M K Rausch
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Explore the profile of M K Rausch including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
150
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Recent Articles
1.
Smith K, Mathur M, Meador W, Phillips-Garcia B, Sugerman G, Menta A, et al.
Shi Yan Li Xue
. 2024 Nov;
61(1):19-29.
PMID: 39564577
Background: Tricuspid valve chordae tendineae play a vital role in our cardiovascular system. They function as "parachute cords" to the tricuspid leaflets to prevent prolapse during systole. However, in contrast...
2.
Ahmadzadeh H, Rausch M, Humphrey J
Sci Rep
. 2019 Oct;
9(1):15320.
PMID: 31653875
Aortic dissections associate with medial degeneration, thus suggesting a need to understand better the biophysical interactions between the cells and matrix that constitute the middle layer of the aortic wall....
3.
Van Kelle M, Rausch M, Kuhl E, Loerakker S
Comput Methods Biomech Biomed Engin
. 2019 Aug;
22(15):1174-1185.
PMID: 31423837
Prestretch is observed in many soft biological tissues, directly influencing the mechanical behavior of the tissue in question. The development of this prestretch occurs through complex growth and remodeling phenomena,...
4.
Mathur M, Jazwiec T, Meador W, Malinowski M, Goehler M, Ferguson H, et al.
Biomech Model Mechanobiol
. 2019 Apr;
18(5):1351-1361.
PMID: 30980211
The tricuspid leaflets coapt during systole to facilitate proper valve function and, thus, ensure efficient transport of deoxygenated blood to the lungs. Between their open state and closed state, the...
5.
Ahmadzadeh H, Rausch M, Humphrey J
J R Soc Interface
. 2019 Apr;
15(149):20180616.
PMID: 30958237
Accumulated glycosaminoglycans (GAGs) can sequester water and induce swelling within the intra-lamellar spaces of the medial layer of an artery. It is increasingly believed that stress concentrations caused by focal...
6.
Rausch M, Karniadakis G, Humphrey J
Biomech Model Mechanobiol
. 2016 Aug;
16(1):249-261.
PMID: 27538848
Biological soft tissues experience damage and failure as a result of injury, disease, or simply age; examples include torn ligaments and arterial dissections. Given the complexity of tissue geometry and...
7.
Lee Y, Lee A, Humphrey J, Rausch M
Biorheology
. 2015 Oct;
52(3):235-45.
PMID: 26444224
Background: Deep vein thrombosis and the risk of pulmonary embolism are significant causes of morbidity and mortality. Much remains unclear, however, about the mechanisms by which a venous thrombus initiates,...
8.
Genet M, Rausch M, Lee L, Choy S, Zhao X, Kassab G, et al.
J Biomech
. 2015 Apr;
48(10):2080-9.
PMID: 25913241
Even when entirely unloaded, biological structures are not stress-free, as shown by Y.C. Fung׳s seminal opening angle experiment on arteries and the left ventricle. As a result of this prestrain,...
9.
Rausch M, Dam A, Goktepe S, Abilez O, Kuhl E
Biomech Model Mechanobiol
. 2010 Dec;
10(6):799-811.
PMID: 21188611
We introduce a novel constitutive model for growing soft biological tissue and study its performance in two characteristic cases of mechanically induced wall thickening of the heart. We adopt the...