Abstract
The spinal trigeminal nucleus (SpV) is a crucial relay station in the central nervous system for processing sensory information from the face, head, and oral cavity. While historically considered a continuous structure, pioneering work by Olszewski revealed its subdivision into three distinct subnuclei: oral, interpolar, and caudal. Understanding the cytoarchitectonics of these subnuclei is fundamental for elucidating their functional roles in sensory perception and pain modulation. In this study, we conducted a detailed examination of the structural organization within each subnucleus of the SpV using histological techniques. Our findings reveal distinct cytoarchitectonic features characteristic of each subnucleus by providing insights into the spatial distribution and density of neuronal populations across the rostrocaudal extent of the SpV. These results contribute to a deeper understanding of the neural circuitry underlying sensory processing in the trigeminal system and may have implications for the diagnosis and treatment of disorders involving altered trigeminal function.
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