Current concepts on the pathophysiology of idiopathic chronic adult hydrocephalus: Are we facing another neurodegenerative disease? / Actualización en la fisiopatología de la hidrocefalia crónica del adulto idiopática: ¿nos enfrentamos a otra enfermedad neurodegenerativa?

INTRODUCTION: Since its description five decades ago, the pathophysiology of idiopathic chronic adult hydrocephalus (iCAH) has been traditionally related to the effect that ventricular dilatation exerts on the structures surrounding the ventricular system. However, altered cerebral blood flow, especially a reduction in the CSF turnover rate, are starting to be considered the main pathophysiological elements of this disease. DEVELOPMENT: Compression of the pyramidal tract, the frontostriatal and frontoreticular circuits, and the paraventricular fibres of the superior longitudinal fasciculus have all been reported in iCAH. At the level of the corpus callosum, gliosis replaces a number of commissural tracts. Cerebral blood flow is also altered, showing a periventricular watershed region limited by the subependymal arteries and the perforating branches of the major arteries of the anterior cerebral circulation. The CSF turnover rate is decreased by 75%, leading to the reduced clearance of neurotoxins and the interruption of neuroendocrine and paracrine signalling in the CSF. CONCLUSIONS: iCAH presents as a complex nosological entity, in which the effects of subcortical microangiopathy and reduced CSF turnover play a key role. According to its pathophysiology, it is simpler to think of iCAH more as a neurodegenerative disease, such as Alzheimer disease or Binswanger disease than as the classical concept of hydrocephalus.

Correlación entre el defecto del campo visual y tractografía postoperatoria en casos de cirugía de epilepsia por esclerosis temporomesial. Estudio anátomo-imagenológico del fascículo de Meyer / Correlation between visual field defect and postoperative tractography in cases of epilepsy surgery due to temporomandibular sclerosis. Anatomic-imaging study of Meyer's fascicle

Objetivo: describir la anatomía del fascículo de Meyer (FM) y los resultados del campo visual computarizado (CVC) y tractografía, por tensor de difusión (TTD) en la identificación del compromiso de este fascículo en pacientes tratados quirúrgicamente por epilepsia refractaria. Introducción: Hasta un 80% de los pacientes con epilepsia temporo-mesial asociada a esclerosis hipocampal son refractarios a la medicación. Para estos pacientes la cirugía es un tratamiento bien establecido y efectivo. No obstante son frecuentes los defectos del campo visual por lesión del FM luego de este tipo de procedimientos. Materiales y métodos: Se realizó disección de fibras blancas de tres cerebros humanos, fijados en formaldehído, mediante la técnica de Klingler, con el fin de reconocer los fascículos que conforman la vía visual en la profundidad del lóbulo temporal. A su vez, se estudiaron 8 pacientes sometidos a lobectomía temporal anterior y amigdalohipocampectomía por esclerosis temporomesial, realizándose TTD y CVC, al menos 3 meses después de la cirugía. Los individuos se clasificaron en cuatro grupos según el defecto campimétrico y se realizaron distintas mediciones en tractografía y resonancia magnética. Finalmente se correlacionaron los resultados de las distintas variables y se realizó una extensa revisión bibliográfica...

Objective: to describe the anatomy of the Meyer´s loop (ML) and the results of computerized visual field (CVF) and diffusion tensor tractography (DTT) to identify the damage of this fascicle in patients surgically treated for refractory epilepsy secondary to mesial-temporal sclerosis. Introduction: Up to 80% of patients with temporo-mesial epilepsy associated with hippocampal sclerosis are refractory to medication. For these patients, surgery is a well established and effective treatment. However visual field defects are frequent by optic radiation´s injury after these procedures. Materials and methods: We performed the dissection of white fibers on three human brains, previously fixed in formaldehyde, by Klingler´s technique, to recognize the fascicles that make up the visual pathway in the depth of the temporal lobe. Then, eight patients submitted to anterior temporal lobectomy and amygdalohippocampectomy were studied performing CVF and TTD at least 3 months after surgery. Individuals were classified into four groups according to visual field defects and other measurements in magnetic resonance imaging and tractography. Finally the results of the different variables were correlated and an extensive review of literature was performed...

[Insular-opercular associative tracts: Review of their anatomy and relevance for the trans-opercular approach to the insula]. / Fascículos asociativos ínsulo-operculares: revisión de su anatomía y de las implicaciones para el abordaje transopercular a la ínsula.

INTRODUCTION: The insula is a highly connected area, as an intricate network of afferent and efferent projections connect it with adjacent and distant cortical regions. OBJECTIVE: To perform an extensive review of recent literature to analyse the anatomy of the associative tracts related to the insula. RESULTS: The frontal aslant tract, arcuate fasciculus, horizontal portion of the superior longitudinal fasciculus and the middle longitudinal fasciculus are associative tracts connected to the opercula. The inferior fronto-occipital fasciculus (IFOF) and uncinate fasciculus run under the anterior and inferior portion of the insula. CONCLUSIONS: the pars triangularis and orbicularis of the inferior frontal gyrus, as well as the middle and anterior part of the superior temporal gyrus, have few connections with the perisylvian associative network. Consequently, in the trans-opercular approach to the insula, these 2 regions represent anatomical corridors that give access to the insula. The IFOF and the uncinate fasciculus represent the deep functional margin of resection.