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.

Deep nuclear invaginations are linked to cytoskeletal filaments – integrated bioimaging of epithelial cells in 3D culture

Deep nuclear invaginations are linked to cytoskeletal filaments – integrated bioimaging of epithelial cells in 3D culture

The importance of context in regulation of gene expression is now an accepted principle; yet the mechanism by which the microenvironment communicates with the nucleus and chromatin in healthy tissues is poorly understood. A functional role for nuclear and cytoskeletal architecture is suggested by the phenotypic differences observed between epithelial and mesenchymal cells…

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Danielle M. Jorgens, Jamie L. Inman, Michal Wojcik, Claire Robertson, Hildur Palsdottir, Wen-Ting Tsai, Haina Huang, Alexandre Bruni-Cardoso, Claudia S. López, Mina J. Bissell, Ke Xu, Manfred Auer

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Biofilm three-dimensional architecture influences in situ pH distribution pattern on the human enamel surface

Biofilm three-dimensional architecture influences in situ pH distribution pattern on the human enamel surface

Acidic microenvironments created by bacterial clusters thriving in a polysaccharide matrix could be behind localized tooth decay. Jin Xiao of the University of Rochester Medical Center and Geelsu Hwang of the University of Pennsylvania with colleagues in the US mapped acidity changes across tooth enamel caused by the microstructure of dental plaque: a film of bacteria and the polysaccharide matrix they secrete. Using fluorescence microscopy, they studied the 3D architecture of plaque that for... Read more

Jin Xiao, Anderson T Hara, Dongyeop Kim, Domenick T Zero, Hyun Koo et al.

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Imaging multicellular specimens with real-time optimized tiling light-sheet selective plane illumination microscopy

Imaging multicellular specimens with real-time optimized tiling light-sheet selective plane illumination microscopy

Despite the progress made in selective plane illumination microscopy, high-resolution 3D live imaging of multicellular specimens remains challenging. Tiling light-sheet selective plane illumination microscopy (TLS-SPIM) with real-time light-sheet optimization was developed to respond to the challenge…

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Qinyi Fu, Benjamin L. Martin, David Q. Matus, Liang Gao

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A global approach for quantitative super resolution and electron microscopy on cryo and epoxy sections using self-labeling protein tags

A global approach for quantitative super resolution and electron microscopy on cryo and epoxy sections using self-labeling protein tags

Correlative light and electron microscopy (CLEM) is a powerful approach to investigate the molecular ultrastructure of labeled cell compartments. However, quantitative CLEM studies are rare, mainly due to small sample sizes and the sensitivity of fluorescent proteins to strong fixatives and contrasting reagents for EM. Here, we show that fusion of…

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Andreas Müller, Martin Neukam, Anna Ivanova, Anke Sönmez, Carla Münster, Susanne Kretschmar, Yannis Kalaidzidis, Thomas Kurth, Jean-Marc Verbavatz & Michele Solimena

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Determining the bacterial cell biology of planctomycetes

Determining the bacterial cell biology of planctomycetes

Bacteria of the phylum Planctomycetes have been previously reported to possess several features that are typical of eukaryotes, such as cytosolic compartmentalization and endocytosis-like macromolecule uptake. However, recent evidence points towards a Gram-negative cell plan for Planctomycetes, although in-depth experimental analysis has been hampered by insufficient genetic tools…

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Christian Boedeker, Margarete Schüler, Greta Reintjes, Olga Jeske, Muriel C. F. van Teeseling et al.

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Morphological process of podocyte development revealed by block-face scanning electron microscopy

Morphological process of podocyte development revealed by block-face scanning electron microscopy

Podocytes present a unique 3D architecture specialized for glomerular filtration. However, several 3D morphological aspects on podocyte development remain partially understood because they are difficult to reveal using conventional scanning electron microscopy (SEM). Here, we adopted serial block-face SEM imaging…

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Koichiro Ichimura, Soichiro Kakuta, Yuto Kawasaki, Takayuki Miyaki, Takahiro Nonami, Naoyuki Miyazaki, Tomoyo Nakao, Sakiko Enomoto, Shigeo Arai, Masato Koike, Kazuyoshi Murata, Tatsuo Sakai

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Three-dimensional imaging of the intracellular assembly of a functional viral RNA replicase complex

Three-dimensional imaging of the intracellular assembly of a functional viral RNA replicase complex

Positive-strand RNA viruses, which can be devastating pathogens in humans, animals and plants, replicate their genomes on intracellular membranes. Here, we describe the three-dimensional ultrastructural organization of a tombusvirus replicase in yeast, a valuable model for exploring virus–host interactions…

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Isabel Fernández de Castro, José J. Fernández, Daniel Barajas, Peter D. Nagy, Cristina Risco

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3D electron tomography of brain tissue unveils distinct Golgi structures that sequester cytoplasmic contents in neurons

3D electron tomography of brain tissue unveils distinct Golgi structures that sequester cytoplasmic contents in neurons

