrew, and Vega, Francisco M De La

Subjects
RNA sequencing, DEEP learning, GERM cells, GENE fusion, PLATYPUS
Abstract

Summary RNA sequencing (RNA-seq) can be applied to diverse tasks including quantifying gene expression, discovering quantitative trait loci and identifying gene fusion events. Although RNA-seq can detect germline variants, the complexities of variable transcript abundance, target capture and amplification introduce challenging sources of error. Here, we extend DeepVariant, a deep-learning-based variant caller, to learn and account for the unique challenges presented by RNA-seq data. Our DeepVariant RNA-seq model produces highly accurate variant calls from RNA-sequencing data, and outperforms existing approaches such as Platypus and GATK. We examine factors that influence accuracy, how our model addresses RNA editing events and how additional thresholding can be used to facilitate our models' use in a production pipeline. Supplementary information Supplementary data are available at Bioinformatics Advances online. [ABSTRACT FROM AUTHOR]

Published
2023
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21. The center for expanded data annotation and retrieval

Author

Musen, Mark A, Bean, Carol A, Cheung, Kei-Hoi, Dumontier, Michel, Durante, Kim A, Gevaert, Olivier, Gonzalez-Beltran, Alejandra, Khatri, Purvesh, Kleinstein, Steven H, O’Connor, Martin J, Pouliot, Yannick, Rocca-Serra, Philippe, Sansone, Susanna-Assunta, and Wiser, Jeffrey A

Published
2015
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24. A survey of orphan enzyme activities

Author

Pouliot Yannick and Karp Peter D

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background Using computational database searches, we have demonstrated previously that no gene sequences could be found for at least 36% of enzyme activities that have been assigned an Enzyme Commission number. Here we present a follow-up literature-based survey involving a statistically significant sample of such "orphan" activities. The survey was intended to determine whether sequences for these enzyme activities are truly unknown, or whether these sequences are absent from the public sequence databases but can be found in the literature. Results We demonstrate that for ~80% of sampled orphans, the absence of sequence data is bona fide. Our analyses further substantiate the notion that many of these enzyme activities play biologically important roles. Conclusion This survey points toward significant scientific cost of having such a large fraction of characterized enzyme activities disconnected from sequence data. It also suggests that a larger effort, beginning with a comprehensive survey of all putative orphan activities, would resolve nearly 300 artifactual orphans and reconnect a wealth of enzyme research with modern genomics. For these reasons, we propose that a systematic effort to identify the cognate genes of orphan enzymes be undertaken.

Published
2007
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25. BioWarehouse: a bioinformatics database warehouse toolkit

Author

Stringer-Calvert David WJ, Gupta Priyanka, Wagner Valerie, Pouliot Yannick, Lee Thomas J, Tenenbaum Jessica D, and Karp Peter D

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background This article addresses the problem of interoperation of heterogeneous bioinformatics databases. Results We introduce BioWarehouse, an open source toolkit for constructing bioinformatics database warehouses using the MySQL and Oracle relational database managers. BioWarehouse integrates its component databases into a common representational framework within a single database management system, thus enabling multi-database queries using the Structured Query Language (SQL) but also facilitating a variety of database integration tasks such as comparative analysis and data mining. BioWarehouse currently supports the integration of a pathway-centric set of databases including ENZYME, KEGG, and BioCyc, and in addition the UniProt, GenBank, NCBI Taxonomy, and CMR databases, and the Gene Ontology. Loader tools, written in the C and JAVA languages, parse and load these databases into a relational database schema. The loaders also apply a degree of semantic normalization to their respective source data, decreasing semantic heterogeneity. The schema supports the following bioinformatics datatypes: chemical compounds, biochemical reactions, metabolic pathways, proteins, genes, nucleic acid sequences, features on protein and nucleic-acid sequences, organisms, organism taxonomies, and controlled vocabularies. As an application example, we applied BioWarehouse to determine the fraction of biochemically characterized enzyme activities for which no sequences exist in the public sequence databases. The answer is that no sequence exists for 36% of enzyme activities for which EC numbers have been assigned. These gaps in sequence data significantly limit the accuracy of genome annotation and metabolic pathway prediction, and are a barrier for metabolic engineering. Complex queries of this type provide examples of the value of the data warehousing approach to bioinformatics research. Conclusion BioWarehouse embodies significant progress on the database integration problem for bioinformatics.

Published
2006
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27. A Robust Targeted Sequencing Approach for Low Input and Variable Quality DNA from Clinical Samples

Author

So, Austin P., primary, Vilborg, Anna, additional, Bouhlal, Yosr, additional, Koehler, Ryan T., additional, Grimes, Susan M., additional, Pouliot, Yannick, additional, Mendoza, Daniel, additional, Ziegle, Janet, additional, Stein, Jason, additional, Goodsaid, Federico, additional, Lucero, Michael Y., additional, De La Vega, Francisco M., additional, and Ji, Hanlee P., additional

Published
2017
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28. Abstract 2712: Joint somatic mutation and germline variant identification and scoring from tumor molecular profiling and ct-DNA monitoring of cancer patients by high-throughput sequencing

Author

De La Vega, Francisco M., primary, Koehler, Ryan T., additional, Pouliot, Yannick, additional, Bouhlal, Yosr, additional, So, Austin, additional, Goodsaid, Federico, additional, Irvine, Sean, additional, Trigg, Len, additional, and Nadauld, Lincoln, additional

Published
2016
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45. Imputation of race and ethnicity categories using genetic ancestry from real-world genomic testing data.

Author

Rhead B, Haffener PE, Pouliot Y, and De La Vega FM

Subjects
Humans, Racial Groups genetics, Computational Biology, Genetic Testing, Ethnicity genetics, Names
Abstract

The incompleteness of race and ethnicity information in real-world data (RWD) hampers its utility in promoting healthcare equity. This study introduces two methods-one heuristic and the other machine learning-based-to impute race and ethnicity from genetic ancestry using tumor profiling data. Analyzing de-identified data from over 100,000 cancer patients sequenced with the Tempus xT panel, we demonstrate that both methods outperform existing geolocation and surname-based methods, with the machine learning approach achieving high recall (range: 0.859-0.993) and precision (range: 0.932-0.981) across four mutually exclusive race and ethnicity categories. This work presents a novel pathway to enhance RWD utility in studying racial disparities in healthcare.

Published
2024

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