In vivo temperature heterogeneity is associated with plaque regions of increased MMP-9 activity.

نویسندگان

  • 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
چکیده

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 (MPhi) cell densities (%); a vulnerability index (VI) was calculated as VI=MPhi+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 degrees C (P<0.05 vs. reference) and 10 cold regions with 0.07+/-0.03 degrees 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. CONCLUSION In vivo temperature measurements enable to detect plaques that contain more macrophages, less SMCs, and a higher MMP-9 activity.

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عنوان ژورنال:
  • European heart journal

دوره 26 20  شماره 

صفحات  -

تاریخ انتشار 2005