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Journal Abstract Search

266 related items for PubMed ID: 29869697

  • 61.
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  • 63. Epilepsy surgery in children with tuberous sclerosis.
    Melikyan AG, Kozlova AB, Vlasov PA, Dorofeeva MY, Shishkina LV, Agrba SB.
    Zh Vopr Neirokhir Im N N Burdenko; 2023; 87(2):5-16. PubMed ID: 37011323
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  • 64. Advantages of fluid and white matter suppression (FLAWS) with MP2RAGE compared with double inversion recovery turbo spin echo (DIR-TSE) at 7T.
    Urushibata Y, Kuribayashi H, Fujimoto K, Kober T, Grinstead JW, Isa T, Okada T.
    Eur J Radiol; 2019 Jul; 116():160-164. PubMed ID: 31153559
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  • 65. Epileptogenic but MRI-normal perituberal tissue in Tuberous Sclerosis Complex contains tuber-specific abnormalities.
    Sosunov AA, McGovern RA, Mikell CB, Wu X, Coughlin DG, Crino PB, Weiner HL, Ghatan S, Goldman JE, McKhann GM.
    Acta Neuropathol Commun; 2015 Apr 02; 3():17. PubMed ID: 25853525
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  • 66. Magnetization transfer ratio measurements of the brain in children with tuberous sclerosis complex.
    Zikou A, Ioannidou MC, Tzoufi M, Astrakas L, Argyropoulou MI.
    Pediatr Radiol; 2005 Nov 02; 35(11):1071-4. PubMed ID: 16052334
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  • 67.
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  • 68.
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  • 69. Image quality at synthetic brain magnetic resonance imaging in children.
    Lee SM, Choi YH, Cheon JE, Kim IO, Cho SH, Kim WH, Kim HJ, Cho HH, You SK, Park SH, Hwang MJ.
    Pediatr Radiol; 2017 Nov 02; 47(12):1638-1647. PubMed ID: 28638982
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  • 70. Epilepsy surgery in tuberous sclerosis: the Dutch experience.
    Jansen FE, Van Huffelen AC, Van Rijen PC, Leijten FS, Jennekens-Schinkel A, Gosselaar P, Van Nieuwenhuizen O, Dutch Collaborative Epilepsy Surgery Programme.
    Seizure; 2007 Jul 02; 16(5):445-53. PubMed ID: 17412615
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  • 71. Susceptibility weighted imaging in the diagnostic evaluation of patients with intractable epilepsy.
    Saini J, Kesavadas C, Thomas B, Kapilamoorthy TR, Gupta AK, Radhakrishnan A, Radhakrishnan K.
    Epilepsia; 2009 Jun 02; 50(6):1462-73. PubMed ID: 19400870
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  • 72. Diagnostic value of contrast-enhanced fluid-attenuated inversion-recovery MRI for intracranial tumors in comparison with post-contrast T1W spin-echo MRI.
    Zhou ZR, Shen TZ, Chen XR, Peng WJ.
    Chin Med J (Engl); 2006 Mar 20; 119(6):467-73. PubMed ID: 16584644
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  • 73.
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  • 74. Serial isotropic three-dimensional fast FLAIR imaging: using image registration and subtraction to reveal active multiple sclerosis lesions.
    Tan IL, van Schijndel RA, Pouwels PJ, Adèr HJ, Barkhof F.
    AJR Am J Roentgenol; 2002 Sep 20; 179(3):777-82. PubMed ID: 12185063
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  • 75. Cyst-like tubers are associated with TSC2 and epilepsy in tuberous sclerosis complex.
    Chu-Shore CJ, Major P, Montenegro M, Thiele E.
    Neurology; 2009 Mar 31; 72(13):1165-9. PubMed ID: 19332694
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  • 76. Identifying lesions in paediatric epilepsy using morphometric and textural analysis of magnetic resonance images.
    Kulaseharan S, Aminpour A, Ebrahimi M, Widjaja E.
    Neuroimage Clin; 2019 Mar 31; 21():101663. PubMed ID: 30642755
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  • 77. Magnetic resonance imaging at 3.0 tesla detects more lesions in acute optic neuritis than at 1.5 tesla.
    Nielsen K, Rostrup E, Frederiksen JL, Knudsen S, Mathiesen HK, Hanson LG, Paulson OB.
    Invest Radiol; 2006 Feb 31; 41(2):76-82. PubMed ID: 16428976
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  • 78.
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  • 79. Qualitative comparison of 3-T and 1.5-T MRI in the evaluation of epilepsy.
    Phal PM, Usmanov A, Nesbit GM, Anderson JC, Spencer D, Wang P, Helwig JA, Roberts C, Hamilton BE.
    AJR Am J Roentgenol; 2008 Sep 31; 191(3):890-5. PubMed ID: 18716125
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  • 80. Subependymal Giant Cell Astrocytoma Size Measurement in Tuberous Sclerosis Complex: Noncontrast vs Contrast-Enhanced 3-Dimensional T1-Weighted Magnetic Resonance Imaging (MRI).
    Hill BJ, Gadde JA, Palasis S.
    J Child Neurol; 2019 Dec 31; 34(14):922-927. PubMed ID: 31424303
    [Abstract] [Full Text] [Related]

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