Electrical stimulation provides direct modulatory effects on subcortical regions. Indeed, neuroimaging studies show changes in neural activity in specific brain regions such as the amygdala, insula, precentral gyrus, hippocampus and thalamus. The neuroanatomical connections established with the trigeminal nerve have been associated with the mechanism called "bottom-up" neuromodulation. According to this hypothesis, the spread of electrical stimulation follows a path from the peripheral nerves towards the brain stem was then advertise for cortical and subcortical regions. Connections to structures involved in the reward system as the amygdala and hippocampus could theoretically modulate dysfunctional brain activity in these regions, which may induce favorable clinical effects.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
22
TNS stimulation over V1 branches of V cranial nerve. Single session for 30 minutes. The patient will undergo a specific cue-induced cigarette craving model during the final 3 minutes of stimulation. Craving scores will be rated before and after stimulation
Centro de Atencao Integrada à Saúde Mental - CAISM
São Paulo, São Paulo, Brazil
Craving for nicotine
Craving for nicotine assessed by visual scale before and after cue-induced images for nicotine craving. Patients will be exposed to visual model for cue-induced images related to nicotine craving during the last 3 minutes of the TNS protocol (which has an overall time of 30 minutes). Main comparison will be between T1 and T2 craving level.
Time frame: (T1) Immediately before TNS protocol ; (T2) 30 minutes after TNS protocol
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