This study investigates the effects of transcutaneous auricular vagus nerve stimulation (taVNS) on cognitive performance in healthy adults. The study uses a sham-controlled, cross-over design in which each participant receives both active taVNS and sham stimulation in separate sessions. Each participant completes both conditions (active and sham) in a randomized order using a crossover design. Cognitive performance will be assessed before and after each session using standardized tests. The study also explores whether males and females respond differently to taVNS, in order to identify potential sex-related differences in cognitive outcomes.
This randomized, sham-controlled cross-over study investigates the effects of transcutaneous auricular vagus nerve stimulation (taVNS) on cognitive performance, autonomic activity, and psychological state in healthy young adults, with specific attention to sex differences. Because hormonal fluctuations may influence vagal tone and cognitive outcomes, female participants are required to complete their stimulation sessions during the follicular phase (Day 5-10) of the menstrual cycle. Male participants follow the same protocol without timing restrictions. The study consists of three laboratory visits, scheduled one week apart. Visit 1 (Baseline Assessments): Participants provide informed consent and complete a demographic questionnaire, menstrual-cycle verification (for female participants), the Montreal Cognitive Assessment (MoCA), and baseline psychological questionnaires including the State-Trait Anxiety Inventory (STAI) and the Perceived Stress Scale (PSS). Baseline cognitive performance is measured using the CogniFit digital battery. Visits 2 and 3 (Randomized Cross-Over Stimulation Sessions): Participants undergo active taVNS and sham stimulation in randomized order. At the beginning of each visit, heart rate variability (HRV) is recorded for 5 minutes before stimulation to establish a resting baseline. Stimulation is applied for 20 minutes using the VaguStim device. Immediately after stimulation, HRV is recorded again for 5 additional minutes, followed by completion of a side-effect questionnaire documenting any sensations or adverse reactions. Following that, participants complete the STAI and PSS questionnaires to assess post-stimulation psychological state.Cognitive performance is then reassessed using the CogniFit digital battery. This cross-over design enables within-subject comparison between active and sham stimulation and provides the structure needed to examine potential sex-related differences in autonomic, cognitive, and psychological responses to taVNS.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
60
Active taVNS will be delivered bilaterally to the cymba conchae and tragus regions using the VaguStim device. Stimulation parameters follow cognitive-neuroscience standards to minimize cardiac side effects: biphasic waveform, 25 Hz frequency, 250 μs pulse width, and intensity individually adjusted below the sensory threshold (0.5-4 mA). Each stimulation session lasts 20 minutes. This intervention corresponds to the Active taVNS Stimulation arm.
Sham stimulation will be delivered using the same VaguStim device, but electrodes will be placed bilaterally on the earlobe, an area not innervated by the vagus nerve. Device parameters will be set to match the active condition, but no true vagus nerve stimulation is delivered. This procedure controls for placebo and participant expectancy effects. This intervention corresponds to the Sham Stimulation arm.
CogniFit Digital Battery
Cognitive performance will be evaluated using the CogniFit digital cognitive battery, which assesses multiple cognitive domains including attention, working memory, executive functions, and processing speed. The battery will be administered once at baseline (Visit 1). It will be administered again immediately after Active stimulation in Visit 2 and immediately after Sham stimulation in Visit 3. Changes in cognitive scores between baseline and post-stimulation sessions will be compared to determine the acute cognitive effects of active vs. sham taVNS.
Time frame: Day 1 (Visit 1 baseline), Day 8 (Visit 2), and Day 15 (Visit 3) Cognitive testing will occur after stimulation on Day 8 and Day 15.
Heart Rate Variability (HRV)
Heart rate variability will be assessed using the Polar H10 chest strap or another validated portable HRV device widely used in research. Five-minute recordings will be obtained during resting state and during stimulation. Time-domain parameters (RMSSD, SDNN) and frequency-domain parameters (LF/HF ratio) will be analyzed.
Time frame: Day 8 (Visit 2): 5 minutes before stimulation and 5 minutes after stimulation. Day 15 (Visit 3): 5 minutes before stimulation and 5 minutes after stimulation.
Perceived Stress Levels (PSS)
The Perceived Stress Scale (PSS) will assess participants' perceived stress levels over the past month. Higher scores indicate higher perceived stress.
Time frame: Day 1 (Visit 1 baseline), Day 8 (Visit 2 after stimulation), and Day 15 (Visit 3 after stimulation).
State and Trait Anxiety (STAI)
The State-Trait Anxiety Inventory (STAI) will measure acute state anxiety (STAI-S) and general trait anxiety (STAI-T).
Time frame: Day 1 (Visit 1 baseline), Day 8 (Visit 2 after stimulation), and Day 15 (Visit 3 after stimulation).
Self-Reported Side Effects
A researcher-developed side-effects questionnaire will be used to record any discomfort, tingling, dizziness, or other adverse effects following stimulation.
Time frame: Day 8 (Visit 2 after stimulation) and Day 15 (Visit 3 after stimulation)
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