Exercise-induced intrapulmonary arteriovenous shunting in healthy humans

doi:10.1152/japplphysiol.00137.2004

Exercise-induced intrapulmonary arteriovenous shunting in healthy humans

Marlowe W. Eldridge,¹^,2 Jerome A. Dempsey,¹ Hans C. Haverkamp,¹ Andrew T. Lovering,¹ and John S. Hokanson²

¹John Rankin Laboratory of Pulmonary Medicine, Population Health Sciences and ²Department of Pediatrics, University of Wisconsin, Madison, Wisconsin 53705

Submitted 5 February 2004 ; accepted in final form 20 April 2004

We hypothesized that increasing exercise intensity recruitsdormant arteriovenous intrapulmonary shunts, which may contributeto the widened alveolar-arterial oxygen difference seen withexercise. Twenty-three healthy volunteers (13 men and 10 women,aged 23–48 yr) with normal lung function and a wide rangeof fitness (mean maximal oxygen uptake = 126% predicted; range= 78–200% predicted) were studied by agitated saline contrastechocardiography (4-chamber apical view). All 23 subjects hadnormal resting contrast echocardiograms without evidence ofintracardiac or intrapulmonary shunting. However, with cycleergometer exercise, 21 of 23 (91%) of the subjects showed adelayed (>3 cardiac cycles) appearance of contrast bubblesin the left heart. This pattern is consistent with passage ofcontrast bubbles through the pulmonary circulation. Becausethe contrast bubbles are known to be significantly larger thanpulmonary capillaries, we propose that they are traveling throughdirect arteriovenous intrapulmonary shunts. In all cases, theintrapulmonary shunting developed at submaximal oxygen uptakes[%maximal oxygen uptake = 59 ± 20 (SD)] and once evidentpersisted at all subsequent work rates. Within 3 min of exercisetermination, the contrast echocardiograms with bubble injectionshowed no evidence of intrapulmonary shunting. These dynamicshunts will contribute significantly to the widened alveolar-arterialoxygen difference seen with exercise. They may also act as aprotective parallel vascular network limiting the rise in regionalpulmonary vascular pressure while preserving cardiac outputduring exercise.

pulmonary circulation; pulmonary gas exchange; exercise-induced hypoxemia

Address for reprint requests and other correspondence: M. W. Eldridge, John Rankin Laboratory of Pulmonary Medicine, Univ. of Wisconsin, Medical School, H4/422 Clinical Sciences Center, 600 Highland Ave., Madison, WI 53792-4108 (E-mail: meldridge{at}wisc.edu).

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