The medial pulvinar: function, origin and association with neurodevelopmental disorders.

The pulvinar is primarily referred to for its role in visual processing. However, the 'visual pulvinar' only encompasses the inferior and lateral regions of this complex thalamic nucleus. The remaining medial portion (medial pulvinar, PM) establishes distinct cortical connectivity and has been associated with directed attention, executive functions and working memory. These functions are particularly impaired in neurodevelopmental disorders, including schizophrenia and attention deficit and hyperactivity disorder (ADHD), both of which have been associated with abnormal PM architecture and connectivity. With these disorders becoming more prevalent in modern societies, we review the literature to better understand how the PM can participate in the pathophysiology of cognitive disorders and how a better understanding of the development and function of this thalamic nucleus, which is most likely exclusive to the primate brain, can advance clinical research and treatments.

Full: Ontogenesis and development of the nonhuman primate pulvinar.

Recent evidence demonstrates that the pulvinar nuclei play a critical role in shaping the connectivity and function of the multiple cortical areas they connect. Surprisingly, however, little is known about the development of this area, the largest corpus of the thalamic nuclei, which go on to occupy 40% of the adult thalamus in the human. It was proposed that the nonhuman primate and the human pulvinar develop according to very different processes, with a greatly reduced neurogenic period in nonhuman primate compared to human and divergent origins. In the marmoset monkey, we demonstrate that neurons populating the pulvinar are generated throughout gestation, suggesting that this aspect of development is more similar to the human than first predicted. While we were able to confirm the diencephalic source of pulvinar neurons, we provide new evidence contesting the presence of an additional niche in the telencephalon. Finally, our study defines new molecular markers that will simplify future investigations in the development and evolution of the pulvinar.