4.6 Article

Extreme Hypoxia Causing Brady-Arrythmias During Apnea in Elite Breath-Hold Divers

Journal

FRONTIERS IN PHYSIOLOGY
Volume 12, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fphys.2021.712573

Keywords

junctional rhythm; brady-arrythmia; free-diving; invasive blood pressure; hypoxia induced factor-1 (HIF-1); atrioventricular block; apnea and face immersion; bradycardia

Categories

Funding

  1. departments of Anesthesiology and Clinical Physiology Herlev
  2. Neurology Rigshospitalet, Denmark

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The study investigated the cardiovascular conditions of elite breath-hold-divers (BHD) during maximum apneas, similar to diving mammals, and found that hypoxia during apnea may cause brady-arrythmias in BHD.
Introduction: The cardiac electrical conduction system is very sensitive to hypoglycemia and hypoxia, and the consequence may be brady-arrythmias. Weddell seals endure brady-arrythmias during their dives when desaturating to 3.2 kPa and elite breath-hold-divers (BHD), who share metabolic and cardiovascular adaptions including bradycardia with diving mammals, endure similar desaturation during maximum apnea. We hypothesized that hypoxia causes brady-arrythmias during maximum apnea in elite BHD. Hence, this study aimed to define the arterial blood glucose (Glu), peripheral saturation (SAT), heart rhythm (HR), and mean arterial blood pressure (MAP) of elite BHD during maximum apneas.Methods: HR was monitored with Direct-Current-Pads/ECG-lead-II and MAP and Glu from a radial arterial-catheter in nine BHD performing an immersed and head-down maximal static pool apnea after three warm-up apneas. SAT was monitored with a sensor on the neck of the subjects. On a separate day, a 12-lead-ECG-monitored maximum static apnea was repeated dry (n = 6).Results: During pool apnea of maximum duration (385 +/- 70 s), SAT decreased from 99.6 +/- 0.5 to 58.5 +/- 5.5% (similar to PaO2 4.8 +/- 1.5 kPa, P < 0.001), while Glu increased from 5.8 +/- 0.2 to 6.2 +/- 0.2 mmol/l (P = 0.009). MAP increased from 103 +/- 4 to 155 +/- 6 mm Hg (P < 0.005). HR decreased to 46 +/- 10 from 86 +/- 14 beats/minute (P < 0.001). HR and MAP were unchanged after 3-4 min of apnea. During dry apnea (378 +/- 31 s), HR decreased from 55 +/- 4 to 40 +/- 3 beats/minute (P = 0.031). Atrioventricular dissociation and junctional rhythm were observed both during pool and dry apneas.Conclusion: Our findings contrast with previous studies concluding that Glu decreases during apnea diving. We conclude during maximum apnea in elite BHD that (1) the diving reflex is maximized after 3-4 min, (2) increasing Glu may indicate lactate metabolism in accordance with our previous results, and (3) extreme hypoxia rather than hypoglycemia causes brady-arrythmias in elite BHD similar to diving mammals.

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