The Annals of Thoracic Surgery, Vol 55, 741-746, Copyright © 1993 by The Society of Thoracic Surgeons
Pulmonary artery balloon counterpulsation: safe after peripheral placement
GV Letsou, KL Franco, W Detmer, S Condos, S Wolvek, GJ Smith and JC Baldwin
Section of Cardiothoracic Surgery, Yale University, New Haven, Connecticut.
Pulmonary artery balloon counterpulsation is a promising experimental
technique for treatment of right ventricular failure. However, clinical
application has been limited in that the only device presently available
(the large-volume intraaortic balloon) must be placed within a synthetic
graft. Because a balloon with a smaller volume (which could be placed
through a peripheral vein and be contained entirely within the pulmonary
artery) would make the technique feasible on a wider scale, we tested an
8-mL pulmonary artery balloon placed through the femoral vein in 12 dogs.
Two groups of animals were compared. One group had the pulmonary artery
balloon in place but not counterpulsating; the other had the pulmonary
artery balloon in place and counterpulsating. Each group was studied for 12
hours. A variety of hemodynamic parameters were measured. Effective
diastolic augmentation and systolic unloading were noted in all 6 dogs that
underwent counterpulsation (5.0 +/- 1.1 mm Hg of diastolic augmentation and
9.5 +/- 1.6 mm Hg of systolic unloading). Pulmonary function, as measured
by arterial blood gas sampling and pulmonary vascular resistance, was not
impaired. Examination of the heart and lungs showed no detrimental
pathologic effects of pulmonary artery balloon counterpulsation. Placement
of the balloon through a peripheral vein with a guidewire was easy and
uncomplicated. We conclude that pulmonary artery balloon counterpulsation
is safe over an extended period of 12 hours in the canine model and that
diastolic augmentation and systolic unloading can be produced.
