PURPOSE: To evaluate the usefulness of MRI detection of hypointensity areas (iron deposits) in the brain using a dedicated MRI technique in patients with ALS in establishing this sign as a potential surrogate biomarker that correlates with the severity of disease. MATERIALS AND METHODS: Forty-six ALS patients and 26 age-matched controls were examined by MRI. The ALS Functional Rating Scale (ALSFRS) score was determined before the first MRI examination. The sub-set of 25 ALS patients was re-examined around 6 months after the first MRI examination. The MRI examination consisted of routine T1W, T2W, and FLAIR sequences with the addition of a thin slice heavily T2* weighted sequence to accentuate magnetic susceptibility artifacts. RESULTS: T2*W sequence is superior to any other MRI sequence in detecting hypointensities in the brain of ALS patients. Hypointensities were found only in the precentral gyruses gray matter (PGGM) and were detected in 42 patients. The extent of hypointensities was measured and scored (0-3) and correlated with ALSFRS (r = -0.545). Twenty-five patients were re-examined 6 months later, and the majority of them showed the shift toward higher MRI scores. No control subjects had hypointensities in PGGM. CONCLUSION: The detection of hypointensities in PGGM appears to be a very promising surrogate MRI biomarker for ALS due to its simplicity, high sensitivity and specificity, suitability for longitudinal studies, and relationship with the pathogenesis of the disease.
PURPOSE: To evaluate the usefulness of MRI detection of hypointensity areas (iron deposits) in the brain using a dedicated MRI technique in patients with ALS in establishing this sign as a potential surrogate biomarker that correlates with the severity of disease. MATERIALS AND METHODS: Forty-six ALSpatients and 26 age-matched controls were examined by MRI. The ALS Functional Rating Scale (ALSFRS) score was determined before the first MRI examination. The sub-set of 25 ALSpatients was re-examined around 6 months after the first MRI examination. The MRI examination consisted of routine T1W, T2W, and FLAIR sequences with the addition of a thin slice heavily T2* weighted sequence to accentuate magnetic susceptibility artifacts. RESULTS: T2*W sequence is superior to any other MRI sequence in detecting hypointensities in the brain of ALSpatients. Hypointensities were found only in the precentral gyruses gray matter (PGGM) and were detected in 42 patients. The extent of hypointensities was measured and scored (0-3) and correlated with ALSFRS (r = -0.545). Twenty-five patients were re-examined 6 months later, and the majority of them showed the shift toward higher MRI scores. No control subjects had hypointensities in PGGM. CONCLUSION: The detection of hypointensities in PGGM appears to be a very promising surrogate MRI biomarker for ALS due to its simplicity, high sensitivity and specificity, suitability for longitudinal studies, and relationship with the pathogenesis of the disease.
Authors: M Cosottini; G Donatelli; M Costagli; E Caldarazzo Ienco; D Frosini; I Pesaresi; L Biagi; G Siciliano; M Tosetti Journal: AJNR Am J Neuroradiol Date: 2015-12-17 Impact factor: 3.825
Authors: Andrew D Schweitzer; Tian Liu; Ajay Gupta; Karen Zheng; Stephen Seedial; Alexander Shtilbans; Mona Shahbazi; Dale Lange; Yi Wang; A John Tsiouris Journal: AJR Am J Roentgenol Date: 2015-05 Impact factor: 3.959
Authors: Charlotte Veyrat-Durebex; Philippe Corcia; Aleksandra Mucha; Simon Benzimra; Cindy Mallet; Chantal Gendrot; Caroline Moreau; David Devos; Eric Piver; Jean-Christophe Pagès; François Maillot; Christian R Andres; Patrick Vourc'h; Hélène Blasco Journal: Biomed Res Int Date: 2014-07-02 Impact factor: 3.411
Authors: Anna Gajowiak; Agnieszka Styś; Rafał R Starzyński; Aleksandra Bednarz; Małgorzata Lenartowicz; Robert Staroń; Paweł Lipiński Journal: Front Mol Neurosci Date: 2016-01-06 Impact factor: 5.639