ALPPS: from human to mice highlighting accelerated and novel mechanisms of liver regeneration.
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Version: Final published version
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State: Public
Version: Final published version
License: Not specified
Serval ID
serval:BIB_0CC98985E8EF
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
ALPPS: from human to mice highlighting accelerated and novel mechanisms of liver regeneration.
Journal
Annals of surgery
ISSN
1528-1140 (Electronic)
ISSN-L
0003-4932
Publication state
Published
Issued date
11/2014
Peer-reviewed
Oui
Volume
260
Number
5
Pages
839-46; discussion 846-7
Language
english
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: ppublish
Publication Status: ppublish
Abstract
To develop a reproducible animal model mimicking a novel 2-staged hepatectomy (ALPPS: Associating Liver Partition and Portal Vein Ligation for Staged Hepatectomy) and explore the underlying mechanisms.
ALPPS combines portal vein ligation (PVL) with liver transection (step I), followed by resection of the deportalized liver (step II) within 2 weeks after the first surgery. This approach induces accelerated hypertrophy of the liver remnant to enable resection of massive tumor load. To explore the underlying mechanisms, we designed the first animal model of ALPPS in mice.
The ALPPS group received 90% PVL combined with parenchyma transection. Controls underwent either transection or PVL alone. Regeneration was assessed by liver weight and proliferation-associated molecules. PVL-treated mice were subjected to splenic, renal, or pulmonary ablation instead of hepatic transection. Plasma from ALPPS-treated mice was injected into mice after PVL. Gene expression of auxiliary mitogens in mouse liver was compared to patients after ALPPS or PVL.
The hypertrophy of the remnant liver after ALPPS doubled relative to PVL, whereas mice with transection alone disclosed minimal signs of regeneration. Markers of hepatocyte proliferation were 10-fold higher after ALPPS, when compared with controls. Injury to other organs or ALPPS-plasma injection combined with PVL induced liver hypertrophy similar to ALPPS. Early initiators of regeneration were significantly upregulated in human and mice.
ALPPS in mice induces an unprecedented degree of liver regeneration, comparable with humans. Circulating factors in combination with PVL seem to mediate enhanced liver regeneration, associated with ALPPS.
ALPPS combines portal vein ligation (PVL) with liver transection (step I), followed by resection of the deportalized liver (step II) within 2 weeks after the first surgery. This approach induces accelerated hypertrophy of the liver remnant to enable resection of massive tumor load. To explore the underlying mechanisms, we designed the first animal model of ALPPS in mice.
The ALPPS group received 90% PVL combined with parenchyma transection. Controls underwent either transection or PVL alone. Regeneration was assessed by liver weight and proliferation-associated molecules. PVL-treated mice were subjected to splenic, renal, or pulmonary ablation instead of hepatic transection. Plasma from ALPPS-treated mice was injected into mice after PVL. Gene expression of auxiliary mitogens in mouse liver was compared to patients after ALPPS or PVL.
The hypertrophy of the remnant liver after ALPPS doubled relative to PVL, whereas mice with transection alone disclosed minimal signs of regeneration. Markers of hepatocyte proliferation were 10-fold higher after ALPPS, when compared with controls. Injury to other organs or ALPPS-plasma injection combined with PVL induced liver hypertrophy similar to ALPPS. Early initiators of regeneration were significantly upregulated in human and mice.
ALPPS in mice induces an unprecedented degree of liver regeneration, comparable with humans. Circulating factors in combination with PVL seem to mediate enhanced liver regeneration, associated with ALPPS.
Keywords
Animals, Biomarkers/blood, Cholecystectomy, Enzyme-Linked Immunosorbent Assay, Hepatectomy/methods, Humans, Hypertrophy, Kidney/surgery, Ligation, Liver Regeneration, Lung/surgery, Mice, Mice, Inbred C57BL, Models, Animal, Portal Vein/surgery, Real-Time Polymerase Chain Reaction, Spleen/surgery
Pubmed
Open Access
Yes
Create date
15/02/2017 10:36
Last modification date
11/04/2023 9:15