Search results for "MESH: Liver"

showing 9 items of 19 documents

Early evaluation using a radiomic signature of unresectable hepatic metastases to predict outcome in patients with colorectal cancer treated with FOL…

2020

PurposeThe objective of this study was to build and validate a radiomic signature to predict early a poor outcome using baseline and 2-month evaluation CT and to compare it to the RECIST1·1 and morphological criteria defined by changes in homogeneity and borders.MethodsThis study is an ancillary study from the PRODIGE-9 multicentre prospective study for which 491 patients with metastatic colorectal cancer (mCRC) treated by 5-fluorouracil, leucovorin and irinotecan (FOLFIRI) and bevacizumab had been analysed. In 230 patients, computed texture analysis was performed on the dominant liver lesion (DLL) at baseline and 2 months after chemotherapy. RECIST1·1 evaluation was performed at 6 months. …

MaleOncologyColorectal cancermedicine.medical_treatmentLeucovorinKaplan-Meier Estimate030218 nuclear medicine & medical imagingMESH: Camptothecin / administration & dosage; Camptothecin / analogs & derivatives; Colorectal Neoplasms / drug therapy; Colorectal Neoplasms / pathology; Computational Biology; Female0302 clinical medicineAntineoplastic Combined Chemotherapy ProtocolsProspective StudiesProspective cohort studyAged 80 and overLiver NeoplasmsGastroenterologyMESH: Radiographic Image Interpretation Computer-Assisted; Response Evaluation Criteria in Solid Tumors; Survival Rate;Tomography X-Ray ComputedMiddle AgedBevacizumabSurvival Rate030220 oncology & carcinogenesisCohortFOLFIRIRadiographic Image Interpretation Computer-AssistedFemaleFluorouracilColorectal NeoplasmsClinical decision makingmedicine.drugAdultmedicine.medical_specialtyBevacizumab[SDV.CAN]Life Sciences [q-bio]/CancerMESH: Fluorouracil / administration & dosage; Humans; Kaplan-Meier Estimate; Leucovorin / administration & dosage; Liver Neoplasms / diagnostic imagingComputerised image analysis03 medical and health sciencesColorectal metastasesMESH: Adult; Aged 80 and over; Antineoplastic Combined Chemotherapy Protocols / administration & dosage; Bevacizumab / administration & dosage; Camptothecin / administration & dosagePredictive Value of TestsInternal medicine[INFO.INFO-IM]Computer Science [cs]/Medical ImagingmedicineHumansChemotherapyResponse Evaluation Criteria in Solid TumorsMESH: Liver Neoplasms / secondary; Male; Middle Aged; Predictive Value of Tests; Prospective StudiesAgedChemotherapybusiness.industryComputational Biology[SDV.MHEP.HEG]Life Sciences [q-bio]/Human health and pathology/Hépatology and Gastroenterologymedicine.diseaseColorectal cancerLog-rank testIrinotecanCamptothecinTomography X-Ray ComputedbusinessGut
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Expression and differential localization of xenobiotic transporters in the rat olfactory neuro-epithelium.

2011

International audience; Transporters, such as multidrug resistance P-glycoproteins (MDR), multidrug resistance-related proteins (MRP) and organic anion transporters (OATs), are involved in xenobiotic metabolism, particularly the cellular uptake or efflux of xenobiotics (and endobiotics) or their metabolites. The olfactory epithelium is exposed to both inhaled xenobiotics and those coming from systemic circulation. This tissue has been described as a pathway for xenobiotics to the brain via olfactory perineural space. Thereby, olfactory transporters and xenobiotic metabolizing enzymes, dedicated to the inactivation and the elimination of xenobiotics, have been involved in the toxicological p…