Macroautophagy is morphologically characterized by autophagosome formation. Autophagosomes are double-membraned vesicles that sequester cytoplasmic components for further degradation in the lysosome. Basal autophagy is paramount for intracellular quality control in post-mitotic cells but, surprisingly, the number of autophagosomes in post-mitotic neurons is very low, suggesting that alternative degradative structures could exist in neurons…

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Maria Rosario Fernandez-Fernandez, Desire Ruiz-Garcia, Eva Martin-Solana, Francisco Javier Chichon, Jose L. Carrascosa, Jose-Jesus Fernandez

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Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation

Reversible silencing of lumbar spinal interneurons unmasks a task-specific network for securing hindlimb alternation

Neural circuitry in the lumbar spinal cord governs two principal features of locomotion, rhythm and pattern, which reflect intra- and interlimb movement. These features are functionally organized into a hierarchy that precisely controls stepping in a stereotypic, speed-dependent fashion. Here, we show that a specific component of the locomotor pattern can be independently manipulated…

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Amanda M. Pocratsky, Darlene A. Burke, Johnny R. Morehouse, Jason E. Beare, Amberly S. Riegler, Pantelis Tsoulfas, Gregory J. R. States, Scott R. Whittemore & David S. K. Magnuson

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Severe hearing loss and outer hair cell death in homozygous Foxo3 knockout mice after moderate noise exposure

Severe hearing loss and outer hair cell death in homozygous Foxo3 knockout mice after moderate noise exposure

Noise induced hearing loss (NIHL) is a disease that affects millions of Americans. Identifying genetic pathways that influence recovery from noise exposure is an important step forward in understanding NIHL. The transcription factor Foxo3 integrates the cellular response to oxidative stress and plays a role in extending lifespan in many organisms, including humans. Here we show that Foxo3 is required for auditory function after noise exposure in a mouse model system, measured by ABR…Read more

Felicia Gilels, Stephen T. Paquette, Holly J. Beaulac, Anwen Bullen & Patricia M. White

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Cytoplasmic and Nuclear Retained DMPK mRNAs Are Targets for RNA Interference in Myotonic Dystrophy Cells

Cytoplasmic and Nuclear Retained DMPK mRNAs Are Targets for RNA Interference in Myotonic Dystrophy Cells

This paper demonstrates for the first time down-regulation of the endogenous nuclear retained mutant DMPK mRNAs targeted with lentivirus-delivered short hairpin RNAs (shRNAs). This nuclear RNAi(-like) phenomenon was not observed when synthetic siRNAs were delivered by cationic lipids, suggesting either a link between processing of the shRNA and nuclear import or a separate pathway for processing shRNAs in the nuclei.

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Marc-André Langlois,  Christelle Boniface,  Gang Wang,  Jessica Alluin, Paul M. Salvaterra,  Jack Puymirat,  John J. Rossi, Nan Sook Lee

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Human liver segments: role of cryptic liver lobes and vascular physiology in the development of liver veins and left-right asymmetry

Human liver segments: role of cryptic liver lobes and vascular physiology in the development of liver veins and left-right asymmetry

Couinaud based his well-known subdivision of the liver into (surgical) segments on the branching order of portal veins and the location of hepatic veins. However, both segment boundaries and number remain controversial due to an incomplete understanding of the role of liver lobes and vascular physiology on hepatic venous development. Human embryonic livers (5–10 weeks of development) were visualized with Amira 3D-reconstruction and Cinema 4D-remodeling software.

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Jill P. J. M. Hikspoors, Mathijs M. J. P. Peeters, Nutmethee Kruepunga, Hayelom K. Mekonen, Greet M. C. Mommen, S. Eleonore Köhler & Wouter H. Lamers

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Utilization of longitudinal ultrasound to quantify joint soft-tissue changes in a mouse model of posttraumatic osteoarthritis

Utilization of longitudinal ultrasound to quantify joint soft-tissue changes in a mouse model of posttraumatic osteoarthritis

Ultrasound could be a fast and cost-effective means of assessing joint changes in mouse models of posttraumatic osteoarthritis (PTOA). Such models are essential for understanding the biology of this degenerative joint disease and developing new treatments, but noninvasive methods of evaluating disease activity are lacking. Because ultrasound can visualize both joint space volumes and blood flow in the joints, it could provide an alternative to microscopic examination of tissue, assuming it ac... Read more

Hao Xu, Echoe M Bouta, Ronald W Wood, Edward M Schwarz, Yongjun Wang & Lianping Xing

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Morphological evolution and internal strain mapping of pomelo peel using X-ray computed tomography and digital volume correlation

Morphological evolution and internal strain mapping of pomelo peel using X-ray computed tomography and digital volume correlation

Among natural cellular materials, pomelo peels, having a foam-like hierarchical microstructure, represent an ideal model for developing materials with high energy absorption efficiency. In this work, by combining X-ray tomographic imaging technique and digital volume correlation (DVC), in-situ stepwise uniaxial compression tests were performed to quantify the internal morphological evolution and kinematic responses of pomelo peel samples during compression.

