Locking assembly for a polyaxial bone anchoring device

What is claimed is: 1. A method of coupling a rod to a bone or vertebra via a polyaxial bone anchoring device, the bone anchoring device comprising a bone anchoring element having a shank and a head, a receiving part configured to be coupled to the bone anchoring element and to pivotably receive the head, the receiving part having a recess with a substantially U-shaped cross-section for receiving the rod, the recess defining two legs, the legs having an internal advancement structure, a pressure element configured to contact the head to exert pressure on the head to lock an angular position of the head relative to the receiving part, and a locking assembly comprising a first locking element having a longitudinal axis, an outer surface with an external advancement structure configured to cooperate with the internal advancement structure of the legs, an inner wall defining a coaxial bore extending through the first locking element along the longitudinal axis, an internal advancement structure on a portion of the inner wall, and an engagement portion for a tool for advancing the first locking element relative to the receiving part, and a second locking element configured to be arranged at least partially in the first locking element, the second locking element having an outer surface with an external advancement structure configured to cooperate with the internal advancement structure of the first locking element, the method comprising: inserting the shank of the bone anchoring element into a bone or vertebra; adjusting the angular position of the receiving part relative to the bone anchoring element; inserting a rod into the recess of the receiving part, wherein the pressure element is positioned between the head and the rod; inserting the locking assembly into the recess; advancing the locking assembly in the receiving part towards the head, such that the first locking element is advanced axially in the receiving part at a first speed, and the second locking element moves axially relative to the receiving part at a speed different than the first speed, until the second locking element locks the head relative to the receiving part and the first locking element locks the rod relative to the receiving part. 2. The method of claim 1 , wherein the respective advancement structures of the first locking element and the second locking element comprise threads, and wherein advancing the locking assembly in the receiving part comprises rotating the first locking element in a first direction relative to the receiving part while the second locking element is prevented from rotating relative to the receiving part. 3. The method of claim 2 , further comprising: rotating the first locking element in a direction opposite the first direction until the rod is unlocked while the head remains locked; adjusting a position of the rod relative to the receiving part; and rotating the first locking element in the first direction until the rod is locked. 4. The method of claim 2 , wherein the first and second locking elements are temporarily fixed relative to one mother via a connection, and wherein when the first locking element is rotated relative to the receiving part while the second locking element is prevented from rotating relative to the receiving part, the connection between the first and second locking elements is separated. 5. The method of claim 1 , wherein the pressure element is inserted in the receiving part prior to inserting the shank into the bone or vertebra. 6. The method of claim 1 , wherein the pressure element is inserted in the receiving part after inserting the shank into the bone or vertebra.