Acceso usuarios
Ángels García Cazorla, J.M. Saudubray
In the last recent years, the -omics era has already transformed child neurology. Next generation sequencing (NGS) has identified many novel disease causing genes and phenotypes. While genetics is of great importance as a diagnostic tool, it is less helpful when it comes to a comprehensive understanding of mechanisms of brain dysfunction. Child neurologists are at high risk of being lost in genomics if they do not face the necessity of a new approach in their clinical practice. The large amount of data provided by NGS is just one more element in a complex puzzle. Different levels of complexity should be integrated in the much-needed novel child neurology paradigm. Classically, the descriptions of neurological diseases have relied on neuroanatomy and neurophysiology. However, metabolism, which strongly orchestrates the regulation of neuronal functions, has been mostly neglected in the study of brain disorders. Paradoxically, inborn errors of metabolism (IEM) have moved in the opposite direction. With more than 1100 IEM, almost 80% of which exhibit neurological symptoms, they have evolved from being initially considered as mere anecdotes to be a fundamental requisite in neuropediatric educational programs. Additionally, new complex molecule defects are leading to integrate classic metabolism and cell biology into the specific compartmentalized structure of the nervous system («cellular neurometabolism»). This article is a brief summary of the updated IEM classification combined with major neurological presentations in a tentative towards a pathophysiology based clinical practice in child neurology. In particular we emphasize a clinical approach focused in a continuum/spectrum of symptoms.
