The Effects of a Single Vagus Nerve's Neurodynamics on Heart Rate Variability in Chronic Stress: A Randomized Controlled Trial

doi:10.3390/s24216874

Randomized Controlled Trial

. 2024 Oct 26;24(21):6874.

doi: 10.3390/s24216874.

The Effects of a Single Vagus Nerve's Neurodynamics on Heart Rate Variability in Chronic Stress: A Randomized Controlled Trial

Ana Isabel Pérez-Alcalde^{1

2}, Fernando Galán-Del-Río³, Francisco J Fernández-Rodríguez¹, Marta de la Plaza San Frutos¹, María García-Arrabé¹, María-José Giménez¹, Beatriz Ruiz-Ruiz¹

Affiliations

¹ Department of Physiotherapy, Faculty of Sport Sciences, Universidad Europea de Madrid, 28670 Madrid, Spain.
² International Doctoral School, Rey Juan Carlos University, 28008 Madrid, Spain.
³ Department of Physical Therapy, Occupational Therapy, Rehabilitation and Physical Medicine, Faculty of Health Sciences, Rey Juan Carlos University, 28922 Madrid, Spain.

PMID: 39517768
PMCID: PMC11548125
DOI: 10.3390/s24216874

Randomized Controlled Trial

The Effects of a Single Vagus Nerve's Neurodynamics on Heart Rate Variability in Chronic Stress: A Randomized Controlled Trial

Ana Isabel Pérez-Alcalde et al. Sensors (Basel). 2024.

. 2024 Oct 26;24(21):6874.

doi: 10.3390/s24216874.

Authors

Affiliations

¹ Department of Physiotherapy, Faculty of Sport Sciences, Universidad Europea de Madrid, 28670 Madrid, Spain.
² International Doctoral School, Rey Juan Carlos University, 28008 Madrid, Spain.
³ Department of Physical Therapy, Occupational Therapy, Rehabilitation and Physical Medicine, Faculty of Health Sciences, Rey Juan Carlos University, 28922 Madrid, Spain.

PMID: 39517768
PMCID: PMC11548125
DOI: 10.3390/s24216874

Abstract

Background: The modulation of the autonomic nervous system's activity, particularly increasing its parasympathetic tone, is of significant interest in clinical physiotherapy due to its potential benefits for stress-related conditions and recovery processes. This study evaluated the effectiveness of the addition of neurodynamics in enhancing parasympathetic activation in subjects with chronic stress.

Methods: A clinical trial randomly assigned participants to a group with neurodynamics (6 bpm breathing protocol + manual therapy + neurodynamic technique) or a group without neurodynamics (6 bpm breathing protocol + manual therapy only). Metrics of heart rate variability (HRV), including the Mean Heart Rate (Mean HR), standard deviation of intervals between consecutive heartbeats (SDNN), Heart Rate Difference (Diff. HR), Root Mean Square of Successive Differences (RMSSD), number of intervals differing by more than 50 ms (NN50), percentage of consecutive NN intervals that differed by more than 50 ms (pNN50), and the high-frequency component measured in standardized units (HF), were assessed before, during, and after the intervention.

Results: During the intervention, the group with neurodynamics showed significant changes in all variables except in the pNN50 and HF while the group without neurodynamics only showed improvements in the Mean HR, SDNN, and RMSSD. In the post-intervention phase, the group with neurodynamics maintained an increase in HRV while the group without neurodynamics experienced a decrease, suggesting an increase in sympathetic activity.

Conclusions: Vagal nerve neurodynamics appear to represent an effective method for enhancing parasympathetic activation in patients with chronic stress. The results highlight the importance of a more comprehensive analysis of HRV variables in order to obtain a correct picture of the impact of interventions on the complex and multifaceted functioning of the autonomic nervous system.

