Local coil for magnetic resonance imaging

The invention claimed is: 1. A local coil for magnetic resonance imaging, the local coil comprising: an electrical circuit arrangement; and a coaxial cable with an internal conductor and an external conductor surrounding the internal conductor, wherein two ends of the coaxial cable are connected to the electrical circuit arrangement and the internal conductor and the external conductor together form an antenna loop, wherein at least one of the internal conductor or the external conductor has at least one interruption, wherein the at least one interruption divides the internal conductor and/or the external conductor into at least two separate segments in each case, wherein a sheath of the coaxial cable is interrupted in a region of an interruption of the external conductor, and wherein end sections of segments of the external conductor created by the interruption of the external conductor are surrounded by an insulation material in the region of an interruption of the sheath. 2. The local coil of claim 1 , wherein the internal conductor and the external conductor each have an interruption or a plurality of interruptions, wherein a number of interruptions of the internal conductor and a number of interruptions of the external conductor are equal or differ by one. 3. The local coil of claim 2 , wherein sections of the coaxial cable between the electrical circuit arrangement and at least one adjacent interruption are at least substantially equal in length, and/or wherein a section or sections of the coaxial cable between two adjacent interruptions are at least substantially equal in length. 4. The local coil of claim 2 , wherein the external conductor and the internal conductor have 1 to 10 interruptions in total. 5. The local coil of claim 2 , wherein, in a region of the interruption of the internal conductor, adjacent end sections of segments of the internal conductor created by the interruption of the internal conductor run at least sectionally parallel, and wherein sections of the external conductor surrounding the segments of the internal conductor having the interruption are electrically connected, therein providing no interruption of the external conductor in the region of the interruption of the internal conductor. 6. The local coil of claim 1 , wherein sections of the coaxial cable between the electrical circuit arrangement and at least one adjacent interruption are at least substantially equal in length, and/or wherein a section or sections of the coaxial cable between two adjacent interruptions are at least substantially equal in length. 7. The local coil of claim 1 , wherein the external conductor and the internal conductor have 1 to 10 interruptions in total. 8. The local coil of claim 1 , wherein the electrical circuit arrangement has at least one detuning circuit connected to the internal conductor and/or to the external conductor at the ends of the coaxial cable. 9. The local coil of claim 8 , wherein the at least one detuning circuit has at least one switching element or at least one series connection composed of the at least one switching element and at least one inductance coil. 10. The local coil of claim 8 , wherein the at least one detuning circuit is connected to the external conductor at one end of the coaxial cable and to the internal conductor at the other end when a number of interruptions is even, or wherein the at least one detuning circuit is connected to the external conductor or to the internal conductor at both ends of the coaxial cable when the number of interruptions is odd. 11. The local coil of claim 1 , wherein the electrical circuit arrangement has at least one adaptation element connected to the internal conductor and/or to the external conductor at the ends of the coaxial cable, and wherein the at least one adaptation element is configured to adapt a resonance frequency of the antenna loop. 12. The local coil of claim 11 , wherein the at least one adaptation element is connected to the external conductor at one end of the coaxial cable and to the internal conductor at the other end when a number of interruptions is even, or wherein the at least one adaptation element is connected to the external conductor or to the internal conductor at both ends of the coaxial cable when the number of interruptions is odd. 13. The local coil of claim 1 , wherein the coaxial cable has a diameter in a range of 0.5 mm and 3 mm, wherein the coaxial cable has an impedance in a range of 50 Ohms and 120 Ohms, wherein the antenna loop has a diameter in a range of 3 cm and 30 cm, or a combination thereof. 14. The local coil of claim 1 , wherein the coaxial cable is attached to a flexible support element. 15. A local coil for magnetic resonance imaging, the local coil comprising: an electrical circuit arrangement, and a coaxial cable with an internal conductor and an external conductor surrounding the internal conductor, wherein two ends of the coaxial cable are connected to the electrical circuit arrangement and the internal conductor and the external conductor together form an antenna loop, wherein the internal conductor has an interruption, wherein the interruption divides the internal conductor and the external conductor into two separate segments in each case, wherein, in a region of the interruption of the internal conductor, adjacent end sections of the two separate segments of the internal conductor created by the interruption of the internal conductor run at least sectionally parallel to each other in a circumferential direction of the antenna loop, and wherein sections of the external conductor surrounding the segments of the internal conductor having the interruption are electrically connected, therein providing no interruption of the external conductor in the region of the interruption of the internal conductor.