As well as systemic vascular endothelial cells, the liver has specialised sinusoidal endothelial cells (LSEC). LSEC dysfunction has been documented in many diseased states yet their phenotype in normal human liver has not been comprehensively assessed. Our aim was to improve characterisation of subsets of endothelial cells and associated pericytes in the human liver. Immunofluorescence microscopy was performed on normal human liver tissue samples to assess endothelial and structural proteins in a minimum of three donors. LSEC are distributed in an acinar pattern and universally express CD36, but two distinctive subsets of LSEC can be identified in different acinar zones. Type 1 LSEC are CD36hiCD32−CD14−LYVE-1− and are located in acinar zone 1 of the lobule, while Type 2 LSEC are LYVE-1+CD32hiCD14+CD54+CD36mid-lo and are located in acinar zones 2 and 3 of the lobule. Portal tracts and central veins can be identified using markers for systemic vascular endothelia and pericytes, none of which are expressed by LSEC. In areas of low hydrostatic pressure LSEC are lined by stellate cells that express the pericyte marker CD146. Our findings identify distinctive populations of LSEC and distinguish these cells from adjacent stellate cells, systemic vasculature and pericytes in different zones of the liver acinus.
The presence of a high CCA bifurcation should caution surgeons that the hypoglossal nerve lies in closer proximity and is more vulnerable. Preoperatively documenting the level of the CCA bifurcation may be helpful in identifying those patients at increased risk of iatrogenic injury.
From October 1993 to February 2007, 25 liver transplantations were performed for hepatoblastoma. Of these 25, 18 children received cadaveric grafts, and 7 received left lateral segments from living donors. Fifteen patients were at level IV in the pretreatment extent of disease staging system for hepatoblastoma (PRETEXT IV; 11 received cadaveric grafts and 4 underwent living related liver transplantation [LRLT]) and 10 were level III (PRETEXT III; 7 received cadaveric grafts and 3 underwent LRLT). Preoperative chemotherapy was given according to the risk stratification system for children with hepatoblastoma protocols of the International Childhood Liver Tumour Strategy Group of the International Society of Paediatric Oncology (SIOPEL): SIOPEL I in the first 3 patients, SIOPEL II in 6, SIOPEL III in 10, and SIOPEL IV in 3 patients. Patient and graft survival after cadaveric transplantation was 91%, 77.6%, and 77.6%, at 1, 5, and 10 years, respectively, with no retransplantations. Patient and graft survival for children undergoing LRLT was 100%, 83.3%, and 83.3%, at 1, 5, and 10 years, respectively. All surviving children but 1 remain disease‐free, with a median follow up of 6.8 years (range, 0.9‐14.9). There were 5 deaths at a median of 13 months post‐transplantation, secondary to tumor recurrence (4) and respiratory failure (1). Liver transplantation is an established treatment for unresectable hepatoblastoma confined to the liver following chemotherapy. LRLT is a therapeutic option given that the outcome is similar to that of resection and cadaveric transplantation. Liver Transpl 14:1614–1619, 2008. © 2008 AASLD.
The mononuclear phagocytic system (MPS), comprised of monocytes, macrophages, and dendritic cells, is essential in tissue homeostasis and in determining the balance of the immune response through its role in antigen presentation. It has been identified as a therapeutic target in infectious disease, cancer, autoimmune disease and transplant rejection. Here, we review the current understanding of the immunophenotype and function of the MPS in normal human liver. Using well-defined selection criteria, a search of MEDLINE and EMBASE databases identified 76 appropriate studies. The majority (n=67) described Kupffer cells (KCs), although the definition of KC differs between sources, and little data were available regarding their function. Only 10 papers looked at liver dendritic cells (DCs), and largely confirmed the presence of the major dendritic cell subsets identified in human blood. Monocytes were thoroughly characterized in four studies that utilized flow cytometry and fluorescent microscopy and highlighted their prominent role in liver homeostasis and displayed subtle differences from circulating monocytes. There was some limited evidence that liver DCs are tolerogenic but neither liver dendritic cell subsets nor macrophages have been thoroughly characterized, using either multi-colour flow cytometry or multi-parameter fluorescence microscopy. The lobular distribution of different subsets of liver MPS cells was also poorly described, and the ability to distinguish between passenger leukocytes and tissue resident cells remains limited. It was apparent that further research, using modern immunological techniques, is now required to accurately characterize the cells of the MPS in human liver.
