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      The Diagnostic Value of MRI Pattern Recognition in Distal Myopathies

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          Abstract

          Objective: Distal myopathies are a diagnostically challenging group of diseases. We wanted to understand the value of MRI in the current clinical setting and explore the potential for optimizing its clinical application.

          Methods: We retrospectively audited the diagnostic workup in a distal myopathy patient cohort, reassessing the diagnosis, whilst documenting the usage of MRI. We established a literature based distal myopathies MRI pattern template and assessed its diagnostic utility in terms of sensitivity, specificity, and potential impact on the diagnostic workup.

          Results: Fifty-five patients were included; in 38 with a comprehensive set of data the diagnostic work-up was audited. The median time from symptoms onset to diagnosis was 12.1 years. The initial genetic diagnostic rate was 39%; 18% were misdiagnosed as neuropathies and 13% as inclusion body myositis (IBM). Based on 21 publications we established a MRI pattern template. Its overall sensitivity (50%) and specificity (32%) were low. However in some diseases (e.g., MYOT-related myopathy, TTN-HMERF) MRI correctly identified the causative gene. The number of genes suggested by MRI pattern analysis was smaller compared to clinical work up (median 1 vs. 9, p < 0.0001) but fewer genes were correctly predicted (5/10 vs. 7/10). MRI analysis ruled out IBM in all cases.

          Conclusion: In the diagnostic work-up of distal myopathies, MRI is useful in assisting genetic testing and avoiding misdiagnosis (IBM). The overall low sensitivity and specificity limits its generalized use when traditional single gene test methods are applied. However, in the context of next generation sequencing MRI may represent a valuable tool for interpreting complex genetic results.

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          Most cited references25

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          MRI biomarker assessment of neuromuscular disease progression: a prospective observational cohort study

          Summary Background A substantial impediment to progress in trials of new therapies in neuromuscular disorders is the absence of responsive outcome measures that correlate with patient functional deficits and are sensitive to early disease processes. Irrespective of the primary molecular defect, neuromuscular disorder pathological processes include disturbance of intramuscular water distribution followed by intramuscular fat accumulation, both quantifiable by MRI. In pathologically distinct neuromuscular disorders, we aimed to determine the comparative responsiveness of MRI outcome measures over 1 year, the validity of MRI outcome measures by cross-sectional correlation against functionally relevant clinical measures, and the sensitivity of specific MRI indices to early muscle water changes before intramuscular fat accumulation beyond the healthy control range. Methods We did a prospective observational cohort study of patients with either Charcot-Marie-Tooth disease 1A or inclusion body myositis who were attending the inherited neuropathy or muscle clinics at the Medical Research Council (MRC) Centre for Neuromuscular Diseases, National Hospital for Neurology and Neurosurgery, London, UK. Genetic confirmation of the chromosome 17p11·2 duplication was required for Charcot-Marie-Tooth disease 1A, and classification as pathologically or clinically definite by MRC criteria was required for inclusion body myositis. Exclusion criteria were concomitant diseases and safety-related MRI contraindications. Healthy age-matched and sex-matched controls were also recruited. Assessments were done at baseline and 1 year. The MRI outcomes—fat fraction, transverse relaxation time (T2), and magnetisation transfer ratio (MTR)—were analysed during the 12-month follow-up, by measuring correlation with functionally relevant clinical measures, and for T2 and MTR, sensitivity in muscles with fat fraction less than the 95th percentile of the control group. Findings Between Jan 19, 2010, and July 7, 2011, we recruited 20 patients with Charcot-Marie-Tooth disease 1A, 20 patients with inclusion body myositis, and 29 healthy controls (allocated to one or both of the 20-participant matched-control subgroups). Whole muscle fat fraction increased significantly during the 12-month follow-up at calf level (mean absolute change 1·2%, 95% CI 0·5–1·9, p=0·002) but not thigh level (0·2%, −0·2 to 0·6, p=0·38) in patients with Charcot-Marie-Tooth disease 1A, and at calf level (2·6%, 1·3–4·0, p=0·002) and thigh level (3·3%, 1·8–4·9, p=0·0007) in patients with inclusion body myositis. Fat fraction correlated with the lower limb components of the inclusion body myositis functional rating score (ρ=–0·64, p=0·002) and the Charcot-Marie-Tooth examination score (ρ=0·63, p=0·003). Longitudinal T2 and MTR changed consistently with fat fraction but more variably. In muscles with a fat fraction lower than the control group 95th percentile, T2 was increased in patients compared with controls (regression coefficients: inclusion body myositis thigh 4·0 ms [SE 0·5], calf 3·5 ms [0·6]; Charcot-Marie-Tooth 1A thigh 1·0 ms [0·3], calf 2·0 ms [0·3]) and MTR reduced compared with controls (inclusion body myositis thigh −1·5 percentage units [pu; 0·2], calf −1·1 pu [0·2]; Charcot-Marie-Tooth 1A thigh −0·3 pu [0·1], calf −0·7 pu [0·1]). Interpretation MRI outcome measures can monitor intramuscular fat accumulation with high responsiveness, show validity by correlation with conventional functional measures, and detect muscle water changes preceding marked intramuscular fat accumulation. Confirmation of our results in further cohorts with these and other muscle-wasting disorders would suggest that MRI biomarkers might prove valuable in experimental trials. Funding Medical Research Council UK.
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            Mutations in myotilin cause myofibrillar myopathy.