Male[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : Multidrug Resistance-Associated Proteinsp glycoproteinATP-binding cassette transporterMESH : HepatocytesReceptors OdorantMESH : P-GlycoproteinMESH: HepatocytesMESH : Lymphatic Vessels0302 clinical medicineMESH : Protein Transportugt2a1MESH: SmellMESH: Receptors OdorantMESH: AnimalsReceptorxenobiotic metabolizingmucosa0303 health sciencesMESH : Gene Expression RegulationMESH : RatsGeneral NeuroscienceMESH : OdorsMESH: Gene Expression RegulationSmellProtein Transportmedicine.anatomical_structureBiochemistryLivertransporterbarrierEffluxMultidrug Resistance-Associated ProteinsMESH: Multidrug Resistance-Associated ProteinsMESH: XenobioticsMESH: Protein TransportMESH: P-GlycoproteinMESH: RatsMESH: Lymphatic VesselsMESH : Maleodorant clearancebrainMESH : XenobioticsxenobioticBiologysystemMESH : Rats WistarOlfactory Receptor NeuronsXenobiotics03 medical and health sciencesbulbOlfactory Mucosamultidrug resistanceMESH : Receptors OdorantmedicineAnimalsATP Binding Cassette Transporter Subfamily B Member 1Rats WistardetoxificationMESH: Olfactory Mucosa030304 developmental biologyLymphatic VesselsMESH : Olfactory MucosaMESH: OdorsMESH : LiverTransporterMESH: Rats WistarMESH: Olfactory Receptor NeuronsEpitheliumMESH: MaleOlfactory bulbRatsenzymeGene Expression RegulationOdorantsHepatocytesMESH : SmellMESH : Olfactory Receptor NeuronsMESH : Animalsolfactory epitheliumOlfactory epitheliumperireceptor event[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryDrug metabolismMESH: Liver
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Effects of a high-fat diet on energy metabolism and ROS production in rat liver.

2011

International audience; BACKGROUND & AIMS: A high-fat diet affects liver metabolism, leading to steatosis, a complex disorder related to insulin resistance and mitochondrial alterations. Steatosis is still poorly understood since diverse effects have been reported, depending on the different experimental models used. METHODS: We hereby report the effects of an 8 week high-fat diet on liver energy metabolism in a rat model, investigated in both isolated mitochondria and hepatocytes. RESULTS: Liver mass was unchanged but lipid content and composition were markedly affected. State-3 mitochondrial oxidative phosphorylation was inhibited, contrasting with unaffected cytochrome content. Oxidative…

Mitochondrial ROSMaleTranscription GeneticMESH : Reactive Oxygen SpeciesMitochondria LiverMESH : HepatocytesMitochondrionOxidative PhosphorylationMESH: Hepatocytes0302 clinical medicineMESH: Membrane Potential MitochondrialCitrate synthaseMESH: AnimalsBeta oxidationMESH : Electron Transport2. Zero hungerMembrane Potential Mitochondrial0303 health sciencesMESH : RatsAdenine nucleotide translocatorMESH: Energy MetabolismMESH: Reactive Oxygen SpeciesLipidsBiochemistryLiverMESH: Dietary FatsMitochondrial matrix030220 oncology & carcinogenesisBody CompositionMESH : Oxidative PhosphorylationATP–ADP translocaseMESH: Mitochondria LiverMESH: RatsMESH : Body CompositionMESH : MaleOxidative phosphorylationBiologyMESH : Rats WistarElectron Transport03 medical and health sciencesMESH: Oxidative Phosphorylation[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyRats WistarMESH: Electron Transport[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biology030304 developmental biologyHepatologyMESH: Transcription GeneticMESH : Transcription GeneticMESH : LiverMESH : LipidsMESH: Body CompositionMESH: Rats WistarMESH: LipidsDietary FatsMESH: MaleRatsMESH : Energy MetabolismMESH : Membrane Potential MitochondrialMESH : Mitochondria Liverbiology.proteinHepatocytesMESH : AnimalsEnergy MetabolismReactive Oxygen SpeciesMESH : Dietary FatsMESH: Liver
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Risk factors of de novo malignancies after liver transplantation: a French national study on 11004 adult patients.

