Highlights:
- Long COVID is characterized by endothelial dysfunction with dysregulated inflammatory and coagulation pathways.
- Endothelial biomarkers are elevated in Long COVID vs acute COVID-19, supporting a distinct vascular process.
- Vascular biomarkers correlate with key cognitive and neuropsychiatric measures (fluency, memory, depression, and anxiety).
- Vascular inflammation is a targetable mechanism in Long COVID, informing patient stratification and therapeutic trials.
- Results highlight need to define the short- and long-term impact of vascular inflammation on brain health after COVID-19.
Abstract
The role of vascular inflammation in neuropsychiatric Long COVID (LC) is suspected but not well understood. This study evaluated whether vascular inflammation is present in individuals with neuropsychiatric LC and how it relates to cognitive and mental health symptoms.
This cross-sectional, case-control study included individuals with acute COVID-19 (AC), neuropsychiatric LC, and recovered controls. Participants were enrolled from the COVID Mind Study and the Yale IMPACT Study (hospitalized), and an independent cohort from the Johns Hopkins University (JHU) Long COVID Study. Fifty individuals with neuropsychiatric LC (new symptoms a median of 368 days post-COVID), 28 with AC, and 29 recovered controls (>3 months post-COVID) were evaluated. All underwent blood sampling and neuropsychiatric testing. The JHU cohort included 114 individuals with late LC (median 1065 days post-COVID illness associated with LC onset) and 31 recovered controls (median 852 days).
Fourteen plasma biomarkers of vascular inflammation were measured. ANCOVA was used to compare groups, adjusting for comorbidities. Non-hospitalized participants completed the Global Neuropsychological Assessment, GAD-7, and PHQ-9. LC and recovered groups were demographically similar, while AC participants had higher obesity and hypertension rates. LC participants had elevated circulating biomarkers of endothelial, leukocyte, and platelet adhesion (sL-selectin, ADAMTS13, sP-selectin, sICAM-1) compared to recovered controls.
Coagulation markers (D-dimer, fibrinogen) did not differ. Most biomarkers were highest in AC and lower in LC; however, fetuin, sL-selectin, and α-2 macroglobulin were higher in LC than AC. In LC, higher sP-selectin correlated with lower fluency and verbal learning. Lower α1-acid glycoprotein levels were strongly associated with poorer verbal memory, verbal learning, fluency, depression, and anxiety. In the JHU cohort, late LC and recovered controls showed no differences in biomarkers or demographics, suggesting normalization over time. Persistent dysregulation at the intersection of inflammation, platelet adhesion, and endothelial dysfunction is strongly linked to neuropsychiatric Long COVID.
Elevated markers of endothelial adhesion in LC suggest distinct pathophysiology from AC. These biomarkers correlate with lower fluency and verbal learning, linking vascular dysfunction to brain function. This study underscores the critical need for longitudinal, within-person investigations to elucidate how vascular inflammation evolves over time.
Source: McAlpine LS, Shorer EF, Chiarella J, Nelson A, Veenhuis R, Azola A, Lee A, Pierce R, Farhadian S, Rubin LH, Spudich SS; Yale COVID Mind; IMPACT Study Groups. Vascular inflammation in neuropsychiatric long COVID. Brain Behav Immun Health. 2026 Apr 28;54:101247. doi: 10.1016/j.bbih.2026.101247. PMID: 42099668; PMCID: PMC13147379. https://pmc.ncbi.nlm.nih.gov/articles/PMC13147379/ (Full text)