Purpose: Same-breath acquisition of 1 H and hyperpolarized gases (3 He and 129 Xe) in the lungs provides complementary information on pulmonary structure and function with inherent spatial-temporal registration of the images from the different nuclei. To date 1 H images have been acquired using the MR system's body coil, which has low SNR when compared with dedicated receiver-array coils. This study demonstrates the design and application of a dedicated 1 H receiver array to improve the 1 H lung SNR for use in same-breath acquisition with hyperpolarized gas 3 He or 129 Xe at 1.5 Tesla.
Theory and methods: A four-loop dedicated receiver-array was developed in-house for 1 H lung MRI to work in compatibility with existing 3 He/129 Xe transmit-receive coils. As part of the design process, a new generalized circuit formalism was developed for trap circuits for such a dedicated 1 H receiver array at 63.8 MHz with traps for 3 He 48.6 MHz and 129 Xe 17.7 MHz.
Results: The 1 H lung image SNR from the novel 1 H array was twice that observed with the 1 H body coil when used in same-breath acquisition with the 3 He or 129 Xe T-R coil in situ.
Conclusion: An array coil to improve 1 H SNR of the lung in same-breath acquisition with hyperpolarized gases has been demonstrated. Magn Reson Med 74:291-299, 2015. © 2014 Wiley Periodicals, Inc.
Keywords: hyperpolarized gas; lungs; pulmonary; receiver array.
© 2014 Wiley Periodicals, Inc.