Welcome to the Amira-Avizo Software Use Case Gallery

Below you will find a collection of use cases of our 3D data visualization and analysis software. These use cases include scientific publications, articles, papers, posters, presentations or even videos that show how Amira-Avizo Software is used to address various scientific and industrial research topics.

Use the Domain selector to filter by main application area, and use the Search box to enter keywords related to specific topics you are interested in.

Regional Aneurysm Wall Enhancement is Affected by Local Hemodynamics: A 7T MRI Study

Regional Aneurysm Wall Enhancement is Affected by Local Hemodynamics: A 7T MRI Study

Aneurysm wall enhancement has been proposed as a biomarker for inflammation and instability. However, the mechanisms of aneurysm wall enhancement remain unclear. We used 7T MR imaging to determine the effect of flow in different regions of the wall.

Twenty-three intracranial aneurysms imaged with 7T MR imaging and 3D angiography were studied with computational fluid dynamics. Local flow conditions were compared between aneurysm wall enhancement and nonenhanced regions. Aneurysm wall en... Read more

S. Hadad, F. Mut, B.J. Chung, J.A. Roa, A.M. Robertson, D.M. Hasan, E.A. Samaniego and J.R. Cebral

Read full paper
Computational fluid dynamics with imaging of cleared tissue and of in vivo perfusion predicts drug uptake and treatment responses in tumours

Computational fluid dynamics with imaging of cleared tissue and of in vivo perfusion predicts drug uptake and treatment responses in tumours

Understanding the uptake of a drug by diseased tissue, and the drug’s subsequent spatiotemporal distribution, are central factors in the development of effective targeted therapies. However, the interaction between the pathophysiology of diseased tissue and individual therapeutic agents can be complex, and can vary across tissue types and across subjects. Here, we show that the combination of mathematical modelling, high-resolution optical imaging of intact and optically cleared tumour tiss... Read more

Angela d’Esposito, Paul W. Sweeney, Morium Ali, Magdy Saleh, Rajiv Ramasawmy, Thomas A. Roberts, Giulia Agliardi, Adrien Desjardins, Mark F. Lythgoe, R. Barbara Pedley, Rebecca Shipley and Simon Walker-Samuel

Read paper
Investigation of pressure drop in 3D replicated open-cell foams: Coupling CFD with experimental data on additively manufactured foams

Investigation of pressure drop in 3D replicated open-cell foams: Coupling CFD with experimental data on additively manufactured foams

Open-cell foams as structured catalyst supports are promising candidates for the design of high throughput catalytic processes. In this contribution, we employ a coupled numerical and experimental approach to assess the pressure losses in foams. (…) we explore virtually-generated foam models and their 3D printed replicas for a combined CFD and experimental study of fluid dynamics in foams. In particular, we focus our analysis on the low Reynolds number regime, where deviations between t... Read more

Mauro Bracconi, Matteo Ambrosetti, Obinna Okafor, Victor Sans, Xun Zhang, Xiaoxia Ou, Claudio Pereira Da Fonte, Xiaolei Fan, Matteo Maestri, Gianpiero Groppi, Enrico Tronconi

Read full paper
The Application of Hierarchical Structures in Energy Devices: New Insights into the Design of Solid Oxide Fuel Cells with Enhanced Mass Transport

The Application of Hierarchical Structures in Energy Devices: New Insights into the Design of Solid Oxide Fuel Cells with Enhanced Mass Transport

Mass transport can significantly limit the rate of reaction and lead to concentration polarization in electrochemical devices, especially under the conditions of high operating current density.

In this study we investigate hierarchically structured micro-tubular solid
oxide fuel cells (MT-SOFC) fabricated by phase inversion technique and quantitatively assess the mass transport and electrochemical performance improvement compared to a conventional tubular SOFC. We present pioneer... Read more

Xuekun Lu, Tao Li, Antonio Bertei, Jason I S Cho , Thomas M.M. Heenan , Rabuni Mohamad, Kang Li, Dan JL Brett, Paul R Shearing

Read full paper
FAMU uses Avizo software to visualize and understand heat transfer and fluid flow

FAMU uses Avizo software to visualize and understand heat transfer and fluid flow

The CHEFF (Computational Heat Fluid Flow) Research group at Florida Agricultural & Mechanical University is using computational fluid dynamics to model flow and heat transfer in various engineering applications for industry, government and the private sector. The primary goal of this research is to first examine and then enhance the thermal performance of current and future low-density reticulated porous media, and explore their use as heat sinks in high power electronics (computer chips... Read more

CHEFF Research Group at Florida Agricultural & Mechanical University: Dr. G.D. Wesson, Professor of Chemical Engineering/Biological Agricultural Systems Engineering, Shawn Austin (Graduate student), Shari Briggs (Graduate student), Mellissa McCole (Graduate student), David Mosley (Graduate student)

Learn more