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As a cell biologist, you know how important it is to understand the intricate mechanisms of cell structure and function. However, analyzing data from various imaging systems and modalities that use different file formats can be a daunting task. Each experimental setup presents a unique challenge, and multi-scale dynamic processes require the tracking of objects of various sizes, from diffraction-limited particles to entire cells. With data sets containing anywhere from a few dozen to tens of thousands of objects, identifying and quantifying sub-cellular structures that support intracellular processes can seem overwhelming.
Thermo Scientific Amira Software is a powerful toolbox that enables cell biologists to visualize, process, and analyze complex biological data in 3D. With its advanced image processing, visualization, and analysis tools, Amira software can help you gain insights into the structure and function of cells and tissues that would be impossible to see with 2D images alone.
Whether you're studying cellular processes, tissue organization, or the effects of drugs on cells, Amira software can help you gain a deeper understanding of your images. With our easy-to-use interface and comprehensive tools, you can streamline your workflow and spend more time doing what you do best - advancing the field of cell biology.
凭借功能 强大的 分割和 图像 处理能力 与工作流程以及与科学界和数千名研究人员超过 20 年 的合作, 现已证明,我们基于数字成像的工作流程为 生物医学和生命科学研究提供了 可靠解决方案。
由于您的需求独一无二且不断变化,我们的软件解决方案非常灵活并且可以定制。借助我们的脚本编写界面(Python、TCL)、与 MATLAB 桥接以及编程 API,您可以扩展我们的软件解决方案并整合您自己的 IP(知识产权)。如果需要,我们的专业服务团队可以帮助设计符合您需求的独特解决方案。
During this 20-minutes webinar, you will learn how to:
Use cases and insight from your peers
Explore industry-leading insights and research that can support your lab workflow.
Helping scientists answer questions that enable breakthrough discoveries in life sciences, materials science, and industry.
Correlative Microscopy: Using Amira Software to Understand the Spread of Cancer Read more | |
Amira Software Accelerates Veterinary Research with 3D Visualization and Analysis Read more | |
Molecular Clarity—Discovering What’s Possible with Cryo-Electron Tomography Read more | |
Cryo-Electron Tomography and 3D Software Advances Coronavirus Research Read more |
Cellular spheroids are 3D cell cultures that represent in vivo tissue better than traditional cellular monolayers, improving the ability of researchers to study cancer, diabetes mellitus, or stem cells, among many applications. However, cell analysis in such 3D multicellular objects is not accurately possible, especially without destroying the object of study. Amira Software can automatically separate the cells and perform volumetric, morphometric, and intensity measurements on individual cells and their nuclei in 3D image data of these spheroids. Amira Software also helps with the analysis of conventional 2D cellular monolayers.
With its long-standing applications in multi-modality imaging techniques, Amira Software is the tool of choice for many researchers working with data from different imaging modalities. Amira Software’s architecture supports multi-volume data processing and visualization from the ground up. The automatic registration tools integrated into the standard edition of Amira Software with the Multi-Planar Workroom offer the flexibility of the most commonly used automated registration metrics and optimizers that allow for the adjustment of the registration parameters to meet the needs of your data.
Amira Software accelerates segmentation by employing automated detection of cellular features, such as filaments and membranes. By performing advanced image analysis and statistics on the cryo-tomograms, Amira Software combines data from these individual structures, averaging out noise and increasing contrast to create a composite model with higher resolution.
With our new Xplore5D extension for Amira Software, life scientists can easily visualize, correlate, and process large multichannel and time series data in one platform, without worrying about image size or memory limits. With its smart file format, Xplore5D allows you to compress all imaging data without losing precious information collected during acquisition.
Amira Software enables multi-channel quantitative capabilities to investigate the most demanding scientific and experimental models used in HCS, including immuno-oncology, neuroscience, and organoid health. Thanks to its incredible speed and flexibility, Amira Software helps enable advanced 2D–5D bioimaging workflows in research areas ranging from structural and cellular biology to neuronal and spheroid morphology in 3D models. To facilitate these advanced analyses, Amira Software features deep learning for improved training and prediction, including "intelligent denoising functionality.
With Amira Software, you are able to use a template-matching algorithm to automatically detect and trace these fine filaments in noisy cryo-EM or DualBeam instrument data. In addition, Amira Software enables you to reconstruct filamentous networks and edit the resulting graphs to remove image features erroneously identified as filaments or to add missing parts of a network. Graphs of filaments can then be quantified by measuring parameters such as amount, length, thickness, orientation, ranks, etc. Compelling 3D renderings can be created from the reconstructed model and the computed parameters.
Cellular spheroids are 3D cell cultures that represent in vivo tissue better than traditional cellular monolayers, improving the ability of researchers to study cancer, diabetes mellitus, or stem cells, among many applications. However, cell analysis in such 3D multicellular objects is not accurately possible, especially without destroying the object of study. Amira Software can automatically separate the cells and perform volumetric, morphometric, and intensity measurements on individual cells and their nuclei in 3D image data of these spheroids. Amira Software also helps with the analysis of conventional 2D cellular monolayers.
With its long-standing applications in multi-modality imaging techniques, Amira Software is the tool of choice for many researchers working with data from different imaging modalities. Amira Software’s architecture supports multi-volume data processing and visualization from the ground up. The automatic registration tools integrated into the standard edition of Amira Software with the Multi-Planar Workroom offer the flexibility of the most commonly used automated registration metrics and optimizers that allow for the adjustment of the registration parameters to meet the needs of your data.
