Device to be implanted in human or animal tissue and method for implanting and assembling the device

What is claimed is: 1. A method for implanting an intervertebral element, the method, comprising the steps of: providing the intervertebral element, positioning the intervertebral element between two vertebral bodies of the spinal column; providing a plurality of fasteners, for each fastener, advancing the fastener relative to the intervertebral element and the vertebral bodies by pushing the fastener forward without substantial rotation, until the fastener forms a positive-fit connection with the intervertebral element and forms a positive-fit connection with one of the vertebral bodies, wherein the intervertebral element comprises, for each one of the fasteners, a channel, each channel for accommodating one of the fasteners, and wherein the step of advancing comprises pushing the fastener into the respective channel, and wherein the channels comprise an undercut structure, and wherein the positive-fit connection with the intervertebral element is a connection between the undercut structure and the fastener. 2. The method according to claim 1 , wherein the undercut structure comprises an undercut cross section, and the fasteners have cross sections adapted to the cross section of the channels. 3. The method according to claim 1 , wherein the undercut structure comprises at least one undercut cavity. 4. The method according to claim 1 , wherein the channels extend from an upper face and from a lower face of the intervertebral element. 5. The method according to claim 1 , wherein the step of advancing the fastener comprises advancing the fastener along a plane of an endplate of the vertebral body. 6. The method according to claim 5 , wherein in the step of advancing, a cross section of the fastener extends through the plane of the endplate. 7. The method according to claim 5 , wherein in the step of advancing the fastener, the fastener is advanced substantially parallel to the plane of the endplate. 8. The method according to claim 1 , wherein the fasteners comprises a distal self-reaming structure. 9. The method according to claim 1 , wherein the intervertebral element is an intervertebral fusion element. 10. The method according to claim 1 , wherein the intervertebral element is an intervertebral disc implant. 11. A method for implanting an intervertebral element, the method, comprising the steps of: providing the intervertebral element, positioning the intervertebral element between two vertebral bodies of the spinal column; providing a plurality of fasteners, for each fastener, advancing the fastener relative to the intervertebral element and the vertebral bodies by pushing the fastener forward without substantial rotation, until the fastener forms a positive-fit connection with the intervertebral element and forms a positive-fit connection with one of the vertebral bodies, and providing the vertebral body with vertebral body channels, the vertebral body channels having an undercut cross section, the fasteners having a cross section adapted to the cross section of the vertebral body channels, wherein the step of advancing comprises pushing the fastener into one of the vertebral body channels. 12. A method for implanting an intervertebral element, the method, comprising the steps of: providing the intervertebral element, positioning the intervertebral element between two vertebral bodies of the spinal column; providing a plurality of fasteners, for each fastener, advancing the fastener relative to the intervertebral element and the vertebral bodies by pushing the fastener forward without substantial rotation, until the fastener forms a positive-fit connection with the intervertebral element and forms a positive-fit connection with one of the vertebral bodies, wherein the fasteners comprise a liquefiable thermoplastic material in a solid state, and wherein the step of advancing comprises coupling mechanical vibration energy into the fastener while it is pushed until thermoplastic material of the fastener is liquefied and forced into bone tissue and into an undercut structure of the intervertebral element.