Acute Cardiovascular Effects of Transcutaneous Auricular Vagus Nerve Stimulation

Before study commencement, the complete randomisation sequence for all 20 participants will be generated using the online random sequence generator available at www.randomizer.org. An independent researcher who is not involved in participant recruitment, screening, data collection, or outcome assessment will use the "Randomise Lists" function to generate 20 distinct randomised orders of the three experimental conditions (active taVNS, sham-sound, and sub-threshold sham). Each participant will be assigned a sequential identification number from 1 to 20, with a corresponding randomised sequence determining which condition they will receive at Visits 2, 3, and 4. The independent researcher will maintain the master randomisation list in a secure, password-protected electronic file or in a locked physical document, accessible only to them. This ensures allocation concealment throughout the recruitment and enrollment process. On the morning of each experimental session (Visits 2, 3, and 4), the independent researcher will communicate the allocated condition for that specific participant and visit to the research coordinator who is responsible for setting up and operating the taVNS device. This communication will occur via secure email, telephone, or in person, specifying only the condition to be delivered that day (e.g., "Participant 15, Visit 2: Active taVNS"). The research coordinator who receives this information and prepares the device will not be involved in outcome assessments. Importantly, two key individuals will remain blinded throughout the study: the participant, who will not be informed which type of stimulation they are receiving on any given day, and the outcome assessor, who performs all cardiovascular measurements. The randomisation list will be retained in secure study files and will only be fully revealed to the research team after all data collection and preliminary analyses are complete. Blinding Procedures This study employs triple-blinding to minimise bias. Participants will be blinded to condition allocation throughout the study. They will be informed that the study is comparing different intensities or modes of vagal stimulation without being told which sessions involve active versus sham stimulation. The design of the sham conditions, particularly the sham-sound electrode, which produces tactile and auditory cues mimicking active stimulation, facilitates effective participant blinding. The sub-threshold sham condition explicitly communicates that stimulation is below the sensory threshold, maintaining the procedure's credibility without compromising blinding. Outcome assessors will also be blinded. Specifically, the investigator who performs all cardiovascular measurements throughout the study will remain blinded to which condition the participant is receiving during each session. Data analysts will be blinded during statistical analysis, with condition allocation coded numerically. The allocation code will be held securely by the principal investigator and will only be revealed to the statistical analyst after all analyses are complete. Individuals expressing interest in participating will be invited to attend the Cardiovascular Physiology Laboratory at Northumbria University for an initial screening visit. Upon arrival, the research team will review the Participant Information Sheet with the potential participant, explain all study procedures in detail, and answer any questions. Adequate time will be provided for the individual to consider participation, after which written informed consent will be obtained before any study procedures. Following consent, participants will undergo a structured interview to collect demographic information, including age, sex, and ethnicity, as well as detailed health history covering cardiovascular, neurological, and psychiatric conditions. Current medication use, including prescription, over-the-counter, and dietary supplements, will be documented. Lifestyle factors will be assessed, including habitual physical activity levels, dietary patterns, smoking status, alcohol consumption, sleep quality, and perceived stress. Anthropometric measurements will be performed according to standardised procedures. Height will be measured to the nearest 0.1 cm using a wall-mounted stadiometer with the participant standing barefoot. Body mass will be measured to the nearest 0.1 kg using calibrated digital scales with the participant wearing light clothing and no shoes. Body Mass Index will be calculated as mass (in kilograms) divided by height (in meters) squared. Waist circumference will be measured at the narrowest point between the lower rib margin and the iliac crest. Hip circumference will be measured at the widest point of the buttocks. Neck circumference will be measured at the midpoint of the neck below the laryngeal prominence. All circumference measurements will be taken to the nearest 0.1 cm using a non-stretchable measuring tape. Office BP will be assessed using auscultatory methods with a calibrated mercury sphygmomanometer and stethoscope, according to current guidelines. The participant will be seated in a quiet room with back supported, feet flat on the floor, and arms supported at heart level. After five minutes of quiet rest, three BP readings will be taken from each arm at one-minute intervals. Korotkoff phase I will be used to identify systolic BP and phase V will be used to identify diastolic BP. The mean of all six readings will be calculated to determine eligibility. Participants with a mean systolic BP of less than 140 mmHg and a diastolic BP of less than 90 mmHg will meet the BP inclusion criterion. Familiarisation with the taVNS Procedure Following completion of screening assessments, participants who meet all inclusion criteria and have no exclusion criteria will undergo a familiarisation session to introduce them to the taVNS device and procedure. The research team will explain the mechanism of transcutaneous auricular vagus nerve stimulation and demonstrate the Parasym device and electrode placement. The participant will