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DICOM Viewer Controls

The DICOM Viewer in Gesund.ai provides a full set of interactive tools designed to help you explore, analyze, and interpret medical images in real time. This environment supports scrolling through slices, measuring anatomical features, adjusting image clarity, and applying custom layouts—all from a unified interface.

1. Launching the Viewer

To begin, click the Interactive Viewer button. This opens the DICOM Viewer and allows you to interact with any loaded image volume using the available control tools.

2. Cine Mode

Use the Cine button to automatically scroll through image slices:

  • Play: Cycles through the image stack like a video.
  • Stop: Pauses the playback at any slice.

This mode helps simulate real-time image review, especially for modalities like CT or MRI.

3. Accessing Viewer Tools

Click the DICOM Controls button to reveal all available tools. These controls are organized in a toolbar and can be applied directly on the image for precise manipulation and measurement.

4. Available Tools

Here’s a quick overview of what each tool does:

  • Stack Scroll: Navigate up/down through image slices.
  • Window Level: Adjust brightness and contrast by dragging on the image.
  • Zoom: Zoom in or out for closer inspection.
  • Pan: Move the image within the viewport.
  • Length & Angle: Measure distances or angles between selected points.
  • Rectangular / Elliptical / Freeform Regions: Define areas to measure using predefined shapes.
  • Erase: Clear annotations or measurements from the image.
  • Grid View: Switch between single-view and multi-panel layouts (e.g., 2x2 or 3x3).
  • Invert: Flip the color scheme of the image to enhance visibility of certain structures.

5. Real-Time Augmentation

Within the viewer, you can also apply augmentation settings live:

  • Modify contrast or color schemes.
  • Interactively observe the effect of changes before saving or exporting.

Note: The DICOM Viewer is optimized for precision and flexibility, making it ideal for both clinical use and research workflows involving multi-slice imaging.