Resumen

RICARDO GARCELL, Josefina  y  RUEDA MEDINA, Walfred. Electroencephalogram and event related potentials in obsessive compulsive disorder. Salud Ment [online]. 2009, vol.32, n.2, pp.173-181. ISSN 0185-3325.

The obsessive compulsive disorder (OCD) is a diverse and multidimensional psychiatric syndrome, characterized by obsessions and compulsions, where anxiety is considered to be a key clinical component. Imaging studies have shown brain abnormalities in patients with OCD involving mainly the frontotemporal circuits, the orbitofrontal and the anterior cingulate cortex. These techniques have a high spatial resolution to identify brain alterations in this disorder but have less time resolution and are more expensive than electrophysiological studies. The electroencephalogram (EEG) and event-related potentials (ERPs) are the most common electrophysiological techniques used in the research of OCD. The EEG represents the electrical activity of the brain as recorded by electrodes placed on the scalp. The ERPs are voltage fluctuations that are temporarily linked to the presence of a physical or mental event. The best-known type of EEG is the <<traditional EEG>> (analyzed by visual inspection), which is characterized by the presence and topographic distribution of four frequency bands: delta (δ),theta (θ), alfa (α), and beta (β). The δ and θ bands are identified as slow activities while the α and β bands are known as fast activities. The slow activity has been referred to as the most common abnormality in OCD, specially in the θ band. Moreover, the Broad Band Spectral Parameters (BBSPs) have contributed, for more than two decades, to the study of psychiatric patients and their values can be presented in a compact form as a topographic map on the scalp (Brain Mapping in the frequency domain). The Absolute Power (AP) and the Relative Power (RP) are the most common BBSPs used. Is difficult to determine if AP is abnormal at certain age due to the fact that AP values vary with age. To solve it, it is suggested to transform AP's values, in every band, into Z values which indicate how close is the subject to the average values of normal individuals of the same age. Since abnormal increases and decreases have been described in the anterior brain regions by the slow bands (δ and θ) and the fast bands (α and β), some authors have considered inconsistent the alterations that have been observed with the BBSPs. Nevertheless, in accordance with traditional EEG studies, other authors have confirmed the excess of theta activity in patients with OCD. Of special interest for the clinical practice is that some authors have demonstrated, using the BBSPs, the existence of two OCD patients subgroups, which were homogeneous from the clinical point of view: one group with an excess of θ in the RP values, specially in the frontal and fronto-temporal regions, and a significative increase of α RP values for the other group. Eighty per cent of the patients of the first subgroup did not improved with selective serotonine reuptake inhibitors treatment, whereas 82.4 % of the patients of the second group improved. These results were confirmed ten years later and the α RP excess, present in those patients who improved, decreased after three months of treatment. However, it must be reminded that the generator of abnormal brain electrical activity, could be originate in a distant place to the location shown by the scalp electrodes. LORETA and VARETA are two methods used to calculate the origin of the generators above mentioned. The first investigation using LORETA was published in 2005, and it was observed that compared to controls, the OCD group showed an excess of β activity in the cingulate gyrus (mainly in the middle cingulate gyrus), as well as in the adjacent frontal, parietal and occipital regions. Two years later, in another EEG sources study, but using VARETA, has been found an excess of α activity with abnormal EEG sources located in the striatum and in the orbito-frontal and temporo-frontal regions, which decreased after successful treatment with paroxetine. Therefore, it is also heartening to confirm, through the study of generators of the EEG, a result of great clinical value previously proved with BBSPs. The ERPs are divided into two types: exogenous and endogenous. In this paper we shall refer to the endogenous or cognitive type which depends on the nature of the interaction between the subject and the stimulus, so it will vary with attention, relevance of the task and the processing required. The ERPs are small voltage fluctuations that are identified by their latency (time of appearance in milliseconds), its amplitude (voltage in microvolts) and its polarity (positive or negative voltage). Among the most characteristic ERPs components are the N200 and the P300. In most cases these components are elicited through a classical <<oddball>> paradigm, in which an infrequent stimulus (<<target>>) is randomly interspersed within an ongoing train of a different repeating stimulus (<<standard>>). There are at least two subcomponents of the P300: a frontal/central maximum amplitude component, the P3a that appears after the occurrence of unexpected distracters, regardless of its relevance for the task and represents an orienting response. The other one is the P3b, which has been more studied, it has a central/parietal distribution and evaluates attention and working memory.

Palabras llave : Obsessive-compulsive disorder; electroencephalogram; event-related potentials; P300; frequency analysis.

        · resumen en Español     · texto en Español     · Español ( pdf )