Specific absorption rate monitor for in-vivo parallel transmission at 7 Tesla
نویسندگان
چکیده
When using a transmit array at high field, it is well established that high local specific absorption rate (SAR) values can occur [1]. In order to guarantee patient safety without harsh limitations to in-vivo transmit-SENSE [2] applications, subtle SAR monitoring is therefore necessary. In the recent past, a comprehensive solution involving pre-calculated B1-field-maps and local pickup-coils was demonstrated at 3 Tesla [3]. In this work, we report the implementation of a similar design at 7 Tesla, this time based on the real-time measurement of the individual power outputs of the RF amplifiers, combined with pre-calculated simulations over a variety of human head models and positions.
منابع مشابه
Local SAR in parallel transmission pulse design.
The management of local and global power deposition in human subjects (specific absorption rate, SAR) is a fundamental constraint to the application of parallel transmission (pTx) systems. Even though the pTx and single channel have to meet the same SAR requirements, the complex behavior of the spatial distribution of local SAR for transmission arrays poses problems that are not encountered in ...
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تاریخ انتشار 2009