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February 27, 2026

Plasma metabolomic signatures of mitochondrial energetic disruption in severe primary graft dysfunction after heart transplantation

Key Points

To explore plasma metabolomic signatures related to mitochondrial energetic disruption in severe primary graft dysfunction after heart transplantation.
Analyzed plasma metabolomics in cases of severe primary graft dysfunction
Examined patterns of substrate accumulation and succinate levels
Investigated the link between metabolic profiles and oxidative stress signaling
Detected distinct patterns of succinate elevation post-transplantation
Identified specific substrate accumulations related to energy metabolism failure
Support the notion of a metabolic differentiation between recovery and persistent energetic stress

Abstract

Severe primary graft dysfunction is characterized by a failure to restore cellular energy metabolism, reflected by coordinated upstream substrate accumulation and a distinct temporal pattern of succinate elevation. As an established metabolic signature of ischaemia-reperfusion injury, the succinate trajectory provides a biologically plausible link between impaired energetic recovery and downstream oxidative stress signaling. Although exploratory, these findings support a coherent metabolic framework distinguishing recovery from persistent energetic stress in severe primary graft dysfunction.

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Cite This Study

Rust et al. (Sat,) studied this question.

synapsesocial.com/papers/69a134fbed1d949a99abe7ce https://doi.org/https://doi.org/10.1093/ejcts/ezag067

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