It's difficult to be done at language level. Some distributed caches might help, Terracotta for example does deal with synchronized keyword in clustered environment, but I haven't tried it and there's certainly a performance toll. I would be very careful with making instances wait for some non-trivial time as seems to be your case.
Otherwise distributed JNDI, distributed singleton or similar stuff done to make server instances communicate and check that during the process might help.
But this problem is in practice usually avoided by doing optimistic locking. You might simply assume that this happens only in some unusual/unlikely moments and do things as in a one instance case. And figure out a way on what to do when it does not.
This becomes more of business logic scenario and the best way to do it is simply finding a way to make the user least likely to be dissatisfied.
Usually there is a consistency guaranteed at the persistence/database level, so you might write it down there. I would certainly not use synchronized keyword to block an instance that might be holding for minutes or more as that asks for a memory leak or any other resource exhaustion.
I personally like using L2 cache when working with JPA/Hibernate which deals with this. OpenJPA has a performance friendly way of doing the L2 stuff when it only notifies other instances that an entity has been changed and they should revoke it from their L1 cache. This might be a much better approach in your case than 'synchronizing' using a synchronized Java language keyword.
It is a good attitude on your side to think about how to deal with it as it is neglected in many applications in my experience. It too often becomes a low probability scenario which is hard to comprehend for business oriented managers on why it should be invested in. But it has a capability of a severe backlash in case things go wrong in production.