Adaptive SAR mass‐averaging framework to improve predictions of local RF heating near a hip implant for parallel transmit at 7 T

Purpose Magnetic resonance imaging is used increasingly to scan patients with hip prostheses. We evaluated the reliability of 10 g–averaged specific absorption rate (SAR 10g ) to predict radiofrequency (RF) heating in tissues surrounding a hip implant at 7 T in an 8‐channel pTx hip coil. A new adaptive SAR mass‐averaging method is proposed to improve the correlation between the distribution of mass‐averaged SAR and that of tissue temperature. Methods Currently, RF safety standards for implants are based on temperature instead of SAR, as SAR has not been introduced with regard to exposure scenarios with implants. In this manuscript, however, adaptive SAR is proposed for fast and reliable exposure evaluation with implants, after its correlation with tissue temperature is verified. A framework to calculate adaptive SAR mass‐averaging was introduced, which uses a different averaging mass in tissues surrounding the implants and was designed to prevent the temperature from exceeding 39ºC. Predictions from SAR 10g and adaptive SAR were compared with thermal simulations. Results The SAR 10g method failed to predict both the location and amplitude of heating in tissue near the metal implants. In some cases, the temperature far exceeded 39ºC even when SAR 10g was only 70% of the maximum allowed 10 W/kg. The distributions of adaptive SAR and temperature matched in most of the configurations, and the temperature remained below 39ºC when adaptive SAR was constrained. Conclusion Adaptive SAR can accurately monitor RF heating and could be used for parallel transmit at 7 T to supplement current standards.