Review Transcutaneous Auricular Vagus Nerve Stimulation for Post-COVID-19 Condition: A Systematic Review and Critical Appraisa…, 2026, Balan+

[SNT Gatchaman]

Transcutaneous Auricular Vagus Nerve Stimulation for Post-COVID-19 Condition: A Systematic Review and Critical Appraisal of Clinical Evidence

Spoiler: Authors

Balan, Adrian; Graham, Giles; Herban, Sorin; Marcu, Marius; Gheorghe, Nini; Mara, Gabriela; Rasinar, Florin Claudiu; Lascu, Ana; Mot, Cristian Ion; Dan, Traian Flavius; Mihaicuta, Stefan; Frent, Stefan Marian

BACKGROUND
Long COVID, or post-COVID-19 condition (PCC), affects around 36% of individuals following SARS-CoV-2 infection, manifesting as persistent fatigue, cognitive dysfunction, and dysautonomia among its hallmark features. Affecting an estimated 400 million individuals globally, it imposes an annual economic burden exceeding $1 trillion, yet no pharmacological therapy has demonstrated consistent efficacy in adequately powered randomized controlled trials. Transcutaneous auricular vagus nerve stimulation (taVNS) has emerged as a candidate intervention targeting the autonomic dysfunction and neuroinflammation responsible for PCC pathophysiology.

METHODS
We conducted a PRISMA 2020-compliant systematic review (PROSPERO: CRD420261287286) searching PubMed, Scopus, Cochrane, and Web of Science databases from inception to January 2026 for studies evaluating any form of VNS in adults with Long COVID. Risk of bias was assessed using the Cochrane Risk of Bias 2 (RoB 2) tool, the JADAD scale, and the PEDro scale. Certainty of evidence was evaluated using the GRADE framework. Narrative synthesis followed SWiM guidelines.

RESULTS
Five studies (n = 154 participants) (three randomized controlled trials (RCTs) and two single-arm studies) met inclusion criteria. Three of five studies (60%) were rated high overall risk of bias; only two RCTs achieved “some concerns.” The only adequately double-blinded RCT found no significant between-group differences across all outcomes. Paradoxically, in the best-powered RCT (Percin et al.), sham stimulation produced significantly greater fatigue improvement than active taVNS, despite active taVNS producing significant HRV increases consistent with cardiac autonomic modulation. All efficacy outcomes were rated “very low” certainty (GRADE); safety was rated “low” certainty.

CONCLUSIONS
Currently available evidence supporting the use of taVNS for Long COVID remains limited, and the absence of reliable target engagement markers in the included studies constrains confidence in this approach. Nonetheless, the physiological rationale remains sound, and the favorable safety profile across all included studies supports the feasibility of future investigation. However, given that positive findings were confined to inadequately controlled studies, enthusiasm for further research should be directed first toward mechanistic clarification and rigorous dose-finding work. Large-scale, double-blind, sham-controlled trials incorporating validated markers of vagal engagement are required before taVNS can be firmly recommended for COVID-19 sequelae management.

Web | DOI | PDF | Journal of Clinical Medicine | Open Access

 

[SNT Gatchaman]

The only adequately double-blinded RCT found no significant between-group differences across all outcomes. Paradoxically, in the best-powered RCT (Percin et al.), sham stimulation produced significantly greater fatigue improvement than active taVNS, despite active taVNS producing significant HRV increases consistent with cardiac autonomic modulation. All efficacy outcomes were rated “very low” certainty (GRADE); safety was rated “low” certainty.

Probably doesn't need a separate thread, but Percin et al. is —

Effects of Transcutaneous Auricular Vagus Nerve Stimulation on Fatigue in Post-COVID Syndrome: A Randomized, Single-Blind, Sham-Controlled Study

Spoiler: Authors

Alper Percin; Ali Veysel Ozden; Semiha Yenisehir; Berkay Eren Pehlivanoglu; Ramazan Cihad Yılmaz

BACKGROUND
Post-COVID syndrome (PCS) is a condition that occurs after COVID-19 infection that lasts for more than three months and adversely affects the autonomic nervous system (ANS). The aim of this study was to investigate and compare the effectiveness of transcutaneous auricular vagus nerve stimulation (taVNS) and sham taVNS in fatigue in individuals with PCS.

METHODS
Forty-two patients (20 male, 22 female) with PCS participated in this study. The severity of fatigue was assessed with the fatigue severity scale (FSS). Heart rate variability (HRV) was measured in participants at baseline and after taVNS. The participants were randomly divided into two groups (taVNS and sham taVNS). taVNS was applied for 20 consecutive days for 30 min each (10 Hz, 300 μs).

RESULTS
The groups were similar in FSS and HRV at baseline (p > 0.05). After the intervention, FSS decreased in taVNS (p = 0.018) and sham taVNS (p = 0.036). RMSSD increased in taVNS (p = 0.010), with no change in sham taVNS (p > 0.05) from baseline to after treatment. Stress index showed no change in both groups (p > 0.05). PNS index increased in taVNS (p = 0.007) and sham taVNS (p = 0.049). The SNS index and low frequency (LF) power decreased in taVNS (p = 0.001, p = 0.017, respectively), with no change in sham taVNS (p > 0.05). High frequency (HF) power showed no change within groups (p > 0.05). LF/HF decreased in taVNS (p = 0.002), with no change in sham taVNS (p > 0.05). Pre- and Post-tests showed taVNS was more effective than sham taVNS in decreasing FSS (p = 0.022) and LF power (p = 0.029), in increasing PNS index (p = 0.016). There was a difference in HF power between groups after treatment (p = 0.042).

CONCLUSION
Both taVNS and sham taVNS were effective in reducing the severity of fatigue, with sham taVNS being superior to taVNS. The observed effect size was smaller than anticipated. This suggests that larger-sample-size studies are required to verify these results.

Trial Registration: ClinicalTrials.gov identifier: NCT05679505.

Web | DOI | PDF | International Journal of Clinical Practice | Open Access

 

[SNT Gatchaman]

This paper concludes —

Two critical observations fundamentally challenge the rationale for taVNS in PCC. First, the Percin et al. trial demonstrated HRV increases consistent with cardiac parasympathetic modulation yet paradoxically superior clinical outcomes in the sham group with no HRV changes. This creates a logical paradox: if taVNS activates vagal pathways but this activation is associated with inferior clinical outcomes compared to sham, the therapeutic hypothesis could be contradicted rather than supported.

TaVNS may successfully activate auricular vagal afferents, as the HRV data suggest, while the pathophysiology of Long COVID fatigue in this cohort does not primarily implicate CAP dysregulation given that post-COVID fatigue is sustained by heterogeneous mechanisms. Even if the CAP is a valid target, the stimulation protocols evaluated to date may be insufficient to translate physiological engagement into clinical benefit, as neuromodulatory interventions frequently exhibit duration-response relationships.

Second, Pfoser-Poschacher et al. found equivalent improvements across all three stimulation frequencies, including their lowest-frequency “control” condition, inconsistent with a dose- or frequency-dependent mechanism and more consistent with non-specific effects.