指紋磁振造影中評估訊號收取次數與參數圖譜精密度的方法

Te-Ming Lin; 林德銘

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/53794

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	鍾孝文(Hsiao-Wen Chung)
dc.contributor.author	Te-Ming Lin	en
dc.contributor.author	林德銘	zh_TW
dc.date.accessioned	2021-06-16T02:29:53Z	-
dc.date.available	2015-07-31
dc.date.copyright	2015-07-31
dc.date.issued	2015
dc.date.submitted	2015-07-31
dc.identifier.citation	1. Ma, D., et al., Magnetic resonance fingerprinting. Nature, 2013. 495(7440): p.187-92. 2. Cohen, O., et al., Magnetic Resonance Fingerprinting Trajectory Optimization, in Joint Annual Meeting ISMRM‐ESMRMB 2014. 3. Zhao, B., et al., Accelerated MR parameter mapping with low‐rank and sparsity constraints. Magnetic Resonance in Medicine, 2014. 4. Wang, Z., et al. MRF denoising with compressed sensing and adaptive filtering. in IEEE 11th International Symposium on Biomedical Imaging. 2014. 5. Eo, T.-j., et al., Effective data sharing method for extreme cartesian undersampling in MRF, in Joint Annual Meeting ISMRM‐ESMRMB. 2014. 6. McGivney, D.F., et al., SVD compression for magnetic resonance fingerprinting in the time domain. IEEE Trans Med Imaging, 2014. 33(12): p. 2311-22. 7. Jiang, Y., et al., MR fingerprinting using fast imaging with steady state precession (FISP) with spiral readout. Magnetic Resonance in Medicine, 2014. 8. Jiang, Y., et al., Simultaneous T1, T2, Diffusion and Proton Density Quantification with MR Fingerprinting, in Joint Annual Meeting ISMRM‐ESMRMB. 2014. 9. Christen, T., et al., MR vascular fingerprinting: A new approach to compute cerebral blood volume, mean vessel radius, and oxygenation maps in the human brain. Neuroimage, 2014. 89: p. 262-270. 10. Gao, Y., et al., Preclinical MR fingerprinting (MRF) at 7 T: effective quantitative imaging for rodent disease models. NMR in Biomedicine, 2015. 28(3): p. 384-394. 11. Schmitt, P., et al., Inversion recovery TrueFISP: quantification of T1, T2, and spin density. Magnetic resonance in medicine, 2004. 51(4): p. 661-667. 12. Bernstein, M.A., K.F. King, and X.J. Zhou, Handbook of MRI pulse sequences. 2004, Amsterdam; Boston: Academic Press. 13. Bittoun, J., J. Taquin, and M. Sauzade, A computer algorithm for the simulation of any nuclear magnetic resonance (NMR) imaging method. Magnetic Resonance Imaging, 1984. 2(2): p. 113-120. 14. Tropp, J.A. and A.C. Gilbert, Signal recovery from random measurements via orthogonal matching pursuit. Ieee Transactions on Information Theory, 2007. 53(12): p. 4655-4666. 15. Ma, D., et al., MR Fingerprinting: Rapid Simultaneous Quantification of T1, T2, Proton Density and Off‐Resonance Using a Spiral Trajectory, in ISMRM 21st Annual Meeting & Exhibition. 2013.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/53794	-
dc.description.abstract	指紋磁振造影是一項同時定量多種磁振造影參數的新方法。其利用一系列隨機的射頻脈衝序列，使不同組織產生不同的信號，再利用模式辨認方法，將量測到的信號與事先模擬的信號字典進行比對，進而得到組織的參數。在指紋磁振造影中，信號量測的次數影響最終的信號長度。信號長度越長，信號字典越大，實驗所需的時間與電腦計算的複雜度都會隨之增加。然而，當信號量測次數減少，參數圖譜的精確度也會隨之改變。為了設計出理想的脈衝序列，我們需要一種評估精確度的方法。在本篇論文中，我們提出一項參數映射變異指標，可以用以反應參數圖譜的精確度。此外，這個指標可以在掃描前預測參數圖譜精確度隨不同信號收取次數的變化，進而提供實驗前脈衝序列設計參考。	zh_TW
dc.description.abstract	MR Fingerprinting (MRF) is a novel technique to quantify multiple MR parameters simultaneously. A train of pseudorandomized radiofrequency (RF) excitations are used to generate unique signal evolution for different tissues, followed by matching the measured signals to a pre-established dictionary. The signal acquisition number in MRF is related to the signal length. Longer signals and larger dictionaries increase the scan time and computational complexity. However, as the signal acquisition reduces, the mapping precision also changes. Therefore, for designing an efficient MRF sequence, a method to evaluate the precision change is necessary. In this thesis, we propose a mapping variation index to reflect the mapping precision in MRF. Besides, this index can predict the precision change under different signal acquisition numbers before MRF scans and provide a reference for sequence designers to modify the signal acquisition number.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T02:29:53Z (GMT). No. of bitstreams: 1 ntu-104-R02945023-1.pdf: 4238111 bytes, checksum: 074a25a5ee1e57e1f04ac072aed7e1e9 (MD5) Previous issue date: 2015	en
