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European Radiology
Erschienen in: European Radiology 11/2019

19.03.2019 | Magnetic Resonance

Radial MP2RAGE sequence for rapid 3D T1 mapping of mouse abdomen: application to hepatic metastases

verfasst von: Thibaut L. Faller, Aurélien J. Trotier, Sylvain Miraux, Emeline J. Ribot

Erschienen in: European Radiology | Ausgabe 11/2019

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Abstract

Objectives

The T1 longitudinal recovery time is regarded as a biomarker of cancer treatment efficiency. In this scope, the Magnetization Prepared 2 RApid Gradient Echo (MP2RAGE) sequence relevantly complies with fast 3D T1 mapping. Nevertheless, with its Cartesian encoding scheme, it is very sensitive to respiratory motion. Consequently, a radial encoding scheme was implemented for the detection and T1 measurement of hepatic metastases in mice at 7T.

Methods

A 3D radial encoding scheme was developed using a golden angle distribution for the k-space trajectories. As in that case, each projection contributes to the image contrast, the signal equations had to be modified. Phantoms containing increasing gadoteridol concentrations were used to determine the accuracy of the sequence in vitro. Healthy mice were repetitively scanned to assess the reproducibility of the T1 values. The growth of hepatic metastases was monitored. Undersampling robustness was also evaluated.

Results

The accuracy of the T1 values obtained with the radial MP2RAGE sequence was > 90% compared to the Inversion-Recovery sequence. The motion robustness of this new sequence also enabled repeatable T1 measurements on abdominal organs. Hepatic metastases of less than 1-mm diameter were easily detected and T1 heterogeneities within the metastasis and between the metastases within the same animal were measured. With a twofold acceleration factor using undersampling, high-quality 3D T1 abdominal maps were achieved in 9 min.

Conclusions

The radial MP2RAGE sequence could be used for fast 3D T1 mapping, to detect and characterize metastases in regions subjected to respiratory motion.

