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The Journal of Thoracic and Cardiovascular Surgery, Vol 104, 1075-1083, Copyright © 1992 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association
JD Puskas, T Hirai, N Christie, E Mayer, AS Slutsky and GA Patterson
We examined the hypothesis that the degree of inflation of the lungs at the
time of harvest may have an important role in postpreservation function.
Lungs of donor dogs randomly assigned to groups 1 (n = 5) and 2 (n = 5)
were ventilated with large tidal volumes (tidal volume, 25 ml/kg; positive
end-expiratory pressure, 5 cm H2O; respiratory rate, 12 breaths/min,
inspired oxygen fraction 1.0) and were inflated to 30 cm H2O for 15 seconds
before pulmonary artery flush and again immediately before tracheal
crossclamping. In group 3 (n = 5) donor lungs were normally ventilated
(tidal volume, 12.5 ml/kg, positive end-expiratory pressure 0 cm H2O;
respiratory rate 12 breaths/min, inspired oxygen fraction, 1.0) and were
not hyperinflated before pulmonary artery flushing; the trachea was
crossclamped at end-inspiration. In groups 1 and 3 a large bolus (25
micrograms/kg) of prostaglandin E1 was injected into the pulmonary artery
before flushing and was also added to the pulmonary artery flush solution
(500 micrograms/L). A rapid (approximately 50 seconds), high-volume mm Hg),
hypothermic (4 degrees C) pulmonary artery flush was performed in all
hypothermic (4 degrees C) pulmonary artery flush was performed in all
groups with modified Euro-Collins solution. Heart-lung blocks were stored
at 4 degrees C for approximately 29 hours before left single lung
allografting. An inflatable cuff was placed around the recipient right
pulmonary artery, allowing independent study of the transplanted lung.
Hyperinflated lungs harvested with or without prostaglandin E1 provided
equivalently excellent early posttransplant function (arterial oxygen
tension [mean +/- standard deviation]: group 1; 503 +/- 45, vs group 2; 529
+/- 150 mm Hg; inspired oxygen fraction 1.0). Mean arterial oxygen tension
was significantly lower in group 3 (116 +/- 78 mm Hg) than in either groups
1 or 2 (p < 0.0002 for either comparison). Copious reperfusion pulmonary
edema was a constant feature in group 3 but was not seen in groups 1 and 2.
All 10 recipients in groups 1 and 2 survived the 3-day assessment period
without difficulty; two of the five recipients in group 3 died during
initial unilateral perfusion of the transplanted lung. Donor
hyperventilation and inflation to 30 cm H2O before hypothermic storage can
help provide excellent posttransplantation lung function after 30-hour
preservation, with or without prostaglandin E1 pretreatment. We speculate
that this improvement may be due to effects of increased lung volume on
pulmonary vascular tone and/or surfactant metabolism.
ARTICLES
Reliable thirty-hour lung preservation by donor lung hyperinflation
Department of Surgery, University of Toronto, Toronto General Hospital, Ontario, Canada.
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