Pulmonary vascular clearance of harmful endogenous macromolecules in a porcine model of acute liver failure
Permanent lenke
https://hdl.handle.net/10037/24885Dato
2019-05-30Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Nedredal, Geir Ivar; Elvevold, Kjetil Helge; Chedid, MF; Ytrebø, Lars Marius; Rose, CF; Sen, S; Smedsrød, Bård; Jalan, R; Revhaug, ArthurSammendrag
Results. As compared to controls, the ALF group displayed a 4-fold net increased lung uptake of hyaluronan, and 5-fold net increased uptake of both tissue plasminogen activator and lysosomal enzymes. Anatomical distribution experiments in healthy animals revealed that radiolabeled MA uptake (taken up by the same receptor as hyaluronan) was 53% by the liver, and 24% by the lungs. The lung uptake of LPS was 14% whereas 60% remained in the blood. Both fluorescence and electron microscopy revealed initial uptake of MA by pulmonary endothelial cells (PECs) with later translocation to pulmonary intravascular macrophages (PIMs). Moreover, the presence of PIMs was evident 10 min after injection. Systemic inflammatory markers such as leukopenia and increased serum TNF-α levels were evident after 20 min in the MA and LPS groups.
Conclusion. Significant lung uptake of harmful soluble macromolecules compensated for the defect liver scavenger function in the ALF-group. Infusion of MA induced increased TNF-α serum levels and leukopenia, similar to the effect of the known inflammatory mediator LPS. These observations suggest a potential mechanism that may contribute to lung damage secondary to liver disease.