It sounds like a linked list, however there's a catch you need to consider. When you say "removing an item from the list", it depends on whether you have the "complete item" to remove, or just its value.
I will clarify: let's say your values are strings. You can construct a class/struct containing a string and two linking pointers (forwards and backwards). When given such a class, it's very easy to remove it from the list in O(1). In pseudo code, removing item c looks like this (please disregard validation tests):
c.backwards = c.forwards
if c.backwards = null: head = c.forwards
if c.forwards = null: tail = c.backwards
However, if you wish to delete the item containing the string "hello", that would take O(n) because you would need to iterate through the list.
If that's the case I would recommend using a combination of a linked list and and hash table for O(1) lookup. Inserting to the end of the list (pseudo code):
new_item = new Item(value = some_string, backwards = tail, forwards = null)
tail.forwards = new_item
tail = new_item
hash.add(key = some_string, value = new_item)
Scanning through the list is just scanning through the linked list, no problems:
i = head
while i != null:
... do something with i.value ...
i = i.forwards
Removing an item from the list by value (pseudo code, no validation testing):
item_to_remove = hash.find_by_key(some_string)
if (item_to_remove != null):
item_to_remove.backwards = item_to_remove.forwards
if item_to_remove.forwards = null: tail = item_to_remove.backwards
if item_to_remove.backwards = null: head = item_to_remove.forwards