[Validation of the EDMUR scale, a tool to quantify the evolution of neurogenic dysphagia].

Introduction: dysphagia is a frequent and serious symptom in people with brain damage and a tool is needed to quantify and objectify its evolution. Objective: to develop and validate an instrument to measure the evolution of dysphagia in a patient with acquired brain damage in order to facilitate decision-making during multidisciplinary treatment. Methods: a longitudinal, retrospective cross-sectional study that consists of two phases with the aim of developing a new tool.

The genetic audiogenic seizure hamster from Salamanca: The GASH:Sal.

The hamster has been previously described as a paroxysmal dystonia model, but our strain is currently recognized as a model of audiogenic seizures (AGS). The original first epileptic hamster appeared spontaneously at the University of Valladolid, where it was known as the GPG:Vall line, and was transferred to the University of Salamanca where a new strain was developed, named GASH:Sal. By testing auditory brainstem responses, the GASH:Sal exhibits elevated auditory thresholds that indicate a hearing impairment.

Decreased levels of GABA in the inferior colliculus of the epilepsy-prone hamster (GPG/Vall).

Abnormalities in GABA levels in the central nucleus of the inferior colliculus (CNIC) of the epilepsy-prone hamster (GPG/Vall) were evaluated by using immunohistochemistry, densitometry and high performance liquid chromatography (HPLC). These findings demonstrate a decrease both in GABA immunostaining (neuropil and neurons) and in GABA concentration (HPLC) in the CNIC of the epileptic hamster compared to control animals. These decreases may reflect a reduced availability of this neurotransmitter that may act as an audiogenic seizure-initiating factor.

TrkC: a new predictive marker in breast cancer?

Available data involve neurotrophins and their receptors in carcinomas. Quantitative evaluation of these molecules in these tumors might be useful as prognostic marker and eventual treatments. Our study on 40 mammary tumors tries to correlate expression of these molecules and prognosis.

Morphologic and neurochemical alterations in the superior colliculus of the genetically epilepsy-prone hamster (GPG/Vall).

The GPG/Vall hamster is an animal model that exhibits seizures in response to sound stimulation. Since the superior colliculus (SC) is implicated in the neuronal network of audiogenic seizures (AGS) in other forms of AGS, this study evaluated seizure-related anatomical or neurochemical abnormalities in the SC of the GPG/Vall hamster. This involved calbindin (CB) and parvalbumin (PV) immunohistochemistry, densitometric analysis and high performance liquid chromatography in the superficial and deep layers of the SC in control and epileptic animals.

Morphologic and neurochemical abnormalities in the auditory brainstem of the genetically epilepsy-prone hamster (GPG/Vall).

Purpose: This study was performed to evaluate whether audiogenic seizures, in a strain of genetically epilepsy-prone hamsters (GPG/Vall), might be associated with morphologic alterations in the cochlea and auditory brainstem. In addition, we used parvalbumin as a marker of neurons with high levels of activity to examine changes within neurons.

Methods: Cochlear histology as well as parvalbumin immunohistochemistry were performed to assess possible abnormalities in the GPG/Vall hamster.