المفاهيم الأساسية
Atherosclerotic plaque rupture mechanisms and spatial determinants are crucial for understanding human atherosclerosis.
الملخص
The content delves into the vulnerability and rupture of atherosclerotic plaques in human atherosclerosis, emphasizing the spatial determinants and molecular alterations contributing to plaque rupture. Here is a breakdown of the key insights:
- Atherosclerosis Progression: Involves progression to a vulnerable state and rupture, exclusive to humans.
- Plaque Characteristics: Vulnerable plaques are characterized by a large necrotic core, thin fibrotic cap, inflammation, and intraplaque hemorrhage.
- Spatial Analysis: Researchers mapped 163 atherosclerotic lesions to identify plaque rupture sites and associated changes.
- Histologic and Transcriptional Analysis: Identified molecular and cellular alterations in proximal, most stenotic, and distal plaque segments.
- Inflammation and Endothelial Damage: Major determinants of plaque rupture, with distinct immune cell fractions in different segments.
- Endothelial Integrity: Profound regional differences observed in endothelial integrity between plaque segments.
- Gene Expression: Variations in gene expression, including MMP9, associated with plaque rupture.
- Clinical Relevance: MMP-9 expression linked to future cardiovascular events, emphasizing the importance of spatial resolution in understanding plaque rupture mechanisms.
The study underscores the significance of spatial analysis in unraveling the complexities of plaque rupture in human atherosclerosis and highlights the potential of spatial single-cell technologies for further insights.
الإحصائيات
The exact site of plaque rupture was identified proximally or near the most stenotic region at a median distance of 9 mm from the proximal plaque end.
The most stenotic segment showed increased macrophage, T cell, and natural killer cell proportions, indicating inflammation.
MMP9 expression was largely expressed in the proximity of the area of plaque rupture, coexpressed with macrophage and T cell markers.
Higher levels of MMP-9 in plaques from symptomatic patients were associated with a greater risk for future cardiovascular events.
اقتباسات
"The findings highlight the importance of spatial resolution to mechanistically understand plaque rupture in human atherosclerosis."
"The future implementation of spatial single-cell technologies will help refine human plaque biology and help decipher mechanisms of atherosclerosis and plaque rupture."