neurology-2017-scientifictracks-abstracts

Volume 8, Issue 2 (Suppl)

J Neurol Neurophysiol

ISSN: 2155-9562 JNN, an open access journal

Neurology 2017

March 27-29, 2017

Page 42

Notes:

conference

series

.com

March 27-29, 2017 Madrid, Spain

World Congress on

Neurology and Therapeutics

Functional neuroimaging of language and memory using magnetoencephalography (MEG)

unctional localization of eloquent cortices, covering or adjoining the pathological brain regions, is needed during many

neurosurgical interventions. In particular, the hemispheric lateralization of language and memory functions as well as

localization of cortical regions involved in language processing are often essential, especially in cases of epilepsy surgery.

Currently, such localization is performed predominantly through invasive methods: The Wada test (intracarotid sodium

amobarbital procedure) is most commonly used to assess the hemispheric dominance of language and memory during the

pre-surgical evaluation of patients and, electrocortical stimulation is routinely used intra- or extra-operatively to localize

cortical regions underlying receptive and expressive language processing. Although both of these procedures are well-

established means for the functional evaluation of eloquent cortex, they have also some important limitations, such as risk

of morbidity due to their invasive nature, variability in responses to barbiturate agents and arterial anatomy, limited spatial

extent of electrocortical stimulation, which is confined to small area of craniotomy, etc. Magnetoencephalography (MEG) is

the most novel, completely non-invasive functional neuroimaging technique capable of generating activation maps for the

entire brain in real-time. The evidence from research suggests that MEG can be used effectively to assess the hemispheric

dominance of language and memory, and to map the cortical regions supporting the linguistic functions of speech production

(Broca’s area) and comprehension (Wernicke's area), in individual patients. Non-invasive mapping of language-specific cortical

zones, during routine pre-surgical evaluation of patients, can significantly facilitate surgical planning and reduce morbidity

associated with resection of eloquent cortex. In this presentation, I will describe recently developed activation protocols and

methodologies for identifying the hemispheric lateralization of language and memory, and mapping of the language-related

eloquent cortex. I will highlight the potential of MEG in the pre-surgical evaluation, and will argue for widening the scope of

MEG applications in clinical practice.

Biography

Vahe Poghosyan completed his MSc in Mathematics from Yerevan State University and PhD in Neurophysiology from National Academy of Sciences of Armenia. He held

positions of Research Scientist in RIKEN Brain Science Institute in Japan, Senior Scientist and Director of Research Training Program at AAI Scientific Cultural Services

Ltd. in Cyprus. Currently, he is the Head of MEG Laboratory and Consultant of Neuronavigation at King Fahad Medical City in Riyadh, KSA. He has published more than

20 research papers in high-impact journals in the field of Neuroscience.

vpoghosyan@kfmc.med.sa

Vahe Poghosyan

King Fahad Medical City, Saudi Arabia

Vahe Poghosyan, J Neurol Neurophysiol 2017, 8:2 (Suppl)

http://dx.doi.org/10.4172/2155-9562.C1.046