An algorithm with two gastrointestinal damage biomarkers (ST2 + REG3α) predicted GVHD outcomes more accurately (AUC 0.79) than systemic biomarkers alone (AUC 0.57, P<.001).
Cohort (n=730)
Blinded evaluation
Yes
Do gastrointestinal tissue damage biomarkers improve the prediction of clinical outcomes in patients with acute GVHD compared to systemic inflammation biomarkers alone?
In patients with acute GVHD, algorithms incorporating gastrointestinal tissue damage biomarkers (ST2, REG3α) significantly improve the prediction of long-term outcomes like 6-month nonrelapse mortality and survival compared to systemic inflammation biomarkers alone.
Effect estimate: AUC 0.79
p-value: p=<.001
We used a rigorous PRoBE (prospective-specimen collection, retrospective-blinded-evaluation) study design to compare the ability of biomarkers of systemic inflammation and biomarkers of gastrointestinal (GI) tissue damage to predict response to corticosteroid treatment, the incidence of clinically severe disease, 6-month nonrelapse mortality (NRM), and overall survival in patients with acute graft-versus-host disease (GVHD). We prospectively collected serum samples of newly diagnosed GVHD patients (n = 730) from 19 centers, divided them into training (n = 352) and validation (n = 378) cohorts, and measured TNFR1, TIM3, IL6, ST2, and REG3α via enzyme-linked immunosorbent assay. Performances of the 4 strongest algorithms from the training cohort (TNFR1 + TIM3, TNFR1 + ST2, TNFR1 + REG3α, and ST2 + REG3α) were evaluated in the validation cohort. The algorithm that included only biomarkers of systemic inflammation (TNFR1 + TIM3) had a significantly smaller area under the curve (AUC; 0.57) than the AUCs of algorithms that contained ≥1 GI damage biomarker (TNFR1 + ST2, 0.70; TNFR1 + REG3α, 0.73; ST2 + REG3α, 0.79; all P < .001). All 4 algorithms were able to predict short-term outcomes such as response to systemic corticosteroids and severe GVHD, but the inclusion of a GI damage biomarker was needed to predict long-term outcomes such as 6-month NRM and survival. The algorithm that included 2 GI damage biomarkers was the most accurate of the 4 algorithms for all endpoints.
Etra et al. (Thu,) conducted a cohort in Acute graft-versus-host disease (GVHD) (n=730). Gastrointestinal tissue damage biomarker algorithms (ST2 + REG3α) vs. Systemic inflammation biomarkers alone (TNFR1 + TIM3) was evaluated on Prediction of response to corticosteroid treatment, severe disease, 6-month nonrelapse mortality, and overall survival (AUC 0.79, p=<.001). An algorithm with two gastrointestinal damage biomarkers (ST2 + REG3α) predicted GVHD outcomes more accurately (AUC 0.79) than systemic biomarkers alone (AUC 0.57, P<.001).
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