Towards a model of biliary atresia - Pilot feasibility study in newborn piglets

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Towards a model of biliary atresia - Pilot feasibility study in newborn piglets. / Helt, Thora Wesenberg; Buelund, Lene; Borgwardt, Lise; Eriksen, Thomas; Johansen, Lars; de Nijs, Robin; Holm, Soren; Burrin, Douglas G.; Thymann, Thomas; Christensen, Vibeke Brix.

I: Biochemistry and Biophysics Reports, Bind 34, 101487, 2023.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Helt, TW, Buelund, L, Borgwardt, L, Eriksen, T, Johansen, L, de Nijs, R, Holm, S, Burrin, DG, Thymann, T & Christensen, VB 2023, 'Towards a model of biliary atresia - Pilot feasibility study in newborn piglets', Biochemistry and Biophysics Reports, bind 34, 101487. https://doi.org/10.1016/j.bbrep.2023.101487

APA

Helt, T. W., Buelund, L., Borgwardt, L., Eriksen, T., Johansen, L., de Nijs, R., Holm, S., Burrin, D. G., Thymann, T., & Christensen, V. B. (2023). Towards a model of biliary atresia - Pilot feasibility study in newborn piglets. Biochemistry and Biophysics Reports, 34, [101487]. https://doi.org/10.1016/j.bbrep.2023.101487

Vancouver

Helt TW, Buelund L, Borgwardt L, Eriksen T, Johansen L, de Nijs R o.a. Towards a model of biliary atresia - Pilot feasibility study in newborn piglets. Biochemistry and Biophysics Reports. 2023;34. 101487. https://doi.org/10.1016/j.bbrep.2023.101487

Author

Helt, Thora Wesenberg ; Buelund, Lene ; Borgwardt, Lise ; Eriksen, Thomas ; Johansen, Lars ; de Nijs, Robin ; Holm, Soren ; Burrin, Douglas G. ; Thymann, Thomas ; Christensen, Vibeke Brix. / Towards a model of biliary atresia - Pilot feasibility study in newborn piglets. I: Biochemistry and Biophysics Reports. 2023 ; Bind 34.

Bibtex

@article{27f64dd2179d458a89fad3ed4463cb1c,
title = "Towards a model of biliary atresia - Pilot feasibility study in newborn piglets",
abstract = "Biliary atresia (BA) is a rare congenital liver disease with unknown etiology, and it is the most common indication for liver transplantation in children. As BA infants suffer from intestinal malabsorption and neurodevelopmental deficits, it is necessary to identify optimal medical and nutritional strategies using appropriate neonatal animal models. We aim to determine the feasibility of using newborn piglets with surgically induced cholestasis (bile duct ligation (BDL)) to mimic clinical features of BA. Six piglets were subjected to abdominal surgery on day 4 after birth. The bile ducts were ligated, and the piglet were followed for up to 12 days. On day 12 the piglets were subjected to a hepatobiliary scintigraphy using the tracer radiolabeled Technetium(99m-tc)-mebrofenin, and blood samples were collected for biochemical profiling. Of the six piglets, hepatobiliary scintigraphy verified that two piglets (BDL) had no excretion of bile into the duodenum, i.e. full cholestasis with a hepatic extraction fraction of 84–87% and clearance time of 230–318 min. One piglet (SHAM) had bile excretion to the duodenum. In accordance with this, the BDL piglets had steatorrhea, and increased levels of bilirubin and gammaglutamyl transferase (GGT). The last three piglets were euthanized due to bile leakage or poor growth. Surgically induced cholestasis in young piglets, may offer an animal model that displays clinical characteristics of biliary atresia, including malabsorption, hyperbilirubinaemia, increased GGT and reduced hepatic excretory function. Following refinement, this animal model may be used to optimize feeding strategies to secure optimal nutrition and neurodevelopment for neonatal cholestasis/BA patients.",
keywords = "Animal model, Biliary atresia, Cholestasis, Hepatobiliary scintigraphy, Liver, Piglets",
author = "Helt, {Thora Wesenberg} and Lene Buelund and Lise Borgwardt and Thomas Eriksen and Lars Johansen and {de Nijs}, Robin and Soren Holm and Burrin, {Douglas G.} and Thomas Thymann and Christensen, {Vibeke Brix}",
note = "Publisher Copyright: {\textcopyright} 2023 The Authors",
year = "2023",
doi = "10.1016/j.bbrep.2023.101487",
language = "English",
volume = "34",
journal = "Biochemistry and Biophysics Reports",
issn = "2405-5808",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Towards a model of biliary atresia - Pilot feasibility study in newborn piglets

AU - Helt, Thora Wesenberg

AU - Buelund, Lene

AU - Borgwardt, Lise

AU - Eriksen, Thomas

AU - Johansen, Lars

AU - de Nijs, Robin

AU - Holm, Soren

AU - Burrin, Douglas G.

