PURPOSE: Arterial spin labeling (ASL) perfusion imaging with a segmented three-dimensional (3D) readout is becoming increasing popular, yet conventional motion correction approaches cannot be applied in segmented imaging. The purpose of this study was to demonstrate the integration of 3D pseudocontinuous ASL (PCASL) and PROMO (PROspective MOtion correction) for cerebral blood flow measurements. METHODS: PROMO was integrated into 3D PCASL without increasing repetition time. PCASL was performed with and without PROMO in the absence of motion. The performance of PCASL-PROMO was then evaluated with controlled motions using separate scans with and without PROMO and also with random motion using an interleaved scan where every repetition time is repeated twice, once with and once without PROMO. RESULTS: The difference in the average ASL signal of the 3D volume between conventional and PROMO implementations was negligible (<0.2%). ASL image artifacts from both controlled and random motions were removed significantly with PROMO, showing improved correlation with reference images. Multiple combinations of data acquired using the interleaved scan revealed that PROMO with real-time motion updating alone reduces motion artifact significantly and that rescanning of corrupted segments is more critical in tagged images than control images. CONCLUSION: This study demonstrates that PROMO is a successful approach to motion correction for PCASL cerebral blood flow imaging.
PURPOSE: Arterial spin labeling (ASL) perfusion imaging with a segmented three-dimensional (3D) readout is becoming increasing popular, yet conventional motion correction approaches cannot be applied in segmented imaging. The purpose of this study was to demonstrate the integration of 3D pseudocontinuous ASL (PCASL) and PROMO (PROspective MOtion correction) for cerebral blood flow measurements. METHODS:PROMO was integrated into 3D PCASL without increasing repetition time. PCASL was performed with and without PROMO in the absence of motion. The performance of PCASL-PROMO was then evaluated with controlled motions using separate scans with and without PROMO and also with random motion using an interleaved scan where every repetition time is repeated twice, once with and once without PROMO. RESULTS: The difference in the average ASL signal of the 3D volume between conventional and PROMO implementations was negligible (<0.2%). ASL image artifacts from both controlled and random motions were removed significantly with PROMO, showing improved correlation with reference images. Multiple combinations of data acquired using the interleaved scan revealed that PROMO with real-time motion updating alone reduces motion artifact significantly and that rescanning of corrupted segments is more critical in tagged images than control images. CONCLUSION: This study demonstrates that PROMO is a successful approach to motion correction for PCASL cerebral blood flow imaging.
Authors: Hao Song; Dan Ruan; Wenyang Liu; V Andrew Stenger; Rolf Pohmann; Maria A Fernández-Seara; Tejas Nair; Sungkyu Jung; Jingqin Luo; Yuichi Motai; Jingfei Ma; John D Hazle; H Michael Gach Journal: Med Phys Date: 2017-02-21 Impact factor: 4.071
Authors: David C Alsop; John A Detre; Xavier Golay; Matthias Günther; Jeroen Hendrikse; Luis Hernandez-Garcia; Hanzhang Lu; Bradley J MacIntosh; Laura M Parkes; Marion Smits; Matthias J P van Osch; Danny J J Wang; Eric C Wong; Greg Zaharchuk Journal: Magn Reson Med Date: 2014-04-08 Impact factor: 4.668
Authors: W Alan C Mutch; Michael J Ellis; Lawrence N Ryner; Patrick J McDonald; Marc P Morissette; Philip Pries; Marco Essig; David J Mikulis; James Duffin; Joseph A Fisher Journal: Front Neurol Date: 2018-01-24 Impact factor: 4.003