then have the opportunity to experience the stimulation firsthand. The electrode will be placed on the left tragus, and the participant will be guided to gradually increase the stimulation intensity from zero until they perceive a constant tingling sensation. They will be instructed that during actual experimental sessions, the intensity will be set to one milliampere below their discomfort threshold. This familiarisation serves multiple purposes: it ensures participants understand what to expect during experimental sessions, allows them to experience the sensation and confirm that they are comfortable proceeding, provides an opportunity to identify individuals who may not tolerate the stimulation, and reduces anxiety and novelty effects during the experimental sessions. Participants will be encouraged to ask questions and voice any concerns. Only participants who are comfortable with the stimulation and willing to proceed will be enrolled in the study and scheduled for the three experimental sessions. Experimental Sessions (Visits 2, 3, and 4) Pre-Session Requirements and Standardisation To control for factors known to influence cardiovascular and autonomic function, participants will receive detailed standardised instructions before each experimental session. They will be asked to consume only a light meal at least two hours before their scheduled session time and to avoid all caffeine-containing products, including coffee, tea, caffeinated soft drinks, energy drinks, and chocolate, for at least 12 hours before the session. Alcohol consumption will be prohibited for 24 hours before each session. Participants will be instructed to refrain from vigorous physical activity or structured exercise for 48 hours before each session, though light activities such as walking are permitted. Smokers will be asked not to smoke for at least three hours before their session. They will be encouraged to obtain at least seven hours of sleep the night before each session and to maintain normal hydration levels while avoiding excessive fluid intake immediately before arrival at the laboratory. All experimental sessions will be scheduled at the same time of day for each participant, commencing between 9:00 and 10:00 AM, to control for circadian variations in cardiovascular parameters and autonomic nervous system activity. Sessions will be separated by a minimum of 48 hours to prevent carryover effects and allow full physiological recovery between interventions. Participants will be asked to record their adherence to pre-session instructions, sleep duration, and any relevant events or symptoms in a brief diary provided for this purpose. Experimental Session Protocol Upon arrival at the Cardiovascular Physiology Laboratory, participants will be reminded of the session procedures and allowed to ask questions. They will be asked to void their bladder and change into comfortable, loose-fitting clothing if needed. The laboratory environment will be maintained at a comfortable temperature between 20 and 22 degrees Celsius with dimmed lighting to promote relaxation. Participants will then assume a supine position on a comfortable examination table with the head elevated approximately 30 degrees using pillows to ensure comfort during the extended monitoring period. Please see the experimental session design. Baseline Assessment Phase (25 minutes) The first phase of each experimental session consists of a 25-minute baseline assessment period during which participants rest quietly in the supine position. They will be instructed to relax, breathe normally at their natural respiratory rate, remain as still as possible, and avoid talking unless necessary. Immediately at the start of this 25-minute period, the Finapres NOVA non-invasive finger arterial pressure system will be fitted to the non-dominant arm, including the finger cuff (index or middle finger) and brachial calibration cuff, with the arm supported at heart level. The Finapres will record continuously for the entire 25 minutes; however, only the final 10 minutes will be used as the pre-intervention continuous cardiovascular baseline for analysis. A Polar Unite optical heart rate sensor will be placed on the dominant wrist at the same time and will record continuously throughout the 25-minute period, with the final 10 minutes used for baseline heart rate and heart rate variability data. In addition to the continuous recordings, auscultatory BP and heart rate will be obtained at four time points during the baseline period: at 0, 5, 10, and 15 minutes. Each measurement will be taken from the dominant arm using a calibrated mercury sphygmomanometer and stethoscope. Phases I and V of the Korotkoff sounds will be used to determine systolic and diastolic BP, respectively. All auscultatory measurements will be performed by the same experienced investigator, who will be blinded to the intervention condition. The mean of the final three auscultatory measurements (taken at 5, 10, and 15 minutes) will serve as the discrete baseline BP value for analysis. Intervention Phase (60 minutes). Following the baseline assessment, participants will be assigned to one of three intervention conditions according to the randomised allocation sequence. The intervention period is 60 minutes for all three conditions. During this time, participants will be seated. The research team will continuously monitor participants from an adjacent room with a clear view through a window, and two-way communication will be available via an intercom. Brief comfort and safety checks will be conducted at 15, 30, and 45 minutes, asking participants how they are feeling and whether they wish to continue. During the intervention phase, participants may read or use their phones quietly, as these low-intensity activities do not interfere with the safety or function of vagus nerve stimulation devices. They will be asked to avoid excessive movement, talking, or highly stimulating phone content to minimise autonomic fluctuations during monitoring, but passive activities such as reading, browsing, or listening to music are permitted and commonly used in vagus nerve stimulation research protocols.