In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Castets, Charles; Koonjoo, Néha; Hertanu, Andreea; Voisin, Pierre; Franconi, Jean‐Michel; Miraux, Sylvain; Ribot, Emeline J.

doi:10.1038/srep39449

Cited by 10 publications

(15 citation statements)

References 45 publications

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“…Even though the MP2RAGE TR was set at 6.2 s to maximize the acceleration of the MP2RAGE sequence, it could be lengthened to accommodate for imaging at high magnetic fields. Nonetheless, the T 1 of the mouse brain cortex and metastases measured in vivo were similar to the wide range of values found in the literature and were not modified when applying CS. In the case of very small structures, spatial smoothing can occur and affect the measurements.…”

Section: Discussionsupporting

confidence: 82%

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

Trotier

Rapacchi

Faller

et al. 2018

Magnetic Resonance in Med

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Section: Discussionsupporting

confidence: 82%

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

Trotier

Rapacchi

Faller

et al. 2018

Magnetic Resonance in Med

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“…Fast T 1 mapping of the whole mouse brain with the MS‐MP2RAGE sequence showed the ability to measure T 1 values with low variations along time (less than 1%). The in vivo T 1 values measured with the MS‐MP2RAGE sequence had to be corrected for the inversion efficiency, leading to values within the range found in the existing literature . This study highlights the potential of this sequence to be used during longitudinal studies.…”

Section: Discussionmentioning

confidence: 73%

2D multislice MP2RAGE sequence for fast T₁ mapping at 7 T: Application to mouse imaging and MR thermometry

Faller

Trotier

Rousseau

et al. 2020

Magnetic Resonance in Med

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Purpose:To develop a 2D radial multislice MP2RAGE sequence for fast and reliable T 1 mapping at 7 T in mice and for MR thermometry. Methods: The 2D-MP2RAGE sequence was performed with the following parameters: TI 1 -TI 2 -MP2RAGE TR = 1000-3000-9000 ms. The multiple dead times within the sequence were used for interleaved multislice acquisition, enabling one to acquire six slices in 9 seconds. The excitation pulse shape, inversion selectivity, and interslice gap were optimized. In vitro comparison with the inversion-recovery sequence was performed. The T 1 variations with temperature were measured on tubes with T 1 ranging from 800 ms to 2000 ms. The sequence was used to acquire T 1 maps continuously during 30 minutes on the brain and abdomen of healthy mice. Results: A three-lobe cardinal sine excitation pulse, combined with an inversion slice thickness and an interslice gap of respectively 150% and 50% of the imaging slice thickness, led to a SD and bias of the T 1 measurements below 1% and 2%, respectively. A linear dependence of T 1 with temperature was measured between 10°C and 60°C. In vivo, less than 1% variation was measured between successive T 1 maps in the mouse brain. In the abdomen, no obvious in-plane motion artifacts were observed but respiratory motion in the slice dimension led to 6% T 1 underestimation. Conclusion: The multislice MP2RAGE sequence could be used for fast wholebody T 1 mapping and MR thermometry. Its reconstruction method would enable onthe-fly reconstruction.

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“…Previous in vitro studies demonstrated the link between CaSR and TRPV6, where TRPV6 action induces calcium ions entry in CaSR [39,40]. The potential leading role of calcium receptors in manganese uptake has also been recently demonstrated by Castets CR et al, in a study where breast or glioma cancer cells lines pre-treated with Mn 2+ and then incubated with calcium blockers enabled to retain Mn 2+ ions into the cells [41].…”

Section: Plos Onementioning

confidence: 76%

Manganese-enhanced MRI (MEMRI) in breast and prostate cancers: Preliminary results exploring the potential role of calcium receptors

et al. 2020

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Procedures To preliminary assess the relationship between Manganese Enhanced Magnetic Resonance Imaging (MEMRI) and the expression of calcium receptors in human prostate and breast cancer animal models. Methods NOD/SCID mice were inoculated with MDA-MB-231 breast cancer cells and prostate PC3 cancer cells to develop orthotopic or pseudometastatic cancer animal models. Mice were studied on a clinical 3T scanner by using a prototype birdcage coil before and after intravenous injection of MnCl 2. Assessment of receptor's status was carried out after the MR images acquisition by immunohistochemistry on excised tumours. Results Manganese contrast enhancement in breast or prostate cancer animal models well correlated with CaSR expression (p<0.01), whereas TRPV6 expression levels appeared not relevant to the Mn uptake. Conclusion Our preliminary results suggest that MEMRI appears an efficient tool to characterize human breast and prostate cancer animal models in the presence of different expression level of calcium receptors.

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In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Cited by 10 publications

References 45 publications

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

2D multislice MP2RAGE sequence for fast T₁ mapping at 7 T: Application to mouse imaging and MR thermometry

Manganese-enhanced MRI (MEMRI) in breast and prostate cancers: Preliminary results exploring the potential role of calcium receptors

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In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Cited by 10 publications

References 45 publications

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

Compressed‐Sensing MP2RAGE sequence: Application to the detection of brain metastases in mice at 7T

2D multislice MP2RAGE sequence for fast T1 mapping at 7 T: Application to mouse imaging and MR thermometry

Manganese-enhanced MRI (MEMRI) in breast and prostate cancers: Preliminary results exploring the potential role of calcium receptors

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2D multislice MP2RAGE sequence for fast T₁ mapping at 7 T: Application to mouse imaging and MR thermometry