2021

International audience; Background: After liver transplantation (LT),de novo malignancies are one of the leading causes of late mortality. The aim of the present retrospective study was to identify the risk factors of de novo malignancies in a large cohort of LT recipients in France, using Fine and Gray competing risks regression analysis.Methods: The study population consisted in 11004 adults transplanted between 2000 and 2013, who had no history of pre-transplant malignancy, except primary liver tumor. A Cox model adapted to the identification of prognostic factors (competitive risks) was used.Results: From the entire cohort, one (or more)de novo malignancy was reported in 1480 L T recipi…

OncologyAdultMalemedicine.medical_specialtyMESH: Liver TransplantationLiver tumormedicine.medical_treatmentLiver transplantationMalignancyPrimary sclerosing cholangitis03 medical and health sciencesLiver disease0302 clinical medicineMESH: Liver NeoplasmsMESH: Risk FactorsRisk FactorsInternal medicinemedicineHumansMESH: IncidenceLung cancerRetrospective StudiesMESH: HumansHepatologybusiness.industryIncidenceLiver NeoplasmsGastroenterologyRetrospective cohort studyMESH: AdultMESH: Retrospective Studies[SDV.MHEP.HEG]Life Sciences [q-bio]/Human health and pathology/Hépatology and GastroenterologyCompeting riskmedicine.disease[SDV.MHEP.HEG] Life Sciences [q-bio]/Human health and pathology/Hépatology and GastroenterologyMESH: MaleLiver Transplantation030220 oncology & carcinogenesisPopulation study030211 gastroenterology & hepatologybusinessLiver transplantationde novomalignanciesClinics and research in hepatology and gastroenterology
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The stable repression of mesenchymal program is required for hepatocyte identity: A novel role for hepatocyte nuclear factor 4α

2011

The concept that cellular terminal differentiation is stably maintained once development is complete has been questioned by numerous observations showing that differentiated epithelium may undergo an epithelial-to-mesenchymal transition (EMT) program. EMT and the reverse process, mesenchymal-to-epithelial transition (MET), are typical events of development, tissue repair, and tumor progression. In this study, we aimed to clarify the molecular mechanisms underlying these phenotypic conversions in hepatocytes. Hepatocyte nuclear factor 4α (HNF4α) was overexpressed in different hepatocyte cell lines and the resulting gene expression profile was determined by real-time quantitative polymerase…

Transcription FactorCellular differentiationMESH: Mice KnockoutMESH: HepatocytesMesodermMice0302 clinical medicineMESH: Liver NeoplasmsMESH: AnimalsHepatocyteHepatocyte Nuclear Factor 1-alphaMESH: Carcinoma HepatocellularRegulator geneHepatocyte differentiationMice KnockoutMESH: Mesoderm0303 health sciencesLiver NeoplasmsCell DifferentiationMESH: Transcription FactorsCell biologyHepatocyte nuclear factorsPhenotypeMESH: Models AnimalHepatocyte Nuclear Factor 4MESH: Epithelial CellsLiver Neoplasm030220 oncology & carcinogenesisModels AnimalMESH: Hepatocyte Nuclear Factor 4HumanMESH: Cell DifferentiationMESH: Cell Line TumorCarcinoma Hepatocellular[SDV.BC]Life Sciences [q-bio]/Cellular BiologyBiologyMESH: PhenotypeArticle03 medical and health scienceshepatocyte; mesenchymal program; SnailCell Line TumorAnimalsHumansMESH: Hepatocyte Nuclear Factor 1-alphaMESH: MiceTranscription factorAnimals; Carcinoma Hepatocellular; Cell Differentiation; Cell Line Tumor; Epithelial Cells; Hepatocyte Nuclear Factor 1-alpha; Hepatocyte Nuclear Factor 4; Hepatocytes; Humans; Liver Neoplasms; Mesoderm; Mice; Mice Knockout; Models Animal; Phenotype; Snail Family Transcription Factors; Transcription Factors; Hepatology030304 developmental biologyEpithelial CellMESH: HumansHepatologyAnimalMesenchymal stem cellEpithelial CellsSnail Family Transcription FactorMolecular biologyHepatocyte nuclear factor 4HepatocytesSnail Family Transcription FactorsChromatin immunoprecipitationTranscription Factors
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An epistatic mini-circuitry between the transcription factors Snail and HNF4α controls liver stem cell and hepatocyte features exhorting opposite reg…

