Small-bubble transport and splitting dynamics in a symmetric bifurcation
Simulations of small bubbles traveling through symmetric bifurcations are conducted to garner information pertinent to gas embolotherapy, a potential cancer treatment. Gas embolotherapy procedures use intra-arterial bubbles to occlude tumor blood supply. As bubbles pass through bifurcations in the b...
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| Published in | Computer methods in biomechanics and biomedical engineering Vol. 20; no. 11; pp. 1182 - 1194 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Taylor & Francis
18.08.2017
Taylor & Francis Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Simulations of small bubbles traveling through symmetric bifurcations are conducted to garner information pertinent to gas embolotherapy, a potential cancer treatment. Gas embolotherapy procedures use intra-arterial bubbles to occlude tumor blood supply. As bubbles pass through bifurcations in the blood stream nonhomogeneous splitting and undesirable bioeffects may occur. To aid development of gas embolotherapy techniques, a volume of fluid method is used to model the splitting process of gas bubbles passing through artery and arteriole bifurcations. The model reproduces the variety of splitting behaviors observed experimentally, including the bubble reversal phenomenon. Splitting homogeneity and maximum shear stress along the vessel walls is predicted over a variety of physical parameters. Small bubbles, having initial length less than twice the vessel diameter, were found unlikely to split in the presence of gravitational asymmetry. Maximum shear stresses were found to decrease exponentially with increasing Reynolds number. Vortex-induced shearing near the bifurcation is identified as a possible mechanism for endothelial cell damage. |
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| AbstractList | Simulations of small bubbles traveling through symmetric bifurcations are conducted to garner information pertinent to gas embolotherapy, a potential cancer treatment. Gas embolotherapy procedures use intra-arterial bubbles to occlude tumor blood supply. As bubbles pass through bifurcations in the blood stream nonhomogeneous splitting and undesirable bioeffects may occur. To aid development of gas embolotherapy techniques, a volume of fluid method is used to model the splitting process of gas bubbles passing through artery and arteriole bifurcations. The model reproduces the variety of splitting behaviors observed experimentally, including the bubble reversal phenomenon. Splitting homogeneity and maximum shear stress along the vessel walls is predicted over a variety of physical parameters. Small bubbles, having initial length less than twice the vessel diameter, were found unlikely to split in the presence of gravitational asymmetry. Maximum shear stresses were found to decrease exponentially with increasing Reynolds number. Vortex-induced shearing near the bifurcation is identified as a possible mechanism for endothelial cell damage. |
| Author | Qamar, Adnan Valassis, Doug T. Guetzko, Megan E. Bull, Joseph L. Warnez, Matthew |
| Author_xml | – sequence: 1 givenname: Adnan surname: Qamar fullname: Qamar, Adnan email: Adnan.Qamar@kaust.edu.sa organization: Biomedical Engineering, University of Michigan – sequence: 2 givenname: Matthew surname: Warnez fullname: Warnez, Matthew organization: Mechanical Engineering, University of Michigan – sequence: 3 givenname: Doug T. surname: Valassis fullname: Valassis, Doug T. organization: Case Medical Center, Case Western Reserve University – sequence: 4 givenname: Megan E. surname: Guetzko fullname: Guetzko, Megan E. organization: Case Medical Center, Case Western Reserve University – sequence: 5 givenname: Joseph L. surname: Bull fullname: Bull, Joseph L. organization: Biomedical Engineering, University of Michigan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28658586$$D View this record in MEDLINE/PubMed |
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| Keywords | shear stress in bifurcation volume of fluid bubble splitting Gas embolotherapy |
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| SubjectTerms | Arteries - physiology Bifurcations Blood bubble splitting Bubbles Cancer Computational fluid dynamics Computer simulation Damage detection Embolization, Therapeutic Fluid flow Friction Gas embolotherapy Gravitation Gravity Homogeneity Humans Mechanical stimuli Microbubbles Models, Theoretical Numerical Analysis, Computer-Assisted Physical properties Reynolds number Shear stress shear stress in bifurcation Shearing Skin Splitting Stress, Mechanical volume of fluid |
| Title | Small-bubble transport and splitting dynamics in a symmetric bifurcation |
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