My answer is essentially the same. What I do is prepare a custom queue object with all relevant Ids (User/Contact/Lead/etc.) along with my custom data that then gets handled from the @Future call. This helps with governor limits since you can pull from the queue only what your callout and future limitations will permit you to handle in a single thread. For Facebook, for example, you can batch up 20 profile updates per single callout. Each @Future allows 10 callouts and each thread permits 10 @Future calls which equals 2000 individual Facebook profile updates - IF you're handling your batches properly and IF you have enough Salesforce seats to permit this number of @Future calls. It's 200 @Future calls per user per 24 hours last I checked.
The road gets narrow when you're performing triggered callouts, which is what I assume you're trying to do based on your need to callout in an @Future method in the first place. If you're not in a trigger, then you may be able to handle your callouts as long as you do them before processing any DML. In other words, postpone any data saves in any particular thread until you're done calling out.
But since it sounds like you need to call out from a trigger, batching it up in sObjects is really the way to go. It's a bit of work, but essentially serializing your existing heap data is the road to travel here. Also consider doing this from an hourly scheduled Batch Apex call since with the queue approach you'll be able to process all of your callouts eventually. If you run into governor limits (or rather, avoid hitting them) in a particular thread, it will wake up an hour later and finish the work left in your queue. Launching that process looks something like this:
String jobId = System.schedule('YourScheduleName', '0 0 0-23 * * ?', new ScheduleableClass());
This will instantiate an instance of ScheduleableClass once an hour which would pull the work from your queue object and process the maximum amount of callouts.
Good luck and sorry for the frustration.