Extrahepatic Bile Duct Organoids as a Model to Study Ischemia/Reperfusion Injury During Liver Transplantation.

Biliary complications are still a major cause for morbidity and mortality after liver transplantation (LT). Ischemia/reperfusion injury (IRI) leads to disruption of the biliary epithelium. We introduce a novel model to study the effect of IRI on human cholangiocytes using extrahepatic cholangiocyte organoids (ECOs). Extrahepatic bile duct tissue was collected during LT at static cold storage and after reperfusion (n = 15); gallbladder tissue was used for controls (n = 5). ECOs (n = 9) were cultured from extrahepatic biliary tissue, with IRI induced in an atmosphere of 95% air (nitrogen), 1% O2 and 5% CO2for 48 h, followed by 24 h of reoxygenation. Qualitative and quantitative histology and qRT-PCR were performed to discern phenotype, markers of hypoxia, programmed cell death and proliferation. ECOs self-organized into circular structures resembling biliary architecture containing cholangiocytes that expressed EpCAM, CK19, LGR5 and SOX-9. After hypoxia, ECOs showed increased expression of VEGF A (p < 0.0001), SLC2A1 (p < 0.0001) and ACSL4 (p < 0.0001) to indicate response to hypoxic damage and subsequent programmed cell death. Increase in cyclin D1 (p < 0.0001) after reoxygenation indicated proliferative activity in ECOs. Therefore, ECO structure and response to IRI are comparable to that found in-vivo, providing a suitable model to study IRI of the bile duct in-vitro.

Cholangiocyte Organoids in Liver Transplantation; a Comprehensive Review.

Liver transplantation is the only curative option for many liver diseases that end up in liver failure, and cholangiopathy remains a challenging complication post-liver transplant, associated with significant morbidity and potential graft loss. The low availability of organs and high demand for transplantation motivate scientists to find novel interventions. Organoids, as three-dimensional cell cultures derived from adult cells or induced pluripotent cells, may help to address this problem. Different types of organoids have been described, from which cholangiocyte organoids offer a high level of versatility and plasticity for a deeper study of liver disease mechanisms. Cholangiocytes can be obtained from different segments of the biliary tree and have shown a remarkable capacity to adapt to new environments, presenting an effective system for studying cholangiopathies. Studies using cholangiocyte organoids show promising results for disease modeling, where organoids offer fundamental features to recapitulate the complexities of tissues in vitro and uncover fundamental pathological pathways to potentially reveal therapeutic strategies for personalized medicine. Organoids could hold the potential for regeneration of injured livers, representing tools of clinical impact in regenerative medicine when tissue damage is already present.

Transplantation of Human Amniotic Membrane over the Liver Surface Reduces Hepatic Fibrosis in a Cholestatic Model in Young Rats.

PURPOSE: Biliary atresia precedes liver cirrhosis and liver transplantation. Amniotic membrane (AM) promotes tissue regeneration, inhibits fibrosis, and reduces inflammation. Here, we test amniotic membrane potential as a therapeutic tool against cholestatic liver fibrosis. METHODS: Three groups of rats were used: sham surgery (SS), bile duct ligature (BDL), and bile duct ligature plus human amniotic membrane (BDL + AM). After surgery, animals were sacrificed at different weeks. Biochemical and histopathological analyses of liver tissue were performed. Collagen was expressed as a percentage of total liver tissue area. qPCR was performed to analyse gene expression levels of transforming growth factor-ß1 (Tgfb1) and apelin (Apln). Statistical analysis performed considered p < 0.05 was significant. RESULTS: Groups undergoing BDL developed cholestasis. Biochemical markers from BDL + AM group improved compared to BDL group. Ductular reaction, portal fibrosis, and bile plugs were markedly reduced in the BDL + AM group compared to BDL group. Collagen area in BDL + AM group was statistically decreased compared to BDL group. Finally, expression levels of both Apln and Tgfb1 mRNA were statistically downregulated in BDL + AM group versus BDL group. CONCLUSION: AM significantly reduces liver fibrosis in a surgical animal model of cholestasis. Our results suggest that AM may be useful as a therapeutic tool in liver cirrhosis.

Perfil clínico de embarazadas con preeclampsia y embarazos no complicados / Clinical profile associated with preeclampsia and healthy pregnant women

Objetivo: Conocer las variables clínicas y de laboratorio de más frecuente presentación en pacientes con preeclampsia (PE) de dos hospitales de la Quinta Región. Pacientes y Métodos: Estudio prospectivo caso-control. Se estudiaron 44 mujeres con PE sin patología asociada divididas en dos grupos; uno con 25 embarazadas con PE moderada (PEM) y otro de 19 con PE severa (PES), y grupo control de 30 embarazadas normales. Resultados: El índice de masa corporal basal fue de 24,1 ± 4 para el grupo control, 25,8 ± 5 para el grupo con PEM y 26,1 ± 4 para el grupo PES, diferencias no significativas. La sintomatología clínica fue más frecuente en las pacientes con PES. Los valores de transaminasas y uricemia de ambos grupos con PE fueron mayores y los de plaquetas significativamente menores a los del grupo control. No hubo diferencia significativa en los valores de creatininemia y hematocrito. La proteinuria fue mayor en las pacientes con PES pero en la mayoría de estos se situó en rangos de 0,35 a 1,5 g/l. El Apgar de los recién nacidos fue similar en todos los grupos. Conclusiones: La sintomatología clínica es útil para la detección de PES. Valores de uricemia mayores de 4 mg/dl más cifras tensionales elevadas son altamente sugerente de PE. Un número importante de pacientes con PES presentó proteinuria inferior a 3 g/l, por lo que la ausencia de cifras mayores no debiera excluir la presencia de PES.