Exploring the Enhanced Liver Regeneration Patterns Following ALPPS Versus Selective Portal Vein Ligation in an Experimental Model

Exploring the Enhanced Liver Regeneration Patterns Following ALPPS Versus Selective Portal Vein Ligation in an Experimental Model

ABSTRACT Background Associating liver partition and portal vein ligation (PVL) for staged hepatectomy (ALPPS) and selective PV embolization (PVE) are important clinical strategies in liver surgery. Even though it has been demonstrated that ALPPS induces a more rapid and expressed hypertrophy than PV...

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Main Authors: Dora Krisztina Tihanyi, Attila Szijarto, Andras Fulop, Decan Jiang, Lisa Ernst, Franziska Alexandra Meister, Christian Bleilevens, Alexander Theissen, Henrik Nienhüser, Deniz Uluk, Georg Lurje, Mehrabi Arianeb, Rene H. Tolba, Zoltan Czigany
Format: Article
Language:English
Published: Wiley 2025-06-01
Series:Cancer Reports
Subjects:
ALPPS
animal model
hypertrophy
liver
regeneration
Online Access:https://doi.org/10.1002/cnr2.70221
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Summary:ABSTRACT Background Associating liver partition and portal vein ligation (PVL) for staged hepatectomy (ALPPS) and selective PV embolization (PVE) are important clinical strategies in liver surgery. Even though it has been demonstrated that ALPPS induces a more rapid and expressed hypertrophy than PVL/PVE, this phenomenon is still not well understood. Aim In the present study, we aimed to characterize enhanced regeneration patterns in a rat model. Methods Male Wistar rats were used (n = 84; 220–250 g). Selective PVL and ALPPS were achieved using microsurgical techniques (RML‐regenerating/LML‐non‐regenerating). Parameters of liver regeneration, microcirculation, hepatocyte morphology, hepatocellular injury, and activation status of certain protein kinases involved in liver regeneration were investigated. Results Right median lobe (RMLs) in the ALPPS group exhibited a more significant and rapid hypertrophy compared to PVL (regeneration ratio, 1.669 ± 0.155 vs. 1.980 ± 0.189, p = 0.009, PVL vs. ALPPS). ALPPS led to a more prominent hepatocellular injury. Hypertrophy was associated with increased microcirculation of the RML and a prominent increase of hepatocellular size (300.43 ± 31.92 μm2 vs. 374.48 ± 58.34 μm2, PVL vs. ALPPS) and morphology. There was an early pAkt/Akt activation after surgery which was significantly higher in ALPPS (5 ± 2 vs. 9.7 ± 3 RQ‐fold‐change, p = 0.0087, PVL vs. ALPPS). Conclusions Our results suggest that the enhanced regeneration in ALPPS is associated with characteristic changes in liver microcirculation, cell division, hepatocyte morphology, and activation of pAkt/Akt.
ISSN:2573-8348

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