Keywords: autonomic nervous system; chronic stress; heart rate variability; heart reliability variability metrics; neurodynamics; parasympathetic activation; vagus nerve.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

**Figure 1**
HRV monitoring via the Polar^® H10 band (Polar Electro Kempele, Finland).

**Figure 2**
Neurodynamic technique used with the vagus nerve.

**Figure 3**
Real-time diagram of the experiment.

**Figure 4**
Flowchart detailing the study processes.

See this image and copyright information in PMC

References

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[1] Marsland A.L., Walsh C., Lockwood K., John-Henderson N.A. The effects of acute psychological stress on circulating and stimulated inflammatory markers: A systematic review and meta-analysis. Brain Behav. Immun. 2017;64:208–219. doi: 10.1016/j.bbi.2017.01.011. - DOI - PMC - PubMed

[2] Marsland A.L., Walsh C., Lockwood K., John-Henderson N.A. The effects of acute psychological stress on circulating and stimulated inflammatory markers: A systematic review and meta-analysis. Brain Behav. Immun. 2017;64:208–219. doi: 10.1016/j.bbi.2017.01.011. - DOI - PMC - PubMed

[3] Porges S. Brain-Body Connection May Ease Autistic People’s Social Problems [Internet] 2019. [(accessed on 3 August 2024)]. Available online: https://www.spectrumnews.org.

[4] Porges S. Brain-Body Connection May Ease Autistic People’s Social Problems [Internet] 2019. [(accessed on 3 August 2024)]. Available online: https://www.spectrumnews.org.

[5] Lee R.S. Chapter 1—The physiology of stress and the human body’s response to stress. In: Youssef N.A., editor. Epigenetics of Stress and Stress Disorders. Academic Press; Cambridge, MA, USA: 2022. [(accessed on 17 August 2024)]. pp. 1–18. Available online: https://www.sciencedirect.com/science/article/pii/B9780128230398000174.

[6] Lee R.S. Chapter 1—The physiology of stress and the human body’s response to stress. In: Youssef N.A., editor. Epigenetics of Stress and Stress Disorders. Academic Press; Cambridge, MA, USA: 2022. [(accessed on 17 August 2024)]. pp. 1–18. Available online: https://www.sciencedirect.com/science/article/pii/B9780128230398000174.

[7] Santos G.S.P., Costa A.C., Picoli C.C., Rocha B.G.S., Sulaiman S.O., Radicchi D.C., Pinto M.C.X., Batista M.L., Amorim J.H., Azevedo V.A.C., et al. Sympathetic nerve-adipocyte interactions in response to acute stress. J. Mol. Med. 2021;100:151–165. doi: 10.1007/s00109-021-02157-0. - DOI - PMC - PubMed

[8] Santos G.S.P., Costa A.C., Picoli C.C., Rocha B.G.S., Sulaiman S.O., Radicchi D.C., Pinto M.C.X., Batista M.L., Amorim J.H., Azevedo V.A.C., et al. Sympathetic nerve-adipocyte interactions in response to acute stress. J. Mol. Med. 2021;100:151–165. doi: 10.1007/s00109-021-02157-0. - DOI - PMC - PubMed

[9] Elamin A.B.A., Forsat K., Senok S.S., Goswami N. Vagus Nerve Stimulation and Its Cardioprotective Abilities: A Systematic Review. J. Clin. Med. 2023;12:1717. doi: 10.3390/jcm12051717. - DOI - PMC - PubMed

[10] Elamin A.B.A., Forsat K., Senok S.S., Goswami N. Vagus Nerve Stimulation and Its Cardioprotective Abilities: A Systematic Review. J. Clin. Med. 2023;12:1717. doi: 10.3390/jcm12051717. - DOI - PMC - PubMed

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The Effects of a Single Vagus Nerve's Neurodynamics on Heart Rate Variability in Chronic Stress: A Randomized Controlled Trial

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The Effects of a Single Vagus Nerve's Neurodynamics on Heart Rate Variability in Chronic Stress: A Randomized Controlled Trial

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