Supraventricular tachycardia (SVT) is a common heart rhythm disorder seen in emergency departments, causing a rapid heartbeat (typically 150-250 beats per minute). The current best non-drug treatment, the modified Valsalva maneuver (mVM), successfully restores normal rhythm in about 43% of cases. When these maneuvers fail, intravenous adenosine is used, which, while effective, can cause brief but distressing side effects such as chest tightness, shortness of breath, and intense anxiety. During the COVID-19 pandemic, some patients briefly fainted during nasal swab collection. This happens because inserting a swab into the back of the nasal cavity (nasopharynx) stimulates the trigeminal nerve, which then activates the vagus nerve and slows the heart - a phenomenon called the trigeminocardiac (or nasocardiac) reflex. One published case report described a patient whose SVT was terminated within 10 seconds using a nasal swab. This study compares the nasal swab technique with the modified Valsalva maneuver in patients presenting to the emergency department with SVT. Patients are randomly assigned to one of two groups. The primary outcome is whether a normal heart rhythm is restored within 1 minute of the procedure. Patient comfort and satisfaction are also measured. The study is conducted in two phases. The first (pilot) phase (30 patients per group) will assess whether the study can be successfully conducted and collect data to finalize the required sample size. The second (main) phase will use the pilot phase's actual data to determine the final number of participants needed.
BACKGROUND: Supraventricular tachycardia (SVT) encompasses re-entrant arrhythmias dependent on the atrioventricular node, including atrioventricular nodal re-entry tachycardia (AVNRT) and atrioventricular re-entry tachycardia (AVRT). Vagal maneuvers increase parasympathetic tone via the vagus nerve, slowing atrioventricular conduction and terminating these re-entrant circuits. The modified Valsalva maneuver (REVERT protocol) achieves termination in approximately 43% of cases, making it the most effective non-pharmacological approach currently available. The trigeminocardiac reflex (TCR), also termed the nasocardiac reflex, involves mechanical stimulation of the nasal mucosa and nasopharynx activating the trigeminal nerve (V1/V2 branches) → pterygopalatine ganglion → trigeminal nucleus → dorsal vagal nucleus → cardiac inhibitory parasympathetic output → bradycardia. This reflex has been documented in nasoendoscopy studies (observed in approximately 30% of patients) and was reported to cause syncope during COVID-19 nasopharyngeal swab collection. Hooker and Liebman (2023) reported SVT termination within 10 seconds of nasal swab insertion in a patient refractory to other vagal maneuvers and adenosine. Cinpolat et al. (2025) reported a mean 28% decrease in heart rate and 22% decrease in systolic blood pressure during nasopharyngeal swab procedures, explicitly suggesting SVT as a potential application. STUDY DESIGN: Two-phase prospective single-center randomized controlled superiority trial. * Phase 1 (pilot): 30 participants per arm (n=60 total). Primary aim: feasibility assessment. * Phase 2 (main): Sample size recalculated from actual pilot-phase conversion rates. RANDOMIZATION: Computer-generated blocked randomization (block sizes 4 and 6, randomly mixed) stratified by SVT subtype (probable AVNRT / probable AVRT / indeterminate). Allocation concealment using sequentially numbered, sealed, opaque envelopes. BLINDING: Open-label for participants and care providers; outcome assessor (30-minute satisfaction survey) and statistician are blinded. INTERVENTIONS: * Arm 1 (Nasal Swab): Standard nasopharyngeal swab inserted through the right nostril, parallel to the nasal septum, to the nasopharyngeal vault. Held for 10 seconds with gentle rotation, then withdrawn. Patient in 45-degree semi-recumbent position. * Arm 2 (mVM/REVERT): Forced expiration for 15 seconds into 10 mL syringe barrel, immediately followed by rapid supine repositioning and 45-degree passive leg elevation for 15 seconds. OUTCOMES: Primary: sinus rhythm conversion at 1 minute (T=60 seconds post-procedure). Secondary: conversion at 3 and 5 minutes; rescue adenosine requirement; procedural discomfort (VAS 0-10); treatment satisfaction (5-point Likert); re-preference; SVT recurrence at 24 hours and 30 days; adverse event profile. STATISTICAL ANALYSIS: Chi-square or Fisher's exact test for the primary outcome. Results reported as absolute risk difference with 95% CI. Intention-to-treat analysis as the primary; per-protocol analysis as a sensitivity analysis. Benjamini-Hochberg correction for secondary outcomes. Multiple imputation (MICE) for missing data between 5-20%. SAFETY STOPPING RULES: Immediate procedure termination and rescue therapy for hemodynamic deterioration, arrhythmia worsening, patient request, or serious adverse event. Pilot phase safety stopping rule: ≥3 serious adverse events in either group triggers protocol review. PILOT FEASIBILITY GO/NO-GO CRITERIA: * Monthly enrollment rate: ≥5 patients/month * Protocol adherence rate: ≥85% * Missing data rate: ≤10% * 30-day follow-up completion: ≥70%
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
60
A standard nasopharyngeal swab (approximately 15 cm flexible nylon-tipped swab, sterile) is inserted through the right nostril (left if anatomically impeded), directed parallel to the nasal septum along the nasal floor (posteriorly, not superiorly), and advanced until mild resistance is felt at the nasopharyngeal vault. The swab is held in this position for 10 seconds with optional gentle rotation, then slowly withdrawn. The procedure is performed with the patient in a 45-degree semi-recumbent position under continuous cardiac monitoring (ECG, SpO2, NIBP). T=0 is defined as the moment the swab is fully withdrawn. The procedure is performed once; failure leads to rescue therapy (intravenous adenosine) without a second attempt.
The modified Valsalva maneuver is performed per the REVERT protocol. The patient, seated at 45 degrees, performs a forced expiration for 15 seconds into the barrel of a 10 mL syringe (aiming to push the plunger back, targeting an expiratory pressure of≥40 mmHg). Immediately upon completion, the patient is rapidly repositioned supine, and both legs are passively elevated to 45 degrees for 15 seconds, then returned to the semi-recumbent position. Total maneuver duration is approximately 30 seconds. T=0 is defined as the moment the patient returns to the semi-recumbent position. The procedure is performed once; failure leads to rescue therapy (intravenous adenosine) without a second attempt.
Marmara University Pendik Training and Research Hospital
Istanbul, Pendik, Turkey (Türkiye)
RECRUITINGSinus Rhythm Conversion Rate at 1 Minute
Proportion of participants who convert to sinus rhythm within 1 minute of procedure completion (T=60 seconds), as assessed by continuous 12-lead ECG monitoring. T=0 is defined as the moment the intervention is completed (swab withdrawn / patient returned to semi-recumbent position after leg raise). Rhythm is independently verified by two investigators reviewing the ECG rhythm strip recording. Conversion is defined as a dichotomous outcome: yes (sinus rhythm confirmed at T=60 seconds) or no.
Time frame: 1 minute after procedure completion
Sinus Rhythm Conversion Rate at 5 Minutes
Proportion of participants who convert to sinus rhythm within 5 minutes of procedure completion, assessed by continuous ECG monitoring.
Time frame: 5 minutes after procedure completion
Adverse Events Profile
Incidence and nature of adverse events including but not limited to epistaxis, vasovagal syncope, significant bradycardia (heart rate \<40 bpm), hypotension, and respiratory distress, documented on a structured adverse event checklist.
Time frame: During procedure and up to 30 minutes after procedure completion
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