Bone anchor element for inserting into a bone and/or fixing tissue to the bone, inserter, bone anchor system and method for assembling a bone anchor system

The invention claimed is: 1. A bone anchor element configured for insertion into a bone and/or fixing tissue to the bone, wherein the bone anchor element comprises: in a longitudinal direction, a proximal end, a proximal section, a distal section and a distal end, wherein the proximal section has on an outside a contoured projection to prevent the bone anchor element when inserted into the bone from being pulled out, and, on an inside, a continuous hollow space in the longitudinal direction having a proximal opening and a distal opening, wherein the distal section is a flattened, plate-shape configuration having a plate plane, wherein the plate plane is monolithic and includes two, parallel surfaces that bound the plate plane on an exterior portion, wherein the distal section, in the longitudinal direction to the distal end, has a first transverse through-hole through the plate plane, wherein the first transverse through-hole is connected to the continuous hollow space of the proximal section via the distal opening, and a second transverse through-hole through the plate plane, wherein the first transverse through-hole and the second transverse through-hole are separated by a web of the plate-shaped distal section, wherein the second transverse through-hole has on the distal end a gap opening in the longitudinal direction and transverse to the plate plane and configured such that a suture material can be flexibly-guided through the continuous hollow space, the first transverse through-hole, the second transverse through-hole and/or the gap opening, and the web has on its proximal side in relation to the first transverse through-hole an inclined abutment surface extending to one of the two, parallel surfaces that bound the plate plane on the exterior portion, wherein the bone anchor element is configured so that when an eyelet is pushed through from the proximal opening through the continuous hollow space of the bone anchor element, through the distal opening and through the first transverse through-hole in the longitudinal direction, the eyelet is guided outward to one of the two, parallel surfaces upon contacting the inclined abutment surface through the first transverse through-hole. 2. The bone anchor element according to claim 1 , wherein the proximal section and/or the distal section taper(s) continuously or non-continuously from the respective proximal end to the respective distal end. 3. The bone anchor element according to claim 1 , wherein the first transverse through-hole through the plate plane is formed in a quadrilateral manner, or in a rectangular manner transverse to the longitudinal direction. 4. The bone anchor element according to claim 1 , wherein the second transverse through-hole through the plate plane has a round shape. 5. The bone anchor element according to claim 1 , wherein the distal end of the distal section is rounded about the gap opening in the plate plane and/or has after the gap opening a clearance space widening in the longitudinal direction to the distal end. 6. The bone anchor element according to claim 1 , wherein a gap width of the gap opening in the plate plane is adjusted to a diameter of the suture material. 7. The bone anchor element according to claim 1 , wherein the bone anchor element is one piece. 8. The bone anchor element according to claim 1 , wherein the bone anchor element comprises a biointegratable material. 9. The bone anchor element according to claim 1 , wherein the proximal section has a perforation or a plurality of perforations. 10. The bone anchor element according to claim 1 , wherein the proximal opening has an internal driving profile, or an internal hexagonal profile. 11. The bone anchor element according to claim 1 , wherein the bone anchor element has on its proximal end and/or at the proximal opening an anti-rotation protection element. 12. The bone anchor element according to claim 1 , wherein the proximal section is cylindrical and the exterior includes a thread. 13. The bone anchor element according to claim 1 , wherein the inclined abutment surface is present on three sides of the first transverse through-hole. 14. An inserter configured to insert a bone anchor element into a hole in a bone, wherein the bone anchor element comprises: in a longitudinal direction, a proximal end, a proximal section, a distal section and a distal end, wherein the proximal section has on an outside a contoured projection configured to prevent the bone anchor element when inserted into the bone from being pulled out, and, on an inside, a continuous hollow space in the longitudinal direction having a proximal opening and a distal opening, wherein the distal section is a flattened, plate-shape configuration having a plate plane, wherein the plate plane is monolithic and includes two, parallel surfaces that bound the plate plane on an exterior portion, wherein the distal section, in the longitudinal direction to the distal end, has a first transverse through-hole through the plate plane, wherein the first transverse through-hole is connected to the continuous hollow space of the proximal section via the distal opening, and a second transverse through-hole through the plate plane, wherein the first transverse through-hole and the second transverse through-hole are separated by a web of the plate-shaped distal section, wherein the second transverse through-hole has on the distal end a gap opening in the longitudinal direction and transverse to the plate plane and configured such that a suture material can be guided through the continuous hollow space, one or more of the first transverse through-hole, the second transverse through-hole and the gap opening, and the web has on its proximal side in relation to the first transverse through-hole an inclined abutment surface extending to one of the two, parallel surfaces that bound the plate plane on an exterior portion, wherein the bone anchor element is configured so that when an eyelet is pushed through from the proximal opening through the continuous hollow space of the bone anchor element, through the distal opening and through the first transverse through-hole in the longitudinal direction, the eyelet is guided outward to one of the two, parallel surfaces upon contacting the inclined abutment surface through the first transverse through-hole, and the inserter comprises: a tool shaft in a longitudinal direction of the inserter, a hand grip arranged at a proximal end of the tool shaft, and a driving profile, configured to connect to the bone anchor element, is arranged in an opposing distal end section, wherein the tool shaft has, in at least one region before the distal end up to and including the driving profile, a continuous hollow space in the longitudinal direction of the inserter, wherein the tool shaft has before the distal end an insertion opening in the longitudinal direction of the inserter, wherein the insertion opening is connected to the continuous hollow space of the inserter, wherein when the inserter is connected to the bone anchor element, an eyelet can be pushed from the outside through the insertion opening into the continuous hollow space of the inserter all the way through the driving profile on the distal end section of the inserter and through the continuous hollow space of the bone anchor element through the distal opening into the first transverse through-hole of the bone anchor element and via the inclined abutment surface outward over the distal end of the bone anchor element. 15. The inserter according to claim 14 , wherein the driving profile has an external driving profile, or an external hexago