# Platelets as Central Modulators of Post-Cardiac Arrest Syndrome: Mechanisms and Therapeutic Implications

**Authors:** Chen-Hsu Wang, Jing-Shiun Jan, Chih-Hao Yang, Chih-Wei Hsia, Ting-Lin Yen

PMC · DOI: 10.3390/biom16010134 · Biomolecules · 2026-01-12

## TL;DR

This paper explores how platelets play a key role in post-cardiac arrest syndrome and suggests new therapies targeting platelet activity to improve survival and neurological outcomes.

## Contribution

The paper introduces platelets as central modulators of post-cardiac arrest syndrome, offering a novel therapeutic framework.

## Key findings

- Platelets are transformed into thromboinflammatory effectors during ischemia and reperfusion.
- Hyperactivated platelets contribute to microthrombus formation and systemic inflammation.
- Targeting platelet activity with specific interventions may improve post-arrest outcomes.

## Abstract

Post-cardiac arrest syndrome (PCAS) remains a major cause of mortality and neurological impairment following successful resuscitation, yet the mechanisms linking global ischemia–reperfusion injury to microvascular and systemic dysfunction are not yet completely understood. While prior work has focused on inflammation, endothelial injury, and circulatory collapse, the central role of platelets in coordinating these pathological processes has not been comprehensively examined. This review provides the first integrated framework positioning platelets as core modulators, rather than secondary participants, in PCAS pathophysiology. We synthesize emerging evidence demonstrating that ischemia and reperfusion transform platelets into potent thromboinflammatory effectors through oxidative stress, DAMP-mediated pattern recognition signaling, and mitochondrial dysfunction. Hyperactivated platelets drive cerebral microthrombus formation, coronary no-reflow, and peripheral organ hypoperfusion, while platelet–leukocyte aggregates, neutrophil extracellular traps, and platelet-derived microparticles amplify systemic inflammation and endothelial injury. We further highlight the clinical significance of dynamic platelet dysfunction in coagulopathy, prognostication, and responses to post-arrest therapies including targeted temperature management and ECMO. Finally, we outline a novel, platelet-centered therapeutic paradigm, emphasizing selective interventions, such as GPVI inhibition, P-selectin blockade, FXI/XIa inhibition, and NETosis modulation, that target pathological platelet activity while preserving essential hemostatic function. In this review, by reframing platelets as the central determinants of PCAS, we report new mechanistic insights and therapeutic opportunities that are complementary to the existing post-arrest strategies and have the potential to improve survival and neurological outcomes after cardiac arrest.

## Linked entities

- **Proteins:** GP6 (glycoprotein VI platelet), SELP (selectin P), F11 (coagulation factor XI), XIA (myosin XI A)
- **Diseases:** post-cardiac arrest syndrome (MONDO:0850092), coagulopathy (MONDO:0001531)

## Full-text entities

- **Genes:** SELP (selectin P) [NCBI Gene 6403] {aka CD62, CD62P, GMP140, GRMP, LECAM3, PADGEM}, F11 (coagulation factor XI) [NCBI Gene 2160] {aka FXI, PTA}, GP6 (glycoprotein VI platelet) [NCBI Gene 51206] {aka BDPLT11, GPIV, GPVI}
- **Diseases:** PCAS (MESH:D000080942), mitochondrial dysfunction (MESH:D028361), cardiac arrest (MESH:D006323), neurological impairment (MESH:D009422), coagulopathy (MESH:D001778), ischemia (MESH:D007511), dysfunction (MESH:D006331), inflammation (MESH:D007249), endothelial injury (MESH:D057772), microvascular (MESH:D017566), platelet dysfunction (MESH:D001791), reperfusion injury (MESH:D015427)
- **Chemicals:** DAMP (MESH:C116255)

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12839068/full.md

## References

105 references — full list in the complete paper: https://tomesphere.com/paper/PMC12839068/full.md

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Source: https://tomesphere.com/paper/PMC12839068