Changchang Ge, Yi Lu, Zhaofeng Shen, Yizhou Lu, Xiaojuan Liu, Mengyuan Zhang, Yijing Liu, Hong Shen, Lei Zhu
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引用次数: 0
Abstract
Background and aims: Ulcerative colitis (UC) is a metabolism-related chronic intestinal inflammatory disease. Disease extent is a key parameter of UC. Using serum metabolic profiling to identify non-invasive biomarkers of disease extent may inform therapeutic decisions and risk stratification.
Methods: The orthogonal partial least squares-discriminant analysis (OPLS-DA) was performed to identify the metabolites. Least absolute shrinkage and selection operator (LASSO) regression, random forest-recursive feature elimination (RF-RFE), and support vector machine-recursive feature elimination (SVM-RFE) algorithms were used to screen metabolites. Five machine learning algorithms (XGboost, KNN, NB, RF, and SVM) were used to construct prediction model.
Results: A total of 220 differential metabolites between the patients with UC and healthy controls (HCs) were confirmed by the OPLS-DA model. Machine learning screened eight essential metabolites for distinguishing patients with UC from HCs. A total of 23, 6, and 6 differential metabolites were obtained through machine learning between group E1 and E2, E1 and E3, and E2 and E3. The RF model had a prediction accuracy of up to 100% in all three training sets. The serum levels of tridecanoic acid were significantly lower and pelargonic acid were significantly higher in patients with extensive colitis than in the other groups. The serum level of asparaginyl valine in patients with rectal UC was significantly lower than that in E2 and E3 groups.
Conclusions: Our findings revealed the metabolic landscape of UC and identified biomarkers for different disease extents, confirming the value of metabolites in predicting the occurrence and progression of UC.
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