The study focused on 94 consecutive patients (27 women and 67 men) with a median age of 72.5 years who had experienced isolated acute microangiopathic lacunar infarctions. By carefully selecting this group, this study minimized the influence of infarct size on dynamic cerebral autoregulation (dCA), which is the ability of brain to maintain stable blood flow despite changes in blood pressure.
To assess vascular performance, this research measured 2 key dCA parameters: phase (reflecting the timing of blood flow adjustments) and gain (indicating how well vessels buffer blood pressure changes, with higher gain implying stiffer, less compliant vessels). These were derived using transfer function analysis of spontaneous oscillations in blood pressure and cerebral blood flow velocity in the middle cerebral arteries.
The patients were also categorized by HbA1c levels as normal (< 5.7%, or <39 mmol/mol), prediabetic (5.7–6.4%, or 39–46 mmol/mol) and diabetic (≥ 6.5%, or >46 mmol/mol). Magnetic resonance imaging (MRI) was performed to grade small vessel disease severity using the Fazekas scale, while routine clinical parameters were recorded.
The findings revealed neither phase nor gain significantly varied across Fazekas grading groups, suggesting that the overall burden of visible small vessel disease on MRI did not explain dCA changes.
Phase remained stable across groups, but gain rose progressively from normal HbA1c patients to those with diabetes, especially in very low frequency oscillations (0.02–0.07 Hz, p=0.02). A similar, though less statistically robust, trend was observed in the low-frequency range (0.07–0.20 Hz, p=0.07). Also, this association was not driven by differences in systemic blood pressure or carbon dioxide levels, pointing instead to an intrinsic vascular alteration linked with glucose regulation.
This study interpret increased gain as a marker of vascular stiffness which in turn suggests impaired cerebral autoregulation. Taken together, these results provide mechanistic evidence connecting chronic hyperglycemia, vascular dysfunction, and microangiopathic cerebral infarction.
Overall the study reinforces the importance of long-term glycemic control. Elevated HbA1c not only signals diabetes risk but may also serve as a red flag for hidden vascular stiffness in the brain, that could predispose patients to recurrent small-vessel strokes.
Source:
Lakatos, L.-B., Müller, M., Österreich, M., von Hessling, A., Karwacki, G. M., & Bolognese, M. (2025). Chronic hyperglycaemia is associated with vascular gain impairment in microangiopathic lacunar stroke. Physiological Measurement. https://doi.org/10.1088/1361-6579/ae0675
Disclaimer: This website is primarily for healthcare professionals. The content here does not replace medical advice and should not be used as medical, diagnostic, endorsement, treatment, or prescription advice. Medical science evolves rapidly, and we strive to keep our information current. If you find any discrepancies, please contact us at corrections@medicaldialogues.in. Read our Correction Policy here. Nothing here should be used as a substitute for medical advice, diagnosis, or treatment. We do not endorse any healthcare advice that contradicts a physician's guidance. Use of this site is subject to our Terms of Use, Privacy Policy, and Advertisement Policy. For more details, read our Full Disclaimer here.
NOTE: Join us in combating medical misinformation. If you encounter a questionable health, medical, or medical education claim, email us at factcheck@medicaldialogues.in for evaluation.