Litcius/Paper detail

Associations between heart rate variability, peripheral inflammatory markers and major depressive disorder

Andreas Buchmann, Christopher Ritter, Sabrina Theresia Müller, Melanie Haynes, Carmen Ghisleni, Ruth Tuura, Gregor Hasler

2022Journal of Affective Disorders15 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Measures for the irregularity of the heartbeat, for example respiratory sinus arrhythmia, have been implicated as a measure for restorative functions of the vegetative nervous system. METHODS: In the current observational study, we investigated 265 subjects, 70 of whom had a lifetime history of major depression, with a plethysmographic heartbeat monitor, blood sampling, as well as a range of psychiatric questionnaires. RESULTS: Subjects with a history of MDE had significantly reduced respiratory sinus arrhythmia (RSA) as compared to never-depressed controls; in the whole sample, higher RSA went with lower anxiety/fear variables, especially in subscores related to cardiac symptoms as well as being afraid of dying. A reduced RSA was also associated with an increased concentration of cytokines (TNFa, IL1a, IL6, IFNg) and thyroid-stimulating hormone in the serum, pointing to a possible triangular relationship between immune system, vegetative nervous system, and emotional dysregulation. LIMITATIONS: We used a plethysmographic device for the measurement of heartbeat instead of an electrocardiogram, and had a single time point only. CONCLUSIONS: This data corroborate the idea that a disequilibrium of the vegetative nervous, especially if accompanied by a dysregulation system in immune function, can increase the risk for depression. Conversely, vagal stimulation and anti-inflammatory treatments may support the treatment with antidepressants.

Topics & Concepts

Vagal toneDepression (economics)AnxietyMedicineInternal medicineAutonomic nervous systemHeartbeatHeart rateCardiologyPsychologyBlood pressurePsychiatryMacroeconomicsEconomicsComputer scienceComputer securityHeart Rate Variability and Autonomic ControlTryptophan and brain disordersVagus Nerve Stimulation Research