            The term myofibrillar myopathy (MFM) is a noncommittal term for a pathologic pattern of myofibrillar dissolution associated with accumulation of myofibrillar degradation products and ectopic expression of multiple proteins. Ultrastructural studies implicate the Z-disk as the site of the initial pathologic change, and mutations in two Z-disk-related proteins, desmin and alphaB-crystallin, have been identified in a minority of patients with MFM. The authors' objective was to determine whether mutations in myotilin, a key Z-disk component and the disease protein in limb-girdle muscular dystrophy (LGMD) 1A, are another cause of MFM. The authors used histochemical, immunocytochemical, ultrastructural, and mutation analysis. The authors detected four missense mutations in 6 of 57 patients with MFM in the serine-rich exon 2 of MYOT, where the two previously identified LGMD1A mutations are located. Three mutations were novel, and one had been previously identified in LGMD1A. Each patient had evidence for neuropathy, and at least three kinships had associated cardiomyopathy. Distal weakness greater than proximal weakness was present in three patients. Except for minor differences, the morphologic features were similar to those in other patients with MFM. 1) Mutations in myotilin cause MFM; 2) exon 2 of MYOT is a hotspot for mutations; 3) peripheral neuropathy, cardiomyopathy, and distal weakness greater than proximal weakness are part of the spectrum of myotilinopathy; 4) not all cases of myotilinopathy have a limb-girdle phenotype; and 5) the molecular basis of the majority of MFM cases remains to be discovered.
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              Phenotype of matrin-3-related distal myopathy in 16 German patients.

              To characterize the phenotype of patients with distal myopathy with vocal cord and pharyngeal weakness due to the p.S85C mutation in the matrin-3 gene (MATR3, Mendelian Inheritance in Man 164015). Recently, it has been suggested that patients with this mutation may suffer from familial amyotrophic lateral sclerosis. Sixteen patients from 6 families with late onset distal myopathy associated with the p.S85C MATR3 mutation were characterized. Patients had a predominantly distal muscle weakness, most severely affecting ankle and wrist dorsiflexion. Relevant proximal and axial weakness was found in 6 and respiratory impairment in 5 patients. Dysphagia was diagnosed in 6 and mild voice abnormalities were found in 7 patients. However, laryngoscopy revealed normal vocal cord function. Creatine kinase was normal or mildly elevated. Electromyographically, spontaneous activity was found in 10 of 14 patients and complex repetitive discharges in 9 of 14 patients. Magnetic resonance imaging revealed severe fatty degeneration of distal and upper posterior leg and of paraspinal muscles. Histopathology ranged from mild myopathic to severe dystrophic changes including vacuoles. Absence of sarcomeres in the perinuclear region and abnormal invaginations of nuclei were found ultrastructurally. Haplotype analysis showed a common disease-specific haplotype of the 6 families and suggested that these families form a separate cluster. In contrast to the 2 previously reported families, MATR3-related distal myopathy might be associated with relevant axial, proximal, and respiratory muscle weakness but without vocal cord palsy. There were no clinical, electrophysiological, or histopathological signs of lower motor neuron involvement. © 2014 American Neurological Association.
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                Author and article information

                Contributors
                Journal
                Front Neurol
                Front Neurol
                Front. Neurol.
                Frontiers in Neurology
                Frontiers Media S.A.
                1664-2295
                26 June 2018
                2018
                : 9
                : 456
                Affiliations
                [1] 1MRC Centre for Neuromuscular Diseases, UCL Institute of Neurology and National Hospital for Neurology and Neurosurgery , London, United Kingdom
                [2] 2Neuroradiological Academic Unit, UCL Institute of Neurology , London, United Kingdom
                [3] 3Lysholm Department of Neuroradiology, National Hospital for Neurology and Neurosurgery , London, United Kingdom
                [4] 4John Walton Muscular Dystrophy Research Centre, Institute of Genetic Medicine , Newcastle upon Tyne, United Kingdom
                [5] 5Department of Molecular Neuroscience, UCL Institute of Neurology , London, United Kingdom
                Author notes

                Edited by: Ghazala Hayat, Saint Louis University, United States

                Reviewed by: Elie Naddaf, Mayo Clinic, United States; Holli A. Horak, University of Arizona, United States

                *Correspondence: Tarek A. Yousry t.yousry@ 123456ucl.ac.uk

                This article was submitted to Neuromuscular Diseases, a section of the journal Frontiers in Neurology

                Article
                10.3389/fneur.2018.00456
                6028608
                29997562
                7aa1db15-8592-4ca2-8807-6f2fe2ded768
                Copyright © 2018 Bugiardini, Morrow, Shah, Wood, Lynch, Pitmann, Reilly, Houlden, Matthews, Parton, Hanna, Straub and Yousry.

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                : 01 November 2017
                : 29 May 2018
                Page count
                Figures: 4, Tables: 4, Equations: 0, References: 34, Pages: 11, Words: 7516
                Funding
                Funded by: Seventh Framework Programme 10.13039/100011102
                Award ID: 2012-305121
                Funded by: Medical Research Council 10.13039/501100000265
                Award ID: MK/K000608/1
                Funded by: National Institute for Health Research 10.13039/501100000272
                Categories
                Neurology
                Original Research

                Neurology
                distal myopathies,muscular dystrophies,mri pattern,imaging genetics,next generation sequencing

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