Acta biomaterialiaAnimalsMagnesiumCoronary VesselsAbsorbable ImplantsTissue Scaffolds
Recovery of coronary artery distensibility after two and four years in vivo degradation of a resorbable magnesium-based scaffold.
Christoph Brandt-Wunderlich, Armin Fubel, Michael Stiehm, Wolfram Schmidt, Swen Grossmann, Franziska Bonin, Florence Kosche, Christopher Lenz, Philine Baumann-Zumstein, Claus Harder, Markus Wolfer, Stefan Siewert, Klaus-Peter Schmitz
Published: 202610.1016/j.actbio.2025.12.005
Abstract
The elastic properties of coronary arteries are associated with different vascular conditions, in particular the degree of severity and pathology of coronary artery disease. In contrast to permanent stents, bioresorbable scaffolds provide temporary s…
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