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MIPAV and Flamory

Flamory provides the following integration abilities:

  • Create and use window snapshots for MIPAV
  • Take and edit MIPAV screenshots
  • Automatically copy selected text from MIPAV and save it to Flamory history

To automate your day-to-day MIPAV tasks, use the Nekton automation platform. Describe your workflow in plain language, and get it automated using AI.

Screenshot editing

Flamory helps you capture and store screenshots from MIPAV by pressing a single hotkey. It will be saved to a history, so you can continue doing your tasks without interruptions. Later, you can edit the screenshot: crop, resize, add labels and highlights. After that, you can paste the screenshot into any other document or e-mail message.

Application info

What is MIPAV?

The MIPAV (Medical Image Processing, Analysis, and Visualization) application enables quantitative analysis and visualization of medical images of numerous modalities such as PET, MRI, CT, or microscopy. Using MIPAV's standard user-interface and analysis tools, researchers at remote sites (via the internet) can easily share research data and analyses, thereby enhancing their ability to research, diagnose, monitor, and treat medical disorders.

MIPAV is a Java application and can be run on any Java-enabled platform such as Windows, UNIX, or Macintosh OS X.

Goals for MIPAV

MIPAV is to meet the following goals:

To develop computational methods and algorithms to analyze and quantify biomedical data;

To collaborate with NIH researchers and colleagues at other research centers in applying information analysis and visualization to biomedical research problems;

To develop tools (in both hardware and software) to give our collaborators the ability to analyze biomedical data to support the discovery and advancement of biomedical knowledge.

Need for MIPAV

Imaging has become an essential component in many fields of bio-medical research and clinical practice. Biologists study cells and generate 3D confocal microscopy data sets, virologists generate 3D reconstructions of viruses from micrographs, radiologists identify and quantify tumors from MRI and CT scans, and neuroscientists detect regional metabolic brain activity from PET and functional MRI scans. Analysis of these diverse types of images requires sophisticated computerized quantification and visualization tools. To support scientific research in the NIH intramural program, CIT has made major progress in the development of a platform-independent, n-dimensional, general-purpose, extensible image processing and visualization program.

Integration level may vary depending on the application version and other factors. Make sure that user are using recent version of MIPAV. Please contact us if you have different integration experience.