In my experience you can achieve this with a "memory breakpoint" or "memory watch point". For example gdb does it like this: Can I set a breakpoint on 'memory access' in GDB?
As far as I've seen with write watchpoints, the break actually triggers when
a is written to, regardless of whether the new value is equal to the old value. So if by "changed" you really mean "changed" then there are fewer examples out there. Possibly even none, I'm not sure, although I don't suppose it would be technically difficult to implement change-only watchpoints, assuming that you were implementing write watchpoints.
For some languages it makes a difference what kind of variable
a is. For example, in C or C++ variables can be "lifted" into registers when optimization is enabled, in which case hardware memory watchpoints on the address of the variable will not necessarily catch every change.
There's also a limitation with variables on the stack, that if your function exits but the watchpoint is still set, then it could catch access to the same address, now in use for a different variable in a different function. If your function is called again later (or recursively), it's not necessarily starting from the same stack position, and if not then your watchpoint would fail to catch access to the "same" variable at a different location.
"Stop when a particular condition is true at a particular line of code" is in my experience called a "conditional breakpoint". It generally uses a different mechanism --
the debugger will most likely put a breakpoint instruction at that line of code. Each time it triggers the debugger will check the condition and continue execution if it's false.