dc.description.tableofcontents	致謝 ................................................................. I 中文摘要 ............................................................ II Abstract............................................................ III Table of Figures..................................................... VI Chapter 1 Introduction................................................ 1 1.1 Problem statement................................................. 1 1.2 Thesis outline.................................................... 2 Chapter 2 Background.................................................. 3 2.1 Principles of MR fingerprinting................................... 3 2.2 Signal simulation................................................. 6 2.3 Dictionary matching............................................... 7 2.3.1 The signal recovery problem in orthogonal matching pursuit...... 8 2.3.2 The algorithm and solution in orthogonal matching pursuit...... 10 2.3.3 MRF matching by the orthogonal matching pursuit................ 11 2.4 Pulse sequence design............................................ 13 Chapter 3 Predict MRF mapping precision.............................. 14 3.1 Introduction..................................................... 14 3.2 Method .......................................................... 15 3.2.1 MRF randomized parameters ..................................... 15 3.2.2 Parameter matching space ...................................... 16 3.2.3 Mapping variation index........................................ 18 3.2.4 Mapping precision change under different signal acquisition numbers... 19 3.2.5 Simulate indexes of different tissues by dictionary entries.... 20 3.3 Result .......................................................... 20 3.4 Discussion ...................................................... 21 Chapter 4 Coefficient of variation for MRF mapping results .......... 23 4.1 Introduction..................................................... 23 4.2 Method .......................................................... 23 4.2.1 MR sequence ................................................... 23 4.2.2 MRF signal evolution and mapping .............................. 25 4.2.3 Simulate MRF mapping under different signal acquisition numbers 25 4.2.4 MRF mapping precision under different signal acquisition number 26 4.3 Result .......................................................... 27 4.4 Discussion ...................................................... 33 Chapter 5 Discussion and future work ................................ 37 5.1 Contour threshold selection...................................... 37 5.2 Accuracy in MR fingerprinting ................................... 39 5.3 Underestimation of the T2 value ................................. 40 References .......................................................... 42
dc.language.iso	en
dc.subject	指紋磁振造影	zh_TW
dc.subject	參數圖譜	zh_TW
dc.subject	參數圖譜精密度	zh_TW
dc.subject	脈衝序列最佳化	zh_TW
dc.subject	Pulse sequence optimization	en
dc.subject	Magnetic resonance fingerprinting	en
dc.subject	Parametric mapping	en
dc.subject	Mapping precision	en
dc.title	指紋磁振造影中評估訊號收取次數與參數圖譜精密度的方法	zh_TW
dc.title	A method to evaluate the relationship between signal acquisition number and parametric mapping precision in MR fingerprinting	en
dc.type	Thesis
dc.date.schoolyear	103-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	趙梓程(Tzu-Cheng Chao),蔡尚岳(Shang Yueh Tsai),林發暄(Fa-Hsuan Lin),曾文毅(Wen-Yih Isaac Tseng)
dc.subject.keyword	指紋磁振造影,參數圖譜,參數圖譜精密度,脈衝序列最佳化,	zh_TW
dc.subject.keyword	Magnetic resonance fingerprinting,Parametric mapping,Mapping precision,Pulse sequence optimization,	en
dc.relation.page	42
dc.rights.note	有償授權
dc.date.accepted	2015-07-31
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	生醫電子與資訊學研究所	zh_TW
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