Pancreatic neuroendocrine tumors (pNETs) are uncommon cancers arising from pancreatic islet cells. Here we report the analysis of gene mutation, copy number, and RNA expression of 57 sporadic well-differentiated pNETs. pNET genomes are dominated by aneuploidy, leading to concordant changes in RNA expression at the level of whole chromosomes and chromosome segments. We observed two distinct patterns of somatic pNET aneuploidy that are associated with tumor pathology and patient prognosis. Approximately 26% of the patients in this series had pNETs with genomes characterized by recurrent loss of heterozygosity (LoH) of 10 specific chromosomes, accompanied by bi-allelic MEN1 inactivation and generally poor clinical outcome. Another ~40% of patients had pNETs that lacked this recurrent LoH pattern but had chromosome 11 LoH, bi-allelic MEN1 inactivation, and universally good clinical outcome. The somatic aneuploidy allowed pathogenic germline variants (e.g., ATM) to be expressed unopposed, with RNA expression patterns showing inactivation of downstream tumor suppressor pathways. No prognostic associations were found with tumor morphology, single gene mutation, or expression of RNAs reflecting the activity of immune, differentiation, proliferative or tumor suppressor pathways. In pNETs, single gene mutations appear to be less important than aneuploidy, with MEN1 the only statistically significant recurrently mutated driver gene. In addition, only one pNET in the series had clearly actionable single nucleotide variants (SNVs) (in PTEN and FLCN) confirmed by corroborating RNA expression changes. The two clinically relevant patterns of LoH described here define a novel oncogenic mechanism and a plausible route to genomic precision oncology for this tumor type.
Protocol biopsy results in the first few weeks after liver transplantation sometimes display histologic features of acute cellular rejection (ACR), even in the absence of significant clinical or biochemical dysfunction. At present there is no clear consensus about the need to treat such cases with adjuvant immunosuppression. This systematic review describes, from the available evidence, the natural history of untreated histologic ACR in the absence of biochemical graft dysfunction. An electronic search of the Medline, Embase, and Cochrane Library databases was performed to select studies that reported protocol liver biopsies in the early posttransplant period from 1983 to 2000. Studies that identified patients with ACR on protocol biopsy who were not treated with adjuvant immunosuppression formed the basis of the study group. Data from individual studies were extracted using standardized pro forma and pooled for descriptive analysis. The search identified 343 1 studies, of which 5 16 were cited in full. Of these, 15 studies met all of the inclusion criteria. These 15 studies reported on 1566 patients who had protocol biopsies performed in the early posttransplant period, of which 1048 (67%) had histologic evidence of ACR. Three hundred and thirty one (32%) patients with histologic ACR on protocol biopsy had no associated biochemical graft dysfunction. Without treatment, only 14% of these patients subsequently developed biochemical graft dysfunction requiring adjuvant immunosuppression. Steroid-resistant rejection and chronic rejection both had a prevalence of 4% in patients with untreated histologic ACR and no biochemical graft dysfunction. Withholding adjuvant immunosuppression from patients with histologic ACR and no biochemical graft dysfunction seems to be safe, as long as graft function is carefully monitored. The rationale for performing protocol biopsies in the absence of biochemical grafi dysfunction is questionable.
Background. The impact of hepatic steatosis on outcome following hepatic ischemia-reperfusion injury (IRI) remains controversial with conflicting clinical results. A number of experimental studies have been published examining the relationship between hepatic steatosis and IRI. This systematic review evaluates these experimental studies. Methods. An electronic search of the Medline and Embase databases (January 1946 to June 2012) was performed to identify studies that reported relevant outcomes in animal models of hepatic steatosis subjected to IRI. Results. A total of 1314 articles were identified, of which 33 met the predefined criteria and were included in the study. There was large variation in the type of animal model, duration, and type of IRI and reporting of histological findings. Increased macrovesicular steatosis (>30%) was associated with increased histological damage, liver function derangement, and reduced survival. Increased duration of warm or cold ischemia had a negative impact on all outcomes measured. Microvesicular steatosis did not influence outcome. Conclusions. Findings from this systemic review support the hypothesis that livers with >30% macrovesicular steatosis are less tolerant of IRI. Clinically, it is likely that these findings are applicable to patients undergoing hepatic resection, but further studies are required to confirm these data.
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