DICOMweb
#
Set up a local DICOM serverATTENTION! Already have a remote or local server? Skip to the configuration section below.
While the OHIF Viewer can work with any data source, the easiest to configure are the ones that follow the [DICOMWeb][dicom-web] spec.
- Choose and install an Image Archive
- Upload data to your archive (e.g. with DCMTK's [storescu][storescu] or your archive's web interface)
- Keep the server running
For our purposes, we will be using Orthanc
, but you can see a list of
other Open Source options below.
#
RequirementsNot sure if you have docker
installed already? Try running docker --version
in command prompt or terminal
If you are using
Docker Toolbox
you need to change the PROXY_DOMAIN parameter in platform/viewer/package.json to http://192.168.99.100:8042 or the ip docker-machine ip throws. This is the value [WebPack
][webpack-proxy] uses to proxy requests
#
Open Source DICOM Image ArchivesThere are a lot of options available to you to use as a local DICOM server. Here are some of the more popular ones:
Archive | Installation |
---|---|
DCM4CHEE Archive 5.x | W/ Docker |
Orthanc | W/ Docker |
DICOMcloud (DICOM Web only) | Installation |
OsiriX (Mac OSX only) | Desktop Client |
Horos (Mac OSX only) | Desktop Client |
Feel free to make a Pull Request if you want to add to this list.
Below, we will focus on DCM4CHEE
and Orthanc
usage:
#
Running OrthancStart Orthanc:
# Runs orthanc so long as window remains openyarn run orthanc:up
Upload your first Study:
- Navigate to
Orthanc's web interface at
http://localhost:8042/app/explorer.html
in a web browser. - In the top right corner, click "Upload"
- Click "Select files to upload..." and select one or more DICOM files
- Click "Start the upload"
#
Orthanc: Learn MoreYou can see the docker-compose.yml
file this command runs at
[<project-root>/.docker/Nginx-Orthanc/
][orthanc-docker-compose], and more on
Orthanc for Docker in Orthanc's documentation.
#
Connecting to OrthancNow that we have a local Orthanc instance up and running, we need to configure our web application to connect to it. Open a new terminal window, navigate to this repository's root directory, and run:
# If you haven't already, enable yarn workspacesyarn config set workspaces-experimental true
# Restore dependenciesyarn install
# Run our dev command, but with the local orthanc configyarn run dev:orthanc
#
Configuration: Learn MoreFor more configuration fun, check out the Essentials Configuration guide.
Let's take a look at what's going on under the hood here. yarn run dev:orthanc
is running the dev:orthanc
script in our project's package.json
(inside
platform/viewer
). That script is:
cross-env NODE_ENV=development PROXY_TARGET=/dicom-web PROXY_DOMAIN=http://localhost:8042 APP_CONFIG=config/docker_nginx-orthanc.js webpack-dev-server --config .webpack/webpack.pwa.js -w
cross-env
sets three environment variables- PROXY_TARGET:
/dicom-web
- PROXY_DOMAIN:
http://localhost:8042
- APP_CONFIG:
config/docker_nginx-orthanc.js
- PROXY_TARGET:
webpack-dev-server
runs using the.webpack/webpack.pwa.js
configuration file. It will watch for changes and update as we develop.
PROXY_TARGET
and PROXY_DOMAIN
tell our development server to proxy requests
to Orthanc
. This allows us to bypass CORS issues that normally occur when
requesting resources that live at a different domain.
The APP_CONFIG
value tells our app which file to load on to window.config
.
By default, our app uses the file at
<project-root>/platform/viewer/public/config/default.js
. Here is what that
configuration looks like:
window.config = { routerBasename: '/', extensions: [], modes: [], showStudyList: true, dataSources: [ { friendlyName: 'dcmjs DICOMWeb Server', namespace: 'org.ohif.default.dataSourcesModule.dicomweb', sourceName: 'dicomweb', configuration: { name: 'DCM4CHEE', wadoUriRoot: 'https://server.dcmjs.org/dcm4chee-arc/aets/DCM4CHEE/wado', qidoRoot: 'https://server.dcmjs.org/dcm4chee-arc/aets/DCM4CHEE/rs', wadoRoot: 'https://server.dcmjs.org/dcm4chee-arc/aets/DCM4CHEE/rs', qidoSupportsIncludeField: true, supportsReject: true, imageRendering: 'wadors', thumbnailRendering: 'wadors', enableStudyLazyLoad: true, supportsFuzzyMatching: true, supportsWildcard: true, }, }, ], defaultDataSourceName: 'dicomweb',};
To learn more about how you can configure the OHIF Viewer, check out our Configuration Guide.
#
Running DCM4CHEEdcm4che is a collection of open source applications for healthcare enterprise written in Java programming language which implements DICOM standard. dcm4chee (extra 'e' at the end) is dcm4che project for an Image Manager/Image Archive which provides storage, retrieval and other functionalities. You can read more about dcm4chee in their website here
DCM4chee installation is out of scope for these tutorials and can be found here
An overview of steps for running OHIF Viewer using a local DCM4CHEE is shown below: