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Spectrum of short-term inflammatory musculoskeletal manifestations after COVID-19 vaccine administration: a report of 66 cases

2021; BMJ; Volume: 81; Issue: 3 Linguagem: Inglês

10.1136/annrheumdis-2021-221587

1468-2060

Francesco Ursini, Piero Ruscitti, Vincenzo Raimondo, Rossella De Angelis, Fabio Cacciapaglia, Erika Pigatto, Domenico Olivo, Ilenia Di Cola, Felice Galluccio, Francesca Francioso, Rosario Foti, Antonio Tavoni, Salvatore D’Angelo, Corrado Campochiaro, Francesca Motta, Maria De Santis, Silvia Bilia, Caterina Bruno, Giacomo De Luca, Marcella Visentini, Jacopo Ciaffi, Luana Mancarella, Veronica Brusi, Martina D’Onghia, Giovanna Cuomo, Enrico Fusaro, Lorenzo Dagna, Serena Guiducci, Riccardo Melicòni, Florenzo Iannone, Annamaria Iagnocco, Roberto Giacomelli, Clodoveo Ferri,

COVID-19 Clinical Research Studies

Abstract Background In the last decade, integrative studies of microbiome and metabolome have experienced exponential growth in understanding their impact on human health and diseases. However, analyzing the resulting multi-omics data and their correlations remains a significant challenge in current studies due to the lack of a comprehensive computational tool to facilitate data integration and interpretation. In this study, we have developed a microbiome and metabolome integrative analysis pipeline (M 2 IA) to meet the urgent needs for tools that effectively integrate microbiome and metabolome data to derive biological insights. Results M 2 IA streamlines the integrative data analysis between metabolome and microbiome, including both univariate analysis and multivariate modeling methods. KEGG-based functional analysis of microbiome and metabolome are provided to explore their biological interactions within specific metabolic pathways. The functionality of M 2 IA was demonstrated using TwinsUK cohort data with 1116 fecal metabolites and 16s rRNA microbiome from 786 individuals. As a result, we identified two important pathways, i.e., the benzoate degradation and phosphotransferase system, were closely associated with obesity from both metabolome and microbiome. Conclusions M 2 IA is a public available web server (http://m2ia.met-bioinformatics.cn) with the capability to investigate the complex interplay between microbiome and metabolome, and help users to develop mechanistic hypothesis for nutritional and personalized therapies of diseases.