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Rob Krams, Stefan Verheye, Luc C.A. van Damme, Dennie Tempel, Babak Mousavi Gourabi, Eric Boersma, Mark M. Kockx, Michiel W.M. Knaapen, Chaylendra Strijder, Glenn van Langenhove, Gerard Pasterkamp, Anton F.W. van der Steen, Patrick W. Serruys, In vivo temperature heterogeneity is associated with plaque regions of increased MMP-9 activity, European Heart Journal, Volume 26, Issue 20, October 2005, Pages 2200–2205, https://doi.org/10.1093/eurheartj/ehi461
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Abstract
Aims Plaque rupture has been associated with a high matrix metalloproteinase (MMP) activity. Recently, regional temperature variations have been observed in atherosclerotic plaques in vivo and ascribed to the presence of macrophages. As macrophages are a major source of MMPs, we examined whether regional temperature changes are related to local MMP activity and macrophage accumulation.
Methods and results Plaques were experimentally induced in rabbit (n=11) aortas, and at the day of sacrifice, a pull-back was performed with a thermography catheter. Hot (n=10), cold (n=10), and reference (n=11) regions were dissected and analysed for smooth muscle cell (SMC), lipids (L), collagen (COL), and macrophage (MΦ) cell densities (%); a vulnerability index (VI) was calculated as VI=MΦ+L/(SMC+COL). In addition, accumulation and activity of MMP-2 and MMP-9 were determined with zymography. Ten hot regions were identified with an average temperature of 0.40±0.03°C (P<0.05 vs. reference) and 10 cold regions with 0.07±0.03°C (P<0.05 vs. hot). In the hot regions, a higher macrophage density (173%), less SMC density (77%), and a higher VI (100%) were identified. In addition, MMP-9 (673%) activity was increased. A detailed regression analysis revealed that MMP-9 predicted hot regions better than macrophage accumulation alone.
ConclusionIn vivo temperature measurements enable to detect plaques that contain more macrophages, less SMCs, and a higher MMP-9 activity.