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B.Wang, B.Pan, G.Lubineau

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Improving microstructural quantification in FIB/SEM nanotomography

Improving microstructural quantification in FIB/SEM nanotomography

Advanced nanotomographic analysis is still far from routine, and a number of challenges remain in data acquisition and post-processing. In this work, we present a number of techniques to improve the quality of the acquired data, together with easy-to-implement methods to obtain “advanced” microstructural quantifications. The techniques are applied to a solid oxide fuel cell cathode of interest to the electrochemistry community, but the methodologies are easily adaptable to a wide range of... Read more

Joshua A.Taillon, Christopher Pellegrinelli, Yi-Lin Huang, Eric D.Wachsman, Lourdes G. Salamanca-Riba

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Tortuosity in electrochemical devices: a review of calculation approaches

Tortuosity in electrochemical devices: a review of calculation approaches

Here, a review of tortuosity calculation procedures applied in the field of electrochemical devices is presented to better understand the resulting values presented in the literature. Visible differences between calculation methods are observed, especially when using porosity–tortuosity relationships and when comparing geometric and flux-based tortuosity calculation approaches.

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Bernhard Tjaden, Dan J. L. Brett, Paul R. Shearing

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A multi-scale correlative investigation of ductile fracture

A multi-scale correlative investigation of ductile fracture

The use of novel multi-scale correlative methods, which involve the coordinated characterization of matter across a range of length scales, are becoming of increasing value to materials scientists. Here, we describe for the first time how a multi-scale correlative approach can be used to investigate the nature of ductile fracture in metals. Specimens of a nuclear pressure vessel steel, SA508 Grade 3, are examined following ductile fracture using medium and high-resolution 3D X-ray computed to... Read more

School of Materials, University of Manchester; National Nuclear Laboratory; BAM Federal Institute for Materials Research and Testing; Thermo Fischer Scientific

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Characterization of 3D fracture evolution in concrete using in-situ X-Ray Computed Tomography testing and Digital Volume Correlation

Characterization of 3D fracture evolution in concrete using in-situ X-Ray Computed Tomography testing and Digital Volume Correlation

X-ray Computed Tomography (XCT) is a powerful technology that can accurately image the internal structures of composite and heterogeneous materials in three-dimensions (3D). In this study, in-situ micro XCT tests of concrete specimens under progressive compressive loading are carried out. The aim of the observations is to gain a better understanding of 3D fracture and failure mechanisms at the meso-scale. To characterise the fracture evolution as the deformation increases, two methods are use... Read more

College of Civil Engineering and Architecture, Zhejiang University | School of Mechanical, Aerospace and Civil Engineering, the University of Manchester | Manchester X-ray Imaging Facility | Oxford Martin School and Department of Materials

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High-Resolution 3D FIB-SEM Image Analysis and Validation of Numerical Simulations of Nanometre-Scale Porous Ceramic with Comparisons to Experimental Results

High-Resolution 3D FIB-SEM Image Analysis and Validation of Numerical Simulations of Nanometre-Scale Porous Ceramic with Comparisons to Experimental Results

The development of focused ion beam-scanning electron microscopy (FIB-SEM) techniques has allowed high-resolution 3D imaging of nanometre-scale porous materials. These systems are of important interest to the oil and gas sector, as well as for the safe long-term storage of carbon and nuclear waste. This work focuses on validating the accurate representation of sample pore space in FIB-SEM-reconstructed volumes and the predicted permeability of these systems from subsequent single-phase flow s... Read more

Department of Chemical Engineering, Qatar Carbonates and Carbon Storage Research Centre, Imperial College London | Department of Applied Mathematics and Theoretical Physics, Cambridge University

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Hydraulic properties of porous sintered glass bead systems

Hydraulic properties of porous sintered glass bead systems

In this paper, porous sintered glass bead packings are studied, using X-ray Computed Tomography (XRCT) images at 16μm16μm voxel resolution, to obtain not only the porosity field, but also other properties like particle sizes, pore throats and the permeability. The influence of the sintering procedure and the original particle size distributions on the microstructure, and thus on the hydraulic properties, is analyzed in detail. The XRCT data are visualized and studied by advanced image fil... Read more

University of Twente, Enschede | Ruhr-University Bochum; Eindhoven University of Technology | Helmholtz Institute Erlangen-Nürnberg for Renewable Energy | University of Stuttgart

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X-ray computed tomography of packed bed chromatography columns for three dimensional imaging and analysis

X-ray computed tomography of packed bed chromatography columns for three dimensional imaging and analysis

Physical characteristics critical to chromatography including geometric porosity and tortuosity within the packed column were analysed based upon three dimensional reconstructions of bed structure in-situ. Image acquisition was performed using two X-ray computed tomography systems, with optimisation of column imaging performed for each sample in order to produce three dimensional representations of packed beds at 3 μm resolution.

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Department of Biochemical Engineering, University College London | Pall Life Sciences, Portsmouth | Electrochemical Innovation Lab, Department of Chemical Engineering, University College London

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