Your search keyword '"Nielsen, Annelaura Bach"' showing total 3 results

1. Imputation of label-free quantitative mass spectrometry-based proteomics data using self-supervised deep learning.

Author

Webel H, Niu L, Nielsen AB, Locard-Paulet M, Mann M, Jensen LJ, and Rasmussen S

Subjects

Humans, Supervised Machine Learning, Male, Proteomics methods, Deep Learning, Mass Spectrometry methods

Abstract

Imputation techniques provide means to replace missing measurements with a value and are used in almost all downstream analysis of mass spectrometry (MS) based proteomics data using label-free quantification (LFQ). Here we demonstrate how collaborative filtering, denoising autoencoders, and variational autoencoders can impute missing values in the context of LFQ at different levels. We applied our method, proteomics imputation modeling mass spectrometry (PIMMS), to an alcohol-related liver disease (ALD) cohort with blood plasma proteomics data available for 358 individuals. Removing 20 percent of the intensities we were able to recover 15 out of 17 significant abundant protein groups using PIMMS-VAE imputations. When analyzing the full dataset we identified 30 additional proteins (+13.2%) that were significantly differentially abundant across disease stages compared to no imputation and found that some of these were predictive of ALD progression in machine learning models. We, therefore, suggest the use of deep learning approaches for imputing missing values in MS-based proteomics on larger datasets and provide workflows for these., (© 2024. The Author(s).)

Published

2024

2. Proteomic profiling reveals diagnostic signatures and pathogenic insights in multisystem inflammatory syndrome in children.

Author

Nygaard U, Nielsen AB, Dungu KHS, Drici L, Holm M, Ottenheijm ME, Nielsen AB, Glenthøj JP, Schmidt LS, Cortes D, Jørgensen IM, Mogensen TH, Schmiegelow K, Mann M, Vissing NH, and Wewer Albrechtsen NJ

Subjects

Humans, Child, Female, Male, Child, Preschool, SARS-CoV-2, Adolescent, Biomarkers blood, Artificial Intelligence, Infant, Systemic Inflammatory Response Syndrome diagnosis, Systemic Inflammatory Response Syndrome blood, COVID-19 diagnosis, COVID-19 metabolism, COVID-19 complications, Proteomics methods

Abstract

Multisystem inflammatory syndrome in children (MIS-C) is a severe disease that emerged during the COVID-19 pandemic. Although recognized as an immune-mediated condition, the pathogenesis remains unresolved. Furthermore, the absence of a diagnostic test can lead to delayed immunotherapy. Using state-of-the-art mass-spectrometry proteomics, assisted by artificial intelligence (AI), we aimed to identify a diagnostic signature for MIS-C and to gain insights into disease mechanisms. We identified a highly specific 4-protein diagnostic signature in children with MIS-C. Furthermore, we identified seven clusters that differed between MIS-C and controls, indicating an interplay between apolipoproteins, immune response proteins, coagulation factors, platelet function, and the complement cascade. These intricate protein patterns indicated MIS-C as an immunometabolic condition with global hypercoagulability. Our findings emphasize the potential of AI-assisted proteomics as a powerful and unbiased tool for assessing disease pathogenesis and suggesting avenues for future interventions and impact on pediatric disease trajectories through early diagnosis., (© 2024. The Author(s).)

Published

2024

3. Mass spectrometry-based proteomics data from thousands of HeLa control samples.

Author

Webel H, Perez-Riverol Y, Nielsen AB, and Rasmussen S

Subjects

Humans, Mass Spectrometry, Metadata, HeLa Cells, Machine Learning, Proteomics

Abstract

Here we provide a curated, large scale, label free mass spectrometry-based proteomics data set derived from HeLa cell lines for general purpose machine learning and analysis. Data access and filtering is a tedious task, which takes up considerable amounts of time for researchers. Therefore we provide machine based metadata for easy selection and overview along the 7,444 raw files and MaxQuant search output. For convenience, we provide three filtered and aggregated development datasets on the protein groups, peptides and precursors level. Next to providing easy to access training data, we provide a SDRF file annotating each raw file with instrument settings allowing automated reprocessing. We encourage others to enlarge this data set by instrument runs of further HeLa samples from different machine types by providing our workflows and analysis scripts., (© 2024. The Author(s).)

Published

2024