Amira Software accelerates segmentation by employing automated detection of cellular features, such as filaments and membranes. By performing advanced image analysis and statistics on the cryo-tomograms, Amira Software combines data from these individual structures, averaging out noise and increasing contrast to create a composite model with higher resolution.
With our new Xplore5D extension for Amira Software, life scientists can easily visualize, correlate, and process large multichannel and time series data in one platform, without worrying about image size or memory limits. With its smart file format, Xplore5D allows you to compress all imaging data without losing precious information collected during acquisition.
Amira Software enables multi-channel quantitative capabilities to investigate the most demanding scientific and experimental models used in HCS, including immuno-oncology, neuroscience, and organoid health. Thanks to its incredible speed and flexibility, Amira Software helps enable advanced 2D–5D bioimaging workflows in research areas ranging from structural and cellular biology to neuronal and spheroid morphology in 3D models. To facilitate these advanced analyses, Amira Software features deep learning for improved training and prediction, including "intelligent denoising functionality.
With Amira Software, you are able to use a template-matching algorithm to automatically detect and trace these fine filaments in noisy cryo-EM or DualBeam instrument data. In addition, Amira Software enables you to reconstruct filamentous networks and edit the resulting graphs to remove image features erroneously identified as filaments or to add missing parts of a network. Graphs of filaments can then be quantified by measuring parameters such as amount, length, thickness, orientation, ranks, etc. Compelling 3D renderings can be created from the reconstructed model and the computed parameters.
通过专门为 Amira、Avizo 和 PerGeos 软件新用户设计的入门培训,缩短学习曲线,使投资收益最大化。
课程包括一个讲座及互动提问环节。培训材料重点讲述 Amira、Avizo 和 PerGeos 软件的基本特点和功能。
通过专为 Amira、Avizo 和 PerGeos 软件的现有用户设计的高级培训使投资收益最大化并缩短取得成果的时间。
课程包括一个讲座及互动提问环节。培训材料重点讲述 Amira、Avizo 和 PerGeos 软件的高级特点和功能。
赛默飞世尔科技在 3D 和图像处理方面拥有超过 25 年的经验,向众多小型和大型机构交付了数百个定制项目,可根据您的特定需求为您提供量身定制的解决方案。
我们可以定制和扩展我们不同级别的软件解决方案。
Amira Software is crucial for visualizing SBF-SEM (serial block-face SEM) and FIB-SEM images, so we can analyze the 3D morphology of organelles.
Dr. Antentor Hinton Jr
Department of Molecular Physiology and Biophysics, Vanderbilt University
This testimonial highlights the way Amira Software supported Matthia A. Karreman, MSc, PhD at EMBL and DKFZ, Heidelberg, Germany, in her project on multimodal correlative microscopy to efficiently target single tumor cells in vivo.
Matthia A. Karreman, MSc, PhD
EMBL and DKFZ, Heidelberg, Germany
"Amira Software helps to set up complex data processing workflows. The first aim was to enhance the contrast of viral and cellular membranes. We applied a combination of 3D non-local means filter and the Membrane Enhancement Filter implemented in Amira Software. An initial automated segmentation was achieved using the Top-hat segmentation tool. This initial segmentation was further manually refined utilizing a Wacom graphics tablet. Based on the refined membrane segmentation, a 3D surface was calculated using unconstrained smoothing, and the surface was visualized as 3D model."
By Steffen Klein (Chlanda lab, Department of Infectious Diseases, Virology, Heidelberg University, Heidelberg, Germany)
Amira software solution for the analysis of time series data of cellular processes.
Amira Software can automatically count the cell nuclei which correspond to the cell count of the 3D spheroid cell cultures.
With incredible speed and flexibility, Amira Software enables advanced 2D-5D bioimaging workflows in research areas ranging from structural and cellular biology, to spheroid or tumor analysis and tissue imaging.
Golgi apparatus of green alga Chlamydomonas reihardtii, flas-frozen without any artificial staining or fixatives, and thinned by cryo-FIB milling.
SARS-CoV-2 virion budding and assembly at the ERGIC membrane. A 3D volume rendering is shown for each area with cellular and viral membranes in green and magenta respectively, viral spike proteins in yellow, and viral ribonucleoproteins in cyan.
Amira Software provides a comprehensive toolset for the flexible and accurate analysis of time series data of cellular processes.
Amira software solution for the analysis of time series data of cellular processes.
Amira Software can automatically count the cell nuclei which correspond to the cell count of the 3D spheroid cell cultures.
With incredible speed and flexibility, Amira Software enables advanced 2D-5D bioimaging workflows in research areas ranging from structural and cellular biology, to spheroid or tumor analysis and tissue imaging.
Golgi apparatus of green alga Chlamydomonas reihardtii, flas-frozen without any artificial staining or fixatives, and thinned by cryo-FIB milling.
SARS-CoV-2 virion budding and assembly at the ERGIC membrane. A 3D volume rendering is shown for each area with cellular and viral membranes in green and magenta respectively, viral spike proteins in yellow, and viral ribonucleoproteins in cyan.
Amira Software provides a comprehensive toolset for the flexible and accurate analysis of time series data of cellular processes.
- 生物数据格式
- 位图格式
- 显微镜:电子和光学
- 医学和神经图像格式
- 分子格式
- 其他图像采集设备(MRI、放射摄影术等)
For Research Use Only. Not for use in diagnostic procedures.