The Olfactory System Revealed: Non-Invasive Mapping by using Constrained Spherical Deconvolution Tractography in Healthy Humans.

Demetrio Milardi,Daniele Bruschetta,Giuseppe Anastasi,Enricomaria Mormina,Filippo Cascio,Maria F Ghilardi,Alessandro Arrigo,Alessandro Calamuneri,Veronica Andronaco,Angelo Quartarone,Fabrizia Caminiti,Alberto Cacciola

doi:10.3389/fnana.2017.00032

Abstract

Although the olfactory sense has always been considered with less interest than the visual, auditive or somatic senses, it does plays a major role in our ordinary life, with important implication in dangerous situations or in social and emotional behaviors. Traditional Diffusion Tensor signal model and related tractography have been used in the past years to reconstruct the cranial nerves, including the olfactory nerve (ON). However, no supplementary information with regard to the pathways of the olfactory network have been provided. Here, by using the more advanced Constrained Spherical Deconvolution (CSD) diffusion model, we show for the first time in vivo and non-invasively that, in healthy humans, the olfactory system has a widely distributed anatomical network to several cortical regions as well as to many subcortical structures. Although the present study focuses on an healthy sample size, a similar approach could be applied in the near future to gain important insights with regard to the early involvement of olfaction in several neurodegenerative disorders.

Highlights

The sense of smell plays a pivotal role in ordinary life
In all subjects we obtained an accurate co-registration of T1 weighted scan and anisotropic map (Figure 1) and we were able to reconstruct several white matter bundles forming the olfactory network
We detected a pathway connecting OT and the rostral temporal lobe in the piriform cortex (Figure 2)

Summary

Introduction

Together with the visual and auditory ones, it enables us to monitor the human environment and to provide an escape route from dangerous situations. The anatomy of the olfactory system has been classically investigated by using microsurgery dissection (Kavoi and Jameela, 2011). Olfactory tracts (OTs) were non-invasively studied by means of Diffusion Tensor Imaging (DTI) both in normal (Skorpil et al, 2011) and pathologic conditions (Scherfler et al, 2006). DTI fiber tracking has been extensively used to visualize cranial nerves (Hodaie et al, 2010), including the olfactory nerve (ON) and OTs. the intricate anatomy of the olfactory system

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