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Exercise-induced intrapulmonary shunting of venous gas emboli does not occur after open-sea diving

eljko Duji,¹ Ivan Palada,¹ Ante Obad,¹ Darko Duplani,¹ Alf O. Brubakk,² and Zoran Valic¹

¹Department of Physiology and Biophysics, University of Split School of Medicine, Split, Croatia; and ²Department of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, Norway

Submitted 30 December 2004 ; accepted in final form 14 April 2005

Paradoxical arterializations of venous gas emboli can lead to neurological damage after diving with compressed air. Recently, significant exercise-induced intrapulmonary anatomical shunts have been reported in healthy humans that result in widening of alveolar-to-arterial oxygen gradient. The aim of this study was to examine whether intrapulmonary shunts can be found following strenuous exercise after diving and, if so, whether exercise should be avoided during that period. Eleven healthy, military male divers performed an open-sea dive to 30 m breathing air, remaining at pressure for 30 min. During the bottom phase of the dive, subjects performed mild exercise at 30% of their maximal oxygen uptake. The ascent rate was 9 m/min. Each diver performed graded upright cycle ergometry up to 80% of the maximal oxygen uptake 40 min after the dive. Monitoring of venous gas emboli was performed in both the right and left heart with an ultrasonic scanner every 20 min for 60 min after reaching the surface pressure during supine rest and following two coughs. The diving profile used in this study produced significant amounts of venous bubbles. No evidence of intrapulmonary shunting was found in any subject during either supine resting posture or any exercise grade. Also, short strenuous exercise after the dive did not result in delayed-onset decompression sickness in any subject, but studies with a greater number of participants are needed to confirm whether divers should be allowed to exercise after diving.

decompression sickness; echocardiography; maximal oxygen consumption; human

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