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Tissue-engineered collagenous fibrous cap models to systematically elucidate atherosclerotic plaque rupture
A significant amount of vascular thrombotic events are associated with rupture of the fibrous cap that overlie atherosclerotic plaques. Cap rupture is however difficult to predict due to the heterogenous composition of the plaque, unknown material properties, and the stochastic nature of the event....
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| Published in: | Scientific reports 2022-03, Vol.12 (1), p.5434-5434, Article 5434 |
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| creator | Wissing, T. B. Van der Heiden, K. Serra, S. M. Smits, A. I. P. M. Bouten, C. V. C. Gijsen, F. J. H. |
| description | A significant amount of vascular thrombotic events are associated with rupture of the fibrous cap that overlie atherosclerotic plaques. Cap rupture is however difficult to predict due to the heterogenous composition of the plaque, unknown material properties, and the stochastic nature of the event. Here, we aim to create tissue engineered human fibrous cap models with a variable but controllable collagen composition, suitable for mechanical testing, to scrutinize the reciprocal relationships between composition and mechanical properties. Myofibroblasts were cultured in 1 × 1.5 cm-sized fibrin-based constrained gels for 21 days according to established (dynamic) culture protocols (i.e. static, intermittent or continuous loading) to vary collagen composition (e.g. amount, type and organization). At day 7, a soft 2 mm ∅ fibrin inclusion was introduced in the centre of each tissue to mimic the soft lipid core, simulating the heterogeneity of a plaque. Results demonstrate reproducible collagenous tissues, that mimic the bulk mechanical properties of human caps and vary in collagen composition due to the presence of a successfully integrated soft inclusion and the culture protocol applied. The models can be deployed to assess tissue mechanics, evolution and failure of fibrous caps or complex heterogeneous tissues in general. |
| doi_str_mv | 10.1038/s41598-022-08425-4 |
| format | article |
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Myofibroblasts were cultured in 1 × 1.5 cm-sized fibrin-based constrained gels for 21 days according to established (dynamic) culture protocols (i.e. static, intermittent or continuous loading) to vary collagen composition (e.g. amount, type and organization). At day 7, a soft 2 mm ∅ fibrin inclusion was introduced in the centre of each tissue to mimic the soft lipid core, simulating the heterogeneity of a plaque. Results demonstrate reproducible collagenous tissues, that mimic the bulk mechanical properties of human caps and vary in collagen composition due to the presence of a successfully integrated soft inclusion and the culture protocol applied. 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B.</au><au>Van der Heiden, K.</au><au>Serra, S. M.</au><au>Smits, A. I. P. M.</au><au>Bouten, C. V. C.</au><au>Gijsen, F. J. H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Tissue-engineered collagenous fibrous cap models to systematically elucidate atherosclerotic plaque rupture</atitle><jtitle>Scientific reports</jtitle><stitle>Sci Rep</stitle><addtitle>Sci Rep</addtitle><date>2022-03-31</date><risdate>2022</risdate><volume>12</volume><issue>1</issue><spage>5434</spage><epage>5434</epage><pages>5434-5434</pages><artnum>5434</artnum><issn>2045-2322</issn><eissn>2045-2322</eissn><abstract>A significant amount of vascular thrombotic events are associated with rupture of the fibrous cap that overlie atherosclerotic plaques. Cap rupture is however difficult to predict due to the heterogenous composition of the plaque, unknown material properties, and the stochastic nature of the event. Here, we aim to create tissue engineered human fibrous cap models with a variable but controllable collagen composition, suitable for mechanical testing, to scrutinize the reciprocal relationships between composition and mechanical properties. Myofibroblasts were cultured in 1 × 1.5 cm-sized fibrin-based constrained gels for 21 days according to established (dynamic) culture protocols (i.e. static, intermittent or continuous loading) to vary collagen composition (e.g. amount, type and organization). At day 7, a soft 2 mm ∅ fibrin inclusion was introduced in the centre of each tissue to mimic the soft lipid core, simulating the heterogeneity of a plaque. Results demonstrate reproducible collagenous tissues, that mimic the bulk mechanical properties of human caps and vary in collagen composition due to the presence of a successfully integrated soft inclusion and the culture protocol applied. 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| subjects | 631/1647/767/1657 639/166/985 692/4019/592 Arteriosclerosis Atherosclerosis Collagen Fibrin Fibrosis Heterogeneity Humanities and Social Sciences Humans Mechanical properties multidisciplinary Plaque, Atherosclerotic Plaques Rupture Science Science (multidisciplinary) Stochasticity Tissue engineering |
| title | Tissue-engineered collagenous fibrous cap models to systematically elucidate atherosclerotic plaque rupture |
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