Cardiología Clínica y Experimental

Cardiología Clínica y Experimental
Acceso abierto

ISSN: 2155-9880

abstracto

El retiro de la exposición revierte la hematotoxicidad y la hepatotoxicidad causadas por la exposición oral al diluyente de nitrocelulosa en ratas macho

Liying Liu, Erbin Dai, BaktiarKidwai, Jennifer Davids, Colin Macaulay, Grant McFadden y Alexandra Lucas

Rationale -Inflammation is up-regulated at sites ofstent implant, whether bare metal or drug-eluting stents (DES), increasingneointimal plaque growth (termed restenosis). Although stent implant,, particularly DES, reduces recurrent plaque growth, restenosis still occurs. Inflammatory macrophages and T lymphocytes invadesites withendothelial injury and implanted foreign metal and polymersincreaseendothelial dysfunction, plaque growthand thrombosis. Chemokines attract inflammatory cells and coagulation pathway serine proteases regulate clot formation, metalloproteases, and inflammation. Large DNA viruses secrete highly active immune modulators that block host defenses, some of which are potent inhibitors of pathways that drive restenosis. We examine here two virus-derived anti-inflammatory proteins as potential anti-restenosis agents in a rabbit angioplasty and stent implant model;1) M-T7,a chemokine modulator and 2) Serp-1, a serine protease inhibitor (serpin). Results - Inhibition of inflammatory cell activation by eitherM-T7 or Serp-1protein infusions significantly reduced in-stent plaque growth. M-T7 displayed a trend toward more effective inhibition when given at lower doses and for shorter dosage times. Conclusions - 1) Inhibition of either chemokine or serine protease pathways effectively reduces inflammation and intimal hyperplasia after balloon angioplasty and stent implant (restenosis) in cholesterol fed rabbits. 2) Chemokine and serine protease pathways provide excellent therapeutic targets for inhibition of restenosis.

Descargo de responsabilidad: este resumen se tradujo utilizando herramientas de inteligencia artificial y aún no ha sido revisado ni verificado.
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