Cell detachment during sinusoidal reperfusion after liver preservation: an in vitro model.

Background: Sinusoidal endothelial cells (SEC) are significantly more vulnerable to cold storage and reperfusion than hepatocytes. Swelling and disruption of the sinusoidal lining induce the microcirculatory disturbances seen after reperfusion. In this article, the investigation of a method to assess the adhesion and morphology of SEC in vitro during reperfusion after preservation is described.

Methods: Time-lapse video microscopy analysis was performed and cell detachment rates and cell lengths were determined. Preservation intervals between 6 and 24 hr and flow rates ranging from 3 L/min to 9 L/min (resulting in shear stresses between 5.1 and 15.3 dynes/cm2 on the monolayer surface) during reperfusion period were compared. SEC that were stored for 6 hr in University of Wisconsin solution and nonpreserved control cultures were compared.

Results: Varying the preservation intervals from 6 hr to 24 hr during reperfusion at a flow rate of 3 L/min led to increased cell erosion rates (6 hr, 35.5+/-15.2%; 12 hr, 38.0+/-7.6%; 18 hr, 54.3+/-5.7%; 24 hr, 76.7+/-6.7%; nonpreserved cells, 3.4+/-3.4%). Storage periods from 12 hr to 24 hr led to significantly higher cell detachment rates than occurred in nonpreserved cells.

Conclusions: This method allows the investigation of the adhesion capability and morphology of individual cells in vitro. Indications of the kind of preservation/reperfusion injury that occurs after treatment with several preservation solutions and the resultant repair behavior can be obtained.