Accessibility Tools

Skip to main content

You must be a logged-in member of UHMS or a subscriber to the UHMS Journal in order to download the articles listed within these pages. If you are a member or subscriber, please log in using the Log In button above. If you would like to purchase a membership or a subscription, use the buttons below.

Search UHM/UBR

Cardiovascular effects of breath-hold diving at altitude

Claudio Marabotti, MD1; Marco Laurino, PhD2; Mirko Passera2; Danilo Cialoni, MD3; Enrico Franzino, MD4; Chiara Benvenuti, MA2; Alessandro Pingitore, MD2

1 Master in Underwater and Hyperbaric Medicine, Sant’Anna School of Advanced Studies, Pisa – Italy 2 CNR Institute of Clinical Physiology, Pisa – Italy
3 DAN Europe Research Division, Roseto degli Abruzzi – Italy
4 Diving Doctors Italy, Ravenna - Italy

CORRESPONDING AUTHOR: Claudio Marabotti – c.marabotti@gmail.com

ABSTRACT

Marabotti C, Laurino M, Passera M, Cialoni D, Franzino E, Benvenuti C, Pingitore A. Cardiovascular effects of breath-hold diving at altitude. Undersea Hyperb Med. 2024 Second Quarter; 51(2):189- 196.

Hypoxia, centralization of blood in pulmonary vessels, and increased cardiac output during physical exertion are the pathogenetic pathways of acute pulmonary edema observed during exposure to extraordinary environments. This study aimed to evaluate the effects of breath-hold diving at altitude, which exposes simultaneously to several of the stimuli mentioned above.

To this aim, 11 healthy male experienced divers (age 18-52y) were evaluated (by Doppler echocardiography, lung echography to evaluate ultrasound lung B-lines (BL), hemoglobin saturation, arterial blood pressure, fractional NO (Nitrous Oxide) exhalation in basal condition (altitude 300m asl), at altitude (2507m asl) and after breath-hold diving at altitude.
A significant increase in E/e’ ratio (a Doppler-echocardiographic index of left atrial pressure) was observed at altitude, with no further change after the diving session. The number of BL significantly increased after diving at altitude as compared to basal conditions. Finally, fractional exhaled nitrous oxide was significantly reduced by altitude; no further change was observed after diving.
Our results suggest that exposure to hypoxia may increase left ventricular filling pressure and, in turn, pulmonary capillary pressure. Breath-hold diving at altitude may contribute to interstitial edema (as evaluated by BL score), possibly because of physical efforts made during a diving session. The reduction of exhaled nitrous oxide at altitude confirms previous reports of nitrous oxide reduction after repeated exposure to hypoxic stimuli. This finding should be further investigated since reduced nitrous oxide production in hypoxic conditions has been reported in subjects prone to high-altitude pulmonary edema.

Keywords: acute pulmonary edema; breath-hold diving; nitric oxide

DOI:10.22462/687