Small Vessel Disease and Cerebral Infarct Healing InErvation Via Limb Distant Adaptation

Plain-language summary

Cerebral infarction (ischemic stroke) and cerebral small vessel disease (CSVD) represent major global causes of disability, cognitive decline, and mortality. Despite advances in reperfusion therapies, many patients experience residual neurological deficits and remain at high risk for recurrent stroke and vascular dementia. Effective adjunctive treatments that are safe, accessible, and capable of improving long-term outcomes are urgently needed. Distant ischemic adaptation (also known as remote ischemic conditioning, RIC) is a non-invasive, safe, and cost-effective intervention that induces endogenous protection against ischemic injury by applying brief, intermittent ischemia to a remote limb. While several large-scale clinical trials (e.g., RICAMIS, RECAST) have demonstrated promising neuroprotective effects of RIC in acute ischemic stroke, results remain inconsistent across studies, particularly in patients with CSVD. Key challenges include the lack of standardized RIC protocols and the absence of specific biomarkers to predict treatment response and elucidate underlying mechanisms. To address these gaps, this study aims to identify potential effector proteins and specific biomarkers that mediate the therapeutic effects of RIC in patients with cerebral infarction and CSVD. By collecting and analyzing serum samples from RIC-treated patients and controls, we seek to uncover molecular mechanisms underlying RIC-induced neuroprotection and cognitive preservation. The findings may establish a theoretical foundation for optimizing RIC therapy, provide novel drug targets, and ultimately improve clinical outcomes for patients suffering from ischemic stroke and small vessel disease.

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