Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components
GA Holzapfel, RW Ogden - American Journal of Physiology …, 2018 - journals.physiology.org
The microstructure of arteries, consisting, in particular, of collagen, elastin, and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components
GA Holzapfel, RW Ogden - American Journal of Physiology: Heart …, 2018 - eprints.gla.ac.uk
The microstructure of arteries, consisting, in particular, of collagen, elastin and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical Relevance of the Microstructure in Artery Walls with a Focus on Passive and Active Components
GA HOLZAPFEL, RAYW OGDEN - journals.physiology.org
The microstructure of arteries, consisting, in particular, of collagen, elastin and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components
GA Holzapfel, RW Ogden - American journal of …, 2018 - pubmed.ncbi.nlm.nih.gov
The microstructure of arteries, consisting, in particular, of collagen, elastin, and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
[PDF][PDF] Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components
GA Holzapfel, RW Ogden - Am J Physiol Heart Circ Physiol, 2018 - scholar.archive.org
Pathophysiological changes in the cardiovascular system directly influence the
microstructure and biomechanical response of vascular walls (56). Diseases such as …
microstructure and biomechanical response of vascular walls (56). Diseases such as …
[PDF][PDF] Biomechanical Relevance of the Microstructure in Artery Walls with a Focus on Passive and Active Components
GA HOLZAPFEL, RAYW OGDEN - Physiology - core.ac.uk
The microstructure of arteries, consisting, in particular, of collagen, elastin and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components
GA Holzapfel, RW Ogden - American Journal of Physiology …, 2018 - graz.elsevierpure.com
The microstructure of arteries, consisting, in particular, of collagen, elastin, and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components.
GA Holzapfel, RW Ogden - American Journal of physiology. Heart …, 2018 - europepmc.org
The microstructure of arteries, consisting, in particular, of collagen, elastin, and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
Biomechanical relevance of the microstructure in artery walls with a focus on passive and active components.
GA Holzapfel, RW Ogden - American Journal of physiology. Heart …, 2018 - europepmc.org
The microstructure of arteries, consisting, in particular, of collagen, elastin, and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …
[PDF][PDF] Biomechanical Relevance of the Microstructure in Artery Walls with a Focus on Passive and Active Components
GA HOLZAPFEL, RAYW OGDEN - Physiology - core.ac.uk
The microstructure of arteries, consisting, in particular, of collagen, elastin and vascular
smooth muscle cells, plays a very significant role in their biomechanical response during a …
smooth muscle cells, plays a very significant role in their biomechanical response during a …