Actually if you're using Task-based asynchronous programming I suggested you refactor your code to return
Task<T> and give an ability to your client itself to decide in what context to call callback method (and facilitate future migration to C# 5.0 ;):
public Task<string> SomeMethodAsync()
return Task.Factory.StartNew(() => "some result");
If you definitely know that you're going to call this method from UI thread you can use following:
var task = SomeMethodAsync();
task.ContinueWith(t => textBox.Text = t.Result, TaskScheduler.FromSynchronizationContext);
This approach is better because it provide more clear separation of concern and give an ability to use your asynchronous method in any context without any dependencies to synchronization context. Some client can call this method from UI thread (and in this case
TaskScheduler.FromSynchronizationContext would behave as expected - your "continuation" would be called in UI thread), some of them could use your method from non-UI thread as well without such requirements like processing results in the same thread that initiate asynchronous operation.
Task<T> is a perfect class that represents asynchronous operation as a first class object that helps not only obtain only more declarative code but more clear, easy to read and easy to test (you can easily mock this method and return "fake" task object).