AI Article Synopsis
- - Acute alcohol consumption can disrupt the balance of the cardiac autonomic nervous system, potentially leading to heart rhythm issues known as 'Holiday Heart Syndrome' due to increased sympathetic and reduced parasympathetic activity.
- - In a study involving 15 healthy individuals, significant changes were observed in heart function metrics during and after alcohol administration, including increased periodic repolarization dynamics (PRD) and decreased deceleration capacity (DC) at maximum alcohol concentration.
- - The results indicated a higher mean heart rate and prolonged QRS and QTc intervals while standard heart rate variability measures decreased, suggesting that alcohol intoxication can create a state conducive to atrial arrhythmias.
Article Abstract
Acute alcohol consumption may facilitate cardiac arrhythmias underlying the 'Holiday Heart Syndrome'. Autonomic imbalance is promoting atrial arrhythmias. We analyzed the effects of alcohol on measures of the cardiac autonomic nervous system and their relation to arrhythmias. In 15 healthy individuals, alcohol was administered parenterally until a breath alcohol concentration of 0.50 mg/l. High-resolution digital 30-min ECGs were recorded at baseline, at the time of maximum alcohol concentration, and after alcohol concentration returned to near baseline. Using customized software, we assessed periodic repolarization dynamics (PRD), deceleration capacity (DC), standard measures of heart rate variability (SDNN; RMSSD; LF; HF), and standard ECG parameters (mean heart rate; PQ; QRS; QTc interval). At the maximum alcohol concentration, PRD levels were significantly increased compared to baseline [1.92 (IQR 1.14-3.33) deg vs. 0.85 (0.69-1.48) deg; p = 0.001]. PRD levels remained slightly increased when alcohol concentrations returned to baseline. DC levels were significantly decreased at the maximum alcohol concentration compared to baseline [7.79 (5.89-9.62) ms vs. 9.97 (8.20-10.99) ms; p = 0.030], and returned to baseline levels upon reaching baseline levels of alcohol. Standard HRV measures were reduced at maximum alcohol concentration. The mean heart rate increased significantly during alcohol administration. QRS and QTc duration were significantly prolonged, whereas PQ interval showed no change. Our findings revealed an increase of sympathetic activity and a reduction of parasympathetic activity under the influence of alcohol administration, resulting in autonomic imbalance. This imbalance might ultimately trigger arrhythmias underlying the 'Holiday Heart Syndrome'.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8225621 | PMC |
| http://dx.doi.org/10.1038/s41598-021-92767-y | DOI Listing |
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