Get Started with Medical Image Labeler
The Medical Image
Labeler app enables you to explore and interactively label pixels in 2-D and 3-D
medical images. You can export labeled data as a
groundTruthMedical object to train semantic segmentation algorithms. You can
publish snapshot images and animations with or without labels.
This tutorial provides an overview of the capabilities of the Medical Image Labeler and compares 2-D and 3-D image labeling. The typical app workflow includes these steps:
Open Medical Image Labeler App
Open the Medical Image Labeler app from the Apps tab
on the MATLAB® toolstrip, under Image Processing and Computer
Vision. You can also load the app by using the
Create or Open Labeling Session
Manage labeling in the Medical Image Labeler using app sessions. Within one app session, you can import and label multiple image files. These might be repeat scans from one patient or scans from multiple patients with the same set of tissues, organs, or other regions of interest to label. The app enables you to create either a volume session or an image session. Use a volume session to label 3-D medical image data. Use an image session to label 2-D images or an image series, such as an ultrasound video.
You can either create a new labeling session or reopen a previous session:
New session — On the app toolstrip, click New Session and select New Volume session (3-D) or New Image session (2-D). In the dialog box that opens, specify a session folder. As you draw the label images, the app automatically saves them to the session folder. Therefore, the session folder must have access to enough memory to save all label images for the session. For more details, see the How Medical Image Labeler Manages Ground Truth Labels section.
Open session — On the app toolstrip, click Open Session and select one of the listed recent sessions, or click Open Session and navigate to a previous session folder.
Load Image Data
Load images to label from a file or from a
Load image files when starting a new labeling project. Use
groundTruthMedical objects when working with labeled or partially
labeled data from outside of MATLAB or that have been shared from a different workstation. For more details
about working on a multi-person labeling team, see Collaborate on Multi-Labeler Medical Image Labeling Projects.
To load an image from a file, click Import and, under Data, select From File. The app supports loading these file formats:
Volume session — Single NIfTI, NRRD, or DICOM file, or a directory containing multiple DICOM files corresponding to one image volume.
Image session — Single NIfTI or DICOM file.
To load a
groundTruthMedical object, click
Import, and under Ground Truth, select
From File to load the object from a MAT file or From
Workspace to load the object from the MATLAB workspace. Importing a
groundTruthMedical object loads
the image data, label data, and label definitions stored in the object into the
The Data Browser pane lists all of the image files currently loaded in the app. Click a filename in the Data Browser to change the file to display and label.
Visually Explore Data
The app displays 3-D image data using individual panes for the Transverse, Sagittal, and Coronal slice planes and a 3-D Volume pane. For an example of how to customize the display of 3-D images, and publish images and animations, see Visualize 3-D Medical Image Data Using Medical Image Labeler. The app displays 2-D image data in the Slice pane. For details about navigating frames or adjusting the brightness and contrast of a 2-D image series, see Label 2-D Ultrasound Series Using Medical Image Labeler.
Create Label Definitions
A label definition specifies the name, color, and order of each label assigned to the image. You must use the same label definitions across all images within an app session. The Medical Image Labeler app supports pixel labeling.
You can create a label definition interactively in the app by clicking Create Label Definition in the Label Definitions pane. Optionally, you can assign a name for the label by clicking it, or change the color of the label by clicking the color square next to the label name.
Alternatively, import label definitions from a label definitions file or as part of a
groundTruthMedical object. You can create a label definitions file
programmatically, or load one exported from a previous app session. For more details
about creating a label definitions file programmatically, see the
LabelDefinitions property of the
Label pixels using the tools in the Draw and Automate tabs of the app toolstrip. The app provides manual, semi-automated, and automated labeling tools.
Manually draw labels using the Freehand, Assisted Freehand, Polygon, and Paintbrush tools.
Add labels using semi-automated tools including Fill Region, Paint by Superpixels, and Trace Boundary. You can interpolate labeled regions between image frames or volume slices using the Auto Interpolate and Manually Interpolate tools.
|Fill Region||Flood fill label image or fill holes in label region.||
|Paint by Superpixels||Manually paint within an adjustable-sized grid of pixels. To use this tool, first select Paint Brush and then click Paint by Superpixels. Each superpixel contains a cluster of similar intensity values. Adjust the Superpixels Size to change the size of the superpixel grid.||
|Trace Boundary||Label connected regions that have similar intensity values. Select Trace Boundary in the app toolstrip, and then pause on a seed pixel or voxel in the region you want to label. The tool predicts the boundary of the region by including pixels or voxels with intensities that are similar to the current seed. Use the Threshold slider to adjust the similarity threshold used to predict the region boundary. Increasing the threshold includes a wider range of intensities above and below the seed value in the predicted region. Move your cursor to change the seed.||
The Automate tab contains built-in automation algorithms to refine existing labels or fully automate labeling. The app provides slice-based algorithms including Active Contours, Adaptive Threshold, Dilate, and Erode. In a volume session, the app additionally provides the Filter and Threshold, Smooth Edges, and Otsu's Threshold algorithms, which you can apply to all slices or to a specified slice range.
You can add a custom automation algorithm to use in the app. On the Automate tab, click Add Algorithm. Import an existing algorithm by selecting From File, or create a new algorithm using the provided function or class template. See Automate Labeling in Medical Image Labeler for an example that applies a custom automation algorithm for 2-D labeling.
For an example of labeling 2-D image data, see Label 2-D Ultrasound Series Using Medical Image Labeler.
For an example of labeling 3-D image data, see Label 3-D Medical Image Using Medical Image Labeler.
Export Labeling Results
You can export the
groundTruthMedical object and label definitions as
files to share with a colleague.
To export the
groundTruthMedicalobject as a MAT file, on the Labeler tab, click Export and, under Ground Truth, select To File.
To export the label definitions as a MAT file, on the Labeler tab, click Export and, under Label Definitions, select To File.
The app stores the actual pixel label data in the
subfolder of the session folder. See How Medical Image Labeler Manages Ground Truth Labels for
How Medical Image Labeler Manages Ground Truth Labels
As you label images in the Medical Image Labeler app, the app automatically saves three sets of data in the session folder associated with the current app session.
groundTruthMedicalobject stored as a MAT file. The
groundTruthMedicalobject specifies the file locations of the unlabeled images and corresponding label images, as well as the name and color associated with each label.
A subfolder named
LabelData, which contains the label images.
The app saves pixel label images created in an image session in the
LabelDatafolder as MAT files. A MAT file stores the pixel labels as a
uint8array. You can read the label image into the MATLAB workspace by using the
The app saves voxel label images created in a volume session in the
LabelDatafolder as NIfTI files. A NIfTI file stores the voxel labels as a
uint8array. You can read the label images into the MATLAB workspace by using the
A subfolder named
AppData, which contains data about the app session stored as a MAT file.