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Journal Abstract Search

255 related items for PubMed ID: 37202655

  • 1. 3D magnetic resonance fingerprinting on a low-field 50 mT point-of-care system prototype: evaluation of muscle and lipid relaxation time mapping and comparison with standard techniques.
    O'Reilly T, Börnert P, Liu H, Webb A, Koolstra K.
    MAGMA; 2023 Jul; 36(3):499-512. PubMed ID: 37202655
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  • 4. Ultrashort echo time magnetic resonance fingerprinting (UTE-MRF) for simultaneous quantification of long and ultrashort T2 tissues.
    Li Q, Cao X, Ye H, Liao C, He H, Zhong J.
    Magn Reson Med; 2019 Oct; 82(4):1359-1372. PubMed ID: 31131911
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  • 5. Spiral blurring correction with water-fat separation for magnetic resonance fingerprinting in the breast.
    Nolte T, Gross-Weege N, Doneva M, Koken P, Elevelt A, Truhn D, Kuhl C, Schulz V.
    Magn Reson Med; 2020 Apr; 83(4):1192-1207. PubMed ID: 31631385
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  • 6. Simultaneous T1 , T2 , and T relaxation mapping of the lower leg muscle with MR fingerprinting.
    Sharafi A, Medina K, Zibetti MWV, Rao S, Cloos MA, Brown R, Regatte RR.
    Magn Reson Med; 2021 Jul; 86(1):372-381. PubMed ID: 33554369
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  • 7. Temperature dependence, accuracy, and repeatability of T1 and T2 relaxation times for the ISMRM/NIST system phantom measured using MR fingerprinting.
    Statton BK, Smith J, Finnegan ME, Koerzdoerfer G, Quest RA, Grech-Sollars M.
    Magn Reson Med; 2022 Mar; 87(3):1446-1460. PubMed ID: 34752644
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  • 8. Accuracy, repeatability, and reproducibility of T1 and T2 relaxation times measurement by 3D magnetic resonance fingerprinting with different dictionary resolutions.
    Wicaksono KP, Fushimi Y, Nakajima S, Sakata A, Okuchi S, Hinoda T, Oshima S, Otani S, Tagawa H, Urushibata Y, Nakamoto Y.
    Eur Radiol; 2023 Apr; 33(4):2895-2904. PubMed ID: 36422648
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  • 9. Water-fat separation in spiral magnetic resonance fingerprinting for high temporal resolution tissue relaxation time quantification in muscle.
    Koolstra K, Webb AG, Veeger TTJ, Kan HE, Koken P, Börnert P.
    Magn Reson Med; 2020 Aug; 84(2):646-662. PubMed ID: 31898834
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  • 12. Toward magnetic resonance fingerprinting for low-field MR-guided radiation therapy.
    Mickevicius NJ, Kim JP, Zhao J, Morris ZS, Hurst NJ, Glide-Hurst CK.
    Med Phys; 2021 Nov; 48(11):6930-6940. PubMed ID: 34487357
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  • 13. Quantitative imaging metrics derived from magnetic resonance fingerprinting using ISMRM/NIST MRI system phantom: An international multicenter repeatability and reproducibility study.
    Shridhar Konar A, Qian E, Geethanath S, Buonincontri G, Obuchowski NA, Fung M, Gomez P, Schulte R, Cencini M, Tosetti M, Schwartz LH, Shukla-Dave A.
    Med Phys; 2021 May; 48(5):2438-2447. PubMed ID: 33690905
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  • 15. MR fingerprinting for rapid quantification of myocardial T1 , T2 , and proton spin density.
    Hamilton JI, Jiang Y, Chen Y, Ma D, Lo WC, Griswold M, Seiberlich N.
    Magn Reson Med; 2017 Apr; 77(4):1446-1458. PubMed ID: 27038043
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  • 16. Streamlined magnetic resonance fingerprinting: Fast whole-brain coverage with deep-learning based parameter estimation.
    Khajehim M, Christen T, Tam F, Graham SJ.
    Neuroimage; 2021 Sep; 238():118237. PubMed ID: 34091035
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  • 20. MR fingerprinting with simultaneous T1, T2, and fat signal fraction estimation with integrated B0 correction reduces bias in water T1 and T2 estimates.
    Ostenson J, Damon BM, Welch EB.
    Magn Reson Imaging; 2019 Jul; 60():7-19. PubMed ID: 30910696
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