Predictive, Preventive and Personalized Medicine & Molecular Diagnostics

Biography

Biography: Ivan Tellado

Abstract

Vascular Dementia (VD) is the second cause of dementia in the world. Blood pressure (BP), which it is regulated by the renin-angiotensin system (RAS), is associated with VD. The AGT gene belongs to RAS but little is known about its role in the occurrence and progression of  VD. To clarify the physiopathological role of AGT in VD, we investigated the influence of two SNPs (rs699 and rs4762) associated with arterial hypertension and cerebrovascular pathology on brain activity in VD patients. We applied qEEG in 65 VD patients divided in three groups according to their vascular risk associated with AGT genotype: (i) A group: 15 patients with high vascular risk (carriers of M allele in AGT174 and T allele in AGT235); (ii) B group: 38 patients with moderate vascular risk (carriers of M allele in AGT174 or T allele in AGT235); and C group: 12 patients with low vascular risk (no carriers of risk variants). Further analyses were performed using the eLORETA software. To visualize resting-state synchronization across frequency bands in large-scale functional networks, two lagged functional connectivity measures (lagged coherence and lagged phase synchrony), implemented in the eLORETA statistical package, have been proposed.

We found that VD patients with higher genomic risk had higher connectivity in delta band between frontal, fronto-temporal and fronto-parietal regions. Our findings may indicate that high blood pressure disturbs the functional connectivity at the frontal level. The slow hyperconnectivity observed may be a direct reflection of neural damage caused by arterial hypertension in susceptible individuals