Purpose: To propose and test a universal strategy for building F-19/H-1 dual-frequency RF coil that permits multiple coil geometries.
Materials and Methods: The feasibility to design F-19/H-1 dual-frequency RF coil based on coupled resonator model was investigated. A series capacitive matching network enables robust impedance matching for both harmonic oscillating modes of the coupled resonator. Two typical designs of F-19/H-1 volume coils (birdcage and saddle) at 4.7T were implemented and evaluated with electrical bench test and in vivo F-19/H-1 dual-nuclei imaging.
Results: For various combinations of internal resistances of the sample coil and secondary resonator, numerical solutions for the tunable capacitors to optimize impedance matching were obtained using a root-seeking program. Identical and homogeneous B1 field distribution at F-19 and H-1 frequencies were observed in bench test and phantom image. Finally, in vivo mouse imaging confirmed the sensitivity and homogeneity of the F-19/H-1 dual-frequency coil design.
Conclusion: A generalized strategy for designing F-19/H-1 dual-frequency coils based on the coupled resonator approach was developed and validated. A unique feature of this design is that it preserves the B1 field homogeneity of the RF coil at both resonant frequencies. Thus it minimizes the susceptibility effect on image co-registration.

• 出版日期2011-7