Autor: |
Justin T, Reese, Hannah, Blau, Timothy, Bergquist, Johanna J, Loomba, Tiffany, Callahan, Bryan, Laraway, Corneliu, Antonescu, Elena, Casiraghi, Ben, Coleman, Michael, Gargano, Kenneth J, Wilkins, Luca, Cappelletti, Tommaso, Fontana, Nariman, Ammar, Blessy, Antony, T M, Murali, Guy, Karlebach, Julie A, McMurry, Andrew, Williams, Richard, Moffitt, Jineta, Banerjee, Anthony E, Solomonides, Hannah, Davis, Kristin, Kostka, Giorgio, Valentini, David, Sahner, Christopher G, Chute, Charisse, Madlock-Brown, Melissa A, Haendel, Peter N, Robinson |
Rok vydání: |
2022 |
Předmět: |
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Zdroj: |
medRxiv |
Popis: |
Accurate stratification of patients with post-acute sequelae of SARS-CoV-2 infection (PASC, or long COVID) would allow precision clinical management strategies. However, the natural history of long COVID is incompletely understood and characterized by an extremely wide range of manifestations that are difficult to analyze computationally. In addition, the generalizability of machine learning classification of COVID-19 clinical outcomes has rarely been tested. We present a method for computationally modeling PASC phenotype data based on electronic healthcare records (EHRs) and for assessing pairwise phenotypic similarity between patients using semantic similarity. Our approach defines a nonlinear similarity function that maps from a feature space of phenotypic abnormalities to a matrix of pairwise patient similarity that can be clustered using unsupervised machine learning procedures. Using k-means clustering of this similarity matrix, we found six distinct clusters of PASC patients, each with distinct profiles of phenotypic abnormalities. There was a significant association of cluster membership with a range of pre-existing conditions and with measures of severity during acute COVID-19. Two of the clusters were associated with severe manifestations and displayed increased mortality. We assigned new patients from other healthcare centers to one of the six clusters on the basis of maximum semantic similarity to the original patients. We show that the identified clusters were generalizable across different hospital systems and that the increased mortality rate was consistently observed in two of the clusters. Semantic phenotypic clustering can provide a foundation for assigning patients to stratified subgroups for natural history or therapy studies on PASC. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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