Key Points

• The Cartesian encoding of the MP2RAGE sequence was modified to a radial encoding. The modified sequence enabled accurate T 1 measurements on phantoms and on abdominal organs of mice.
• Hepatic metastases were easily detected due to high contrast. Heterogeneity in T 1 was measured within the metastases and between each metastasis within the same animal.
• As implementation of this sequence does not require specific hardware, we expect that it could be readily available for clinical practice in humans.
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Literatur
1.
Weidensteiner C, Allegrini PR, Sticker-Jantscheff M, Romanet V, Ferretti S, McSheehy PMJ (2014) Tumour T1 changes in vivo are highly predictive of response to chemotherapy and reflect the number of viable tumour cells – a preclinical MR study in mice. BMC Cancer 14:88–100CrossRef
2.
Ravoori MK, Nishimura M, Singh SP, Lu C, Han L (2015) Tumor T1 relaxation time for assessing response to bevacizumab anti-angiogenic therapy in a mouse ovarian cancer model. PLoS One 10:1–13CrossRef
3.
Chuang K-H, Koretsky A (2006) Improved neuronal tract tracing using manganese enhanced magnetic resonance imaging with fast T(1) mapping. Magn Reson Med 55:604–611CrossRef
4.
Castets CR, Koonjoo N, Hertanu A et al (2016) In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence. Sci Rep 6:39449–39457CrossRef
5.
Glover GH, Pauly JM (1992) Projection reconstruction techniques for reduction of motion effects in MRI. Magn Reson Med 28:275–289CrossRef
6.
Nezafat M, Ramos IT, Henningsson M, Protti A, Basha T, Botnar R (2017) Improved segmented modified Look-Locker inversion recovery T1 mapping sequence in mice. PLoS One 12:e0187621CrossRef
7.
Messroghli DR, Nordmeyer S, Buehrer M et al (2011) Small animal Look-Locker inversion recovery (SALLI) for simultaneous generation of cardiac T1 maps and cine and inversion recovery-prepared images at high heart rates: initial experience. Radiology 261:258–265CrossRef
8.
Winter P, Kampf T, Helluy X et al (2016) Self-navigation under non-steady-state conditions: cardiac and respiratory self-gating of inversion recovery snapshot FLASH acquisitions in mice. Magn Reson Med 76:1887–1894CrossRef
9.
Castets CR, Ribot EJ, Lefrançois W et al (2015) Fast and robust 3D T 1 mapping using spiral encoding and steady RF excitation at 7T: application to cardiac manganese enhanced MRI (MEMRI) in mice. NMR Biomed 28:881–889CrossRef
10.
Wang D, Zwart NR, Pipe JG (2017) Joint water-fat separation and deblurring for spiral imaging. Magn Reson Med 79:3218–3228CrossRef
11.
Coolen BF, Geelen T, Paulis LEM, Nauerth A, Nicolay K, Strijkers GJ (2011) Three-dimensional T1 mapping of the mouse heart using variable flip angle steady-state MR imaging. NMR Biomed 24:154–162CrossRef
12.
Stikov N, Boudreau M, Levesque IR, Tardif C, Barral K, Pike GB (2015) On the accuracy of T1 mapping: searching for common ground. Magn Reson Med 522:514–522
13.
Marques JP, Kober T, Krueger G, van der Zwaag W (2010) NeuroImage MP2RAGE , a self-bias-field corrected sequence for improved segmentation and T1-mapping at high field. Neuroimage 49:1271–1281CrossRef
14.
Næss-Schmidt ET, Tietze A, Mikkelsen IK et al (2015) Patch-based segmentation from MP2RAGE images: comparison to conventional techniques. First International Workshop on Patch-based Techniques in Medical Images (Patch-MI 2015), Oct 2015, Munich, Germany. Patch-Based Techniques in Medical Imaging First International Work- shop, Patch-MI 2015, held in conjunction with MICCAI 2015, Munich, Germany, October 9, 2015, Revised Selected Papers, 9467, pp.180-187, 2016, Lecture Notes in Computer Science. <10.1007/978-3-319-28194-0 22>. <hal-01290510>
15.
Fujimoto K, Polimeni JR, van der Kouwe AJW et al (2014) Quantitative comparison of cortical surface reconstructions from MP2RAGE and multi-echo MPRAGE data at 3 and 7T. Neuroimage 90:60–73CrossRef
16.
Marques JP, Gruetter R (2013) New developments and applications of the MP2RAGE sequence - focusing the contrast and high spatial resolution R1 mapping. PLoS One 8:e69294CrossRef
17.
Trotier A, Rappachi S, Faller T, Miraux S, Ribot EJ (2019) Compressed-sensing MP2RAGE sequence: application to the detection of brain metastases in mice at 7T. Magn Reson Med 81:551–559CrossRef
18.
Driencourt L, Romero CJ, Lepore M, Eggenschwiler F, Reynaud O, Just N (2017) T1 mapping of the mouse brain following fractionated manganese administration using MP2RAGE. Brain Struct Funct 222:201–214CrossRef
19.
Koktzoglou I (2013) 4D dark blood arterial wall magnetic resonance imaging: methodology and demonstration in the carotid arteries. Magn Reson Med 69:956–965CrossRef
20.
Beaumont M, Lamalle L, Segebarth C, Barbier EL (2007) Improved k-space trajectory measurement with signal shifting. Magn Reson Med 58(1):200–205CrossRef
21.
Morris VL, MacDonald IC, Koop S, Schmidt EE, Chambers AF, Groom AC (1993) Early interactions of cancer cells with the microvasculature in mouse liver and muscle during hematogenous metastasis: videomicroscopic analysis. Clin Exp Metastasis 11:377–390CrossRef
22.
Ribot EJ, Duriez TJ, Trotier AJ, Thiaudiere E, Franconi JM, Miraux S (2015) Self-gated bSSFP sequences to detect iron-labeled cancer cells and/or metastases in vivo in mouse liver at 7 Tesla. J Magn Reson Imaging 41:1413–1421CrossRef
23.
Limentani GB, Ringo MC, Ye F, Bergquist ML, MacSorley EO (2005) Beyond the t-test: statistical equivalence testing. Anal Chem 77:221–226CrossRef
24.
Ribot EJ, Trotier AJ, Castets CR et al (2016) Free-breathing 3D diffusion MRI for high-resolution hepatic metastasis characterization in small animals. Clin Exp Metastasis 33:167–178CrossRef
25.
Guilfoyle DN, Dyakin VV, O’Shea J, Pell GS, Helpern JA (2003) Quantitative measurements of proton spin-lattice (T1) and spin-spin (T2) relaxation times in the mouse brain at 7.0 T. Magn Reson Med 49:576–580CrossRef
26.
Lee DK, Han S, Cho HJ (2017) Optimization of sparse phase encodings for variable repetition-delay turbo-spin echo (TSE) T1 measurements for preclinical applications. J Magn Reson 274:57–64CrossRef
27.
Rioux JA, Levesque IR, Rutt BK (2016) Biexponential longitudinal relaxation in white matter: characterization and impact on T1 mapping with IR-FSE and MP2RAGE. Magn Reson Med 75:2265–2277CrossRef
28.
Kecskemeti S, Samsonov A, Hurley SA, Dean DC, Field A, Alexander AL (2016) MPnRAGE: a technique to simultaneously acquire hundreds of differently contrasted MPRAGE images with applications to quantitative T1 mapping. Magn Reson Med 75:1040–1053
29.
Feng L, Axel L, Chandarana H, Block KT, Sodickson DK, Otazo R (2016) XD-GRASP: golden-angle radial MRI with reconstruction of extra motion-state dimensions using compressed sensing. Magn Reson Med 75:775–788CrossRef
30.
Huang C, Graff CG, Clarkson EW, Bilgin A, Altbach MI (2012) T2 mapping from highly undersampled data by reconstruction of principal component coefficient maps using compressed sensing. Magn Reson Med 67:1355–1366CrossRef
31.
Weingärtner S, Akçakaya M, Roujol S et al (2015) Free-breathing post-contrast three-dimensional T1 mapping: volumetric assessment of myocardial T1 values. Magn Reson Med 73:214–222CrossRef
32.
Bhave S, Lingala SG, Johnson CP, Magnotta VA, Jacob M (2016) Accelerated whole-brain multi-parameter mapping using blind compressed sensing. Magn Reson Med 75:1175–1186CrossRef
33.
Shin W, Shin T, Oh S-H, Lowe MJ (2016) CNR improvement of MP2RAGE from slice encoding directional acceleration. Magn Reson Imaging 34:779–784CrossRef
Metadaten
Titel
Radial MP2RAGE sequence for rapid 3D T1 mapping of mouse abdomen: application to hepatic metastases
verfasst von
Thibaut L. Faller
Aurélien J. Trotier
Sylvain Miraux
Emeline J. Ribot
Publikationsdatum
19.03.2019
Verlag
Springer Berlin Heidelberg
Erschienen in
European Radiology / Ausgabe 11/2019
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI
https://doi.org/10.1007/s00330-019-06081-3

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