I found a relatively simple solution.
My application has a class named ShellHandler, which is instanciated in the bootstrapper and registered in the Unity Container as a singleton:
Container.RegisterType<IShellHandler, ShellHandler>(new ContainerControlledLifetimeManager());
I created in my ShellHandler a method which can be used by modules to flag themselves as loaded:
/// Method used to increment the number of modules loaded.
/// Once the number of modules loaded equals the number of modules registered in the catalog,
/// the shell displays the Login shell.
/// This prevents the scenario where the Shell is displayed at start-up with empty regions,
/// and then the regions are populated as the modules are loaded.
public void FlagModuleAsLoaded()
if (NumberOfLoadedModules != ModuleCatalog.Modules.Count())
// Display the Login shell.
Finally, in my ModuleBase class, which all modules implement, I created an abstract method which is called during the initialization process:
/// Method automatically called and used to register the module's views, types,
/// as well as initialize the module itself.
public void Initialize()
// Views and types must be registered first.
// Now initialize the module.
// Flag the module as loaded.
public abstract void FlagModuleAsLoaded();
Each module now resolves the instance of the ShellHandler singleton through their constructor:
public LoginModule(IUnityContainer container, IRegionManager regionManager, IShellHandler shellHandler)
: base(container, regionManager)
this.ShellHandler = shellHandler;
And finally they implement the Abstract method from ModuleBase:
/// Method used to alert the Shell Handler that a new module has been loaded.
/// Used by the Shell Handler to determine when all modules have been loaded
/// and the Login shell can be displayed.
public override void FlagModuleAsLoaded()