ABSTRACT
Resumen En el presente trabajo se realizó un estudio cuasi experimental de medidas repetidas con grupos caso y control, cuyo objetivo fue medir el efecto de los sonidos binaurales de onda beta y theta, y de la información placebo relacionada a ellos, sobre el rendimiento de una tarea de memoria de trabajo computarizada, versión libre del Automated Operation Span Task -AOSPAN-de Unsworth, Heitz, Schrock y Engle (2005). Dicha tarea se repitió en dos sesiones separadas por un lapso mínimo de dos semanas, una de las cuales se resolvía mientras se escuchaba una estimulación sonora binaural de onda beta o theta que, dependiendo del grupo, se acompañaba o no de información placebo. Se evaluaron 98 personas con distinto nivel de escolaridad divididas en seis grupos experimentales y uno de control. Se encontraron diferencias significativas en el tiempo de presentación de la tarea experimental asociada a información placebo, mostrando una mejoría en la segunda aplicación de la tarea. Debido a ambigüedades en los resultados, a pesar de encontrar diferencias significativas asociadas a la estimulación binaural de onda beta, no pudieron establecerse relaciones concretas entre la mejoría en el recuerdo de conjuntos de hasta cuatro elementos con la presencia de dicha variable. No se encontraron diferencias significativas en las variables de recuerdo global, lo cual puede explicarse por el tipo de tarea de memoria utilizado.
Abstract In this work, a quasi-experimental study of repeated measures with case and control groups was carried out, whose objective was to measure the effect of binaural sounds of beta and theta waves, and the placebo informa tion related to them, on the performance of a computerized working memory task, Automated Operation Span Task -AOSPAN- free version of Unsworth, Heitz, Schrock and Engle (2005). This task was repeated in two sessions separated by an interval of two weeks, one of which was resolved while listening to a binaural sound stimulation of beta wave or theta that, depending on the group, was supported or not by placebo information. 98 people with different levels of schooling were tested twice, divided into six experimental groups and one control group. Significant differences were found related to time duration in performing the experimental task associated with placebo information; it was showed an improvement the second time the task was administered. Due to ambiguities in the results, despite finding significant differences associated with binaural stimulation of beta wave, it was not possible to establish concrete relations between the improvement in the memory of sets up four elements with the presence of this variable. No significant differences were found in the global recall variables, which can be explained by the type of memory task performed.
ABSTRACT
Sensory stimulation has a critical role to play in the development of an individual. Environmental factors tend to modify the inputs received by the sensory pathway. The developing brain is most vulnerable to these alterations and interacts with the environment to modify its neural circuitry. In addition to other sensory stimuli, auditory stimulation can also act as external stimuli to provide enrichment during the perinatal period. There is evidence that suggests that enriched environment in the form of auditory stimulation can play a substantial role in modulating plasticity during the prenatal period. This review focuses on the emerging role of prenatal auditory stimulation in the development of higher brain functions such as learning and memory in birds and mammals. The molecular mechanisms of various changes in the hippocampus following sound stimulation to effect neurogenesis, learning and memory are described. Sound stimulation can also modify neural connectivity in the early postnatal life to enhance higher cognitive function or even repair the secondary damages in various neurological and psychiatric disorders. Thus, it becomes imperative to examine in detail the possible ameliorating effects of prenatal sound stimulation in existing animal models of various psychiatric disorders, such as autism.