# Cortical Neuroprotective Mechanisms of Exercise Training in Post-Traumatic Brain Injury: A Systematic Review

**Authors:** Farhan Yousaf, Sean Kao, Shahid Ishaq, Shin-Da Lee

PMC · DOI: 10.3390/ijms27010052 · International Journal of Molecular Sciences · 2025-12-20

## TL;DR

Exercise training helps protect the brain after injury by reducing harmful processes and improving recovery.

## Contribution

This systematic review evaluates how exercise training affects cortical molecular and functional outcomes after traumatic brain injury in animal models.

## Key findings

- Exercise training reduces oxidative stress and neuroinflammation in post-TBI.
- Exercise training enhances neurotrophic signaling and promotes neurogenesis in the cortex.
- Exercise training improves motor function and reduces apoptosis in post-TBI models.

## Abstract

Traumatic brain injury (TBI) causes cortical dysfunction by increasing oxidative stress, neuroinflammation, apoptosis, and mitochondrial dysregulation, and impairing neurotrophic signaling and neurogenesis. This systematic review aimed to evaluate the effectiveness of exercise training on cortical molecular dysregulation and motor function in post-TBI. Following PRISMA 2020 guidelines, PubMed, EMBASE, and Web of Science were searched up to August 2025. Of 1173 records, 35 studies involving exercise training in post-TBI animal models were included. Exercise training protocols included voluntary wheel running, treadmill running, and swimming, with durations ranging from 7 to 63 days. Study quality was assessed using the CAMARADES checklist. Exercise training increased cortical glutathione and Na+/K+-ATPase activity and reduced oxidative stress in post-TBI. It reduced microglial, astrocytic reactivity, and pro-inflammatory markers, including IL-1β and TNF-α expression in post-TBI. It also reduced caspase activity while increasing heat shock protein 20 (HSP20), thereby downregulating cortical apoptosis in post-TBI. It enhanced motor function, cortical neurogenesis, and neurotrophic factors signaling, including BDNF, in post-TBI. Exercise training improved motor function and cortical neuroprotection by reducing oxidative stress, neuroinflammation, and apoptosis, while enhancing neurotrophic signaling and neurogenesis in post-TBI rodents, but the regulation of let-7c, IL-6, and mitochondrial function remained unclear. (PROSPERO: CRD420251073725)

## Linked entities

- **Genes:** HSPB6 (heat shock protein family B (small) member 6) [NCBI Gene 126393], BDNF (brain derived neurotrophic factor) [NCBI Gene 627], MIRLET7C (microRNA let-7c) [NCBI Gene 406885]
- **Proteins:** nrv1 (nervana 1), IL1B (interleukin 1 beta), TNF (tumor necrosis factor), LOC5567300 (caspase-3), BDNF (brain derived neurotrophic factor)
- **Diseases:** traumatic brain injury (MONDO:0858950)

## Full-text entities

- **Genes:** TNF (tumor necrosis factor) [NCBI Gene 7124] {aka DIF, IMD127, TNF-alpha, TNFA, TNFSF2, TNLG1F}, BDNF (brain derived neurotrophic factor) [NCBI Gene 627] {aka ANON2, BULN2}, IL1B (interleukin 1 beta) [NCBI Gene 3553] {aka IL-1, IL1-BETA, IL1F2, IL1beta}, IL6 (interleukin 6) [NCBI Gene 3569] {aka BSF-2, BSF2, CDF, HGF, HSF, IFN-beta-2}, MIRLET7C (microRNA let-7c) [NCBI Gene 406885] {aka LET7C, MIRNLET7C, hsa-let-7c, let-7c}, HSPB6 (heat shock protein family B (small) member 6) [NCBI Gene 126393] {aka HEL55, Hsp20, PPP1R91}
- **Diseases:** TBI (MESH:D000070642), neuroinflammation (MESH:D000090862), Post-Traumatic Brain Injury (MESH:D004834), cortical dysfunction (MESH:D054220), inflammatory (MESH:D007249), mitochondrial dysregulation (MESH:D021081)
- **Chemicals:** glutathione (MESH:D005978)

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12785403/full.md

## References

89 references — full list in the complete paper: https://tomesphere.com/paper/PMC12785403/full.md

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Source: https://tomesphere.com/paper/PMC12785403