AU - Thymann, Thomas

AU - Christensen, Vibeke Brix

N1 - Publisher Copyright: © 2023 The Authors

PY - 2023

Y1 - 2023

N2 - Biliary atresia (BA) is a rare congenital liver disease with unknown etiology, and it is the most common indication for liver transplantation in children. As BA infants suffer from intestinal malabsorption and neurodevelopmental deficits, it is necessary to identify optimal medical and nutritional strategies using appropriate neonatal animal models. We aim to determine the feasibility of using newborn piglets with surgically induced cholestasis (bile duct ligation (BDL)) to mimic clinical features of BA. Six piglets were subjected to abdominal surgery on day 4 after birth. The bile ducts were ligated, and the piglet were followed for up to 12 days. On day 12 the piglets were subjected to a hepatobiliary scintigraphy using the tracer radiolabeled Technetium(99m-tc)-mebrofenin, and blood samples were collected for biochemical profiling. Of the six piglets, hepatobiliary scintigraphy verified that two piglets (BDL) had no excretion of bile into the duodenum, i.e. full cholestasis with a hepatic extraction fraction of 84–87% and clearance time of 230–318 min. One piglet (SHAM) had bile excretion to the duodenum. In accordance with this, the BDL piglets had steatorrhea, and increased levels of bilirubin and gammaglutamyl transferase (GGT). The last three piglets were euthanized due to bile leakage or poor growth. Surgically induced cholestasis in young piglets, may offer an animal model that displays clinical characteristics of biliary atresia, including malabsorption, hyperbilirubinaemia, increased GGT and reduced hepatic excretory function. Following refinement, this animal model may be used to optimize feeding strategies to secure optimal nutrition and neurodevelopment for neonatal cholestasis/BA patients.

AB - Biliary atresia (BA) is a rare congenital liver disease with unknown etiology, and it is the most common indication for liver transplantation in children. As BA infants suffer from intestinal malabsorption and neurodevelopmental deficits, it is necessary to identify optimal medical and nutritional strategies using appropriate neonatal animal models. We aim to determine the feasibility of using newborn piglets with surgically induced cholestasis (bile duct ligation (BDL)) to mimic clinical features of BA. Six piglets were subjected to abdominal surgery on day 4 after birth. The bile ducts were ligated, and the piglet were followed for up to 12 days. On day 12 the piglets were subjected to a hepatobiliary scintigraphy using the tracer radiolabeled Technetium(99m-tc)-mebrofenin, and blood samples were collected for biochemical profiling. Of the six piglets, hepatobiliary scintigraphy verified that two piglets (BDL) had no excretion of bile into the duodenum, i.e. full cholestasis with a hepatic extraction fraction of 84–87% and clearance time of 230–318 min. One piglet (SHAM) had bile excretion to the duodenum. In accordance with this, the BDL piglets had steatorrhea, and increased levels of bilirubin and gammaglutamyl transferase (GGT). The last three piglets were euthanized due to bile leakage or poor growth. Surgically induced cholestasis in young piglets, may offer an animal model that displays clinical characteristics of biliary atresia, including malabsorption, hyperbilirubinaemia, increased GGT and reduced hepatic excretory function. Following refinement, this animal model may be used to optimize feeding strategies to secure optimal nutrition and neurodevelopment for neonatal cholestasis/BA patients.

KW - Animal model

KW - Biliary atresia

KW - Cholestasis

KW - Hepatobiliary scintigraphy

KW - Liver

KW - Piglets

U2 - 10.1016/j.bbrep.2023.101487

DO - 10.1016/j.bbrep.2023.101487

M3 - Journal article

C2 - 37265596

AN - SCOPUS:85159824786

VL - 34

JO - Biochemistry and Biophysics Reports

JF - Biochemistry and Biophysics Reports

SN - 2405-5808

M1 - 101487

ER -

ID: 351231872