Neuroradiologic changes in Kallmann Syndrome: studies with Magnetic Resonance Imaging.

Kallmann syndrome (KS) is defined by the association of hypogonadotropic hypogonadism with olfaction disturbance (hyposmia or anosmia). It is caused by a neuronal migration arrest that involves both the gonadotropin releasing hormone (GnRH) and the olfactory neurons, which have a common embryonic origin. The first gene described, KAL1, encodes a protein named anosmin, which shows a strong homology to axonal adhesion molecules involved in neuronal migration and axonal pathfinding. Various phenotypic abnormalities have been described in KS, including olfactory bulbs and sulci aplasia or hypoplasia and specific neurologic disorders, such as mirror movements (MM). In this study we evaluated 21 patients with KS, comparing with a control group (n=16), using qualitative and quantitative techniques with Magnetic Resonance Imaging (MRI), with the following purposes: (I) correlate the brains radiologic alterations with the clinical, laboratorial and genetic findings; (II) characterize the rhinencephalon alterations; and (III) investigate MM etiology, addressing the two main hypotheses concerning its cause, abnormal development of the primary motor system, involving the ipsilateral corticospinal tract, and lack of contralateral motor cortex inhibitory mechanisms, mainly through the corpus callosum. For rhinencephalon evaluation, we specially used thin-section coronal T2-weighed images, which were reviewed and then objectively evaluated with the measurements of the olfactory bulbs and sulci. To study MM we used the voxel-based morphometry (VBM), to determine white (WM) and gray matter (GM) volume changes, and T2 relaxometry (T2R) and magnetization transfer ratio (MTR), searching for signal intensity changes in the WM. Eighteen (85%) patients presented different degrees of olfactory structures abnormalities, with the bulbs and/or sulci aplasia being the most common finding, and presence olfactory bulb aplasia showed excellent agreement with anosmia as determined by the smell identification clinical test. The optimized VBM study did not show significant white matter changes in patients with KS but showed gray matter alterations in keeping with a hypertrophic response to a deficient pyramidal decussation in patients with MM. In addition, gray matter alterations were observed in patients without MM, which can represent more complex mechanisms determining the presence or absence of this symptom. Even if the VBM did not show significant volume changes in WM, the evaluation with the T2R and MTR showed WM signal intensity alterations, differently involving patients with and without MM, in keeping with demyelinization and/or axonal disorder, in accordance with the involvement of a corticospinal tract anomaly and a deficient inhibitory interhemispheric mechanism in the etiology of MM. The MTR analysis also showed a different alteration in the pyramidal decussation, which can represent a primary disorder in this region, with all other alterations in the superior WM fibers and motor cortex possibly being secondary to this disarrangement, and involving patients with and without MM in a different manner. (AU)