ABSTRACT
Within the history of neuromuscular diseases (NMD), congenital myopathies (CM) represent a relatively new category introduced in the mid-nineteen hundreds upon advent and subsequent application of enzyme histochemistry and electron microscopy by establishing the three major CM, central core disease, nemaline myopathy, and centronuclear myopathy which later pluralized each when the molecular era began at the end of last century. Quickly, during the following 5 decades, many new CM entities were described, based on muscle biopsies and their CM-characteristic myopathology, the former a prerequisite to recognizing an individual CM, the latter of the nosological hallmark of the individual CM. When the molecular era ushered in immunohistochemistry the spectrum and nosography of CM altered in that some CM became allelic to other cohorts of NMD, e.g., congenital muscular dystrophies, other muscular dystrophies, distal myopathies based on different or identical mutations in the same gene. The nosological spectrum of a defective gene also enlarged by recognizing several entities with mutations in the same gene, and same or similar nosological conditions originated from mutations in different genes. Lately, however, CM were reported which lacked any individual myopathological hallmarks, but were clearly based on molecular defects, a fair number of them being newly identified ones. Few CM still remain without any molecular clarification. This nosographic development rendered the original definition of such new CM questionable and brought uncertainty to their classification and nomenclature.
ABSTRACT
Abstract. Muscle MRI has emerged as a valuable tool in the diagnosis of neuromuscular-disorders. The Dixon fat-water separation technique allows objective intra-muscular fat quantification. There are few reports concerning measurement standardisation with Dixon technique. The objective of this study was to evaluate the variability in fat quantification using Dixon's technique in a cohort of patients with congenital myopathies, by analysing intra-segment, intra-muscle, and inter-muscle variability of 60 muscles in each patient. Whole body MRI was performed on 31 patients, 23 with congenital myopathies and 8 healthy controls, aged between 10 months and 35 years old, from January 2014 to June 2016. The mean fat-fraction in healthy patients was around 5%, with less than 2% intra-muscle variability. An intra-muscle variability between 3.1-7.8% was estimated in patients with congenital myopathies. It may be concluded that there is high intra- and inter-muscle fat-fraction variability among patients with congenital myopathies, and this is an observation that should be incorporated in the analysis of fat replacement.
Resumen. La resonancia magnética muscular ha emergido como una valiosa herramienta de apoyo diagnóstico en enfermedades neuromusculares. La técnica de Dixon permite objetivar la fracción grasa muscular, pero no existe consenso sobre la estandarización de estas mediciones. El objetivo de este estudio fue evaluar la variabilidad en la determinación de fracción grasa utilizando la técnica de Dixon, estudiando la variabilidad intrasegmentaria, intramuscular e intermuscular en 60 músculos por paciente. Se realizó RM de cuerpo completo a 31 pacientes: 23 con miopatía congénita y 8 controles, entre 10 meses y 35 años de edad, desde enero del 2014 a junio del 2016. En pacientes sanos se estimó una fracción grasa promedio cercana al 5%, con una variabilidad intramuscular inferior al 2%. En pacientes con miopatías congénitas existe una variabilidad entre el 3,1-7,8%. El estudio permite concluir que existe una alta variabilidad intra e intermuscular en pacientes miopáticos, que no se observa en pacientes sanos.