2011

Preservation of the epithelial state involves the stable repression of epithelial-to-mesenchymal transition program, whereas maintenance of the stem compartment requires the inhibition of differentiation processes. A simple and direct molecular mini-circuitry between master elements of these biological processes might provide the best device to keep balanced such complex phenomena. In this work, we show that in hepatic stem cell Snail, a transcriptional repressor of the hepatocyte differentiation master gene HNF4α, directly represses the expression of the epithelial microRNAs (miRs)-200c and-34a, which in turn target several stem cell genes. Notably, in differentiated hepatocytes HNF4α, p…

Transcription GeneticTranscription FactorCellular differentiationLiver Stem CellSnailMESH: Mice KnockoutMESH: HepatocytesMice0302 clinical medicineSnail; hnf4a; mir-200; mir-34a; stemness; hepatocyte differentiationHepatocyteMESH: AnimalsMice KnockoutHepatocyte differentiationmir-34a0303 health sciencesStemneStem CellsMicroRNACell DifferentiationMESH: Transcription FactorsCell biologySnailmir-200Hepatocyte Nuclear Factor 4Liver030220 oncology & carcinogenesisMiRs-200MESH: Hepatocyte Nuclear Factor 4Hepatocyte differentiation; HNF4a; MiR-34a; MiRs-200; Snail; Stemness; Animals; Cell Differentiation; Epithelial-Mesenchymal Transition; Hepatocyte Nuclear Factor 4; Hepatocytes; Liver; Mice; Mice Knockout; MicroRNAs; Snail Family Transcription Factors; Stem Cells; Transcription Factors; Transcription Genetic; Cell Biology; Molecular BiologyStem cellhnf4aMESH: Cell Differentiationhepatocyte differentiationEpithelial-Mesenchymal TransitionMESH: Stem Cells[SDV.BC]Life Sciences [q-bio]/Cellular BiologyBiologystemness03 medical and health sciencesStem Cellbiology.animalAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyEpithelial–mesenchymal transitionMESH: MiceMolecular BiologyTranscription factor030304 developmental biologyOriginal PaperAnimalMESH: Transcription GeneticSnail Family Transcription FactorCell BiologyMolecular biologyMicroRNAsMESH: Epithelial-Mesenchymal TransitionHepatocyte nuclear factor 4HepatocytesSnail Family Transcription FactorsMESH: MicroRNAsMESH: LiverTranscription FactorsCell Death & Differentiation
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Analysis of fluorescent MRI contrast agent behavior in the liver and thoracic aorta of mice.

2004

To characterize the behavior of magnetofluorescent products injected in mice intravenously.The magnetic resonance imaging (MRI) products were labelled with fluorescent molecules to examine the biodistribution process in vivo and observe them at the cellular level by means of confocal microscopy. Three-dimensional (3D) sequences of images were obtained by spectral analysis of sample preparations in a multiphoton confocal microscope and analyzed by the factor analysis of medical image sequence algorithm, which provides factor curves. Factor images are the result of image-processing methods that utilize information from emission spectra. Preparations are also screened in the counting mode to p…

[SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/ImagingContrast MediaAorta ThoracicMiceMESH : Image CytometryMESH: Microscopy ConfocalMESH : FemaleMESH : Fluorescent DyesMESH: AnimalsMESH : Algorithms[ SDV.IB.IMA ] Life Sciences [q-bio]/Bioengineering/Imaginghealth care economics and organizationsImage CytometryMice Inbred BALB CMicroscopy ConfocalMESH: Fluorescent DyesMESH: Staining and LabelingLiverMESH : MeglumineFemaleMESH : Organometallic CompoundsAlgorithmsMESH: Aorta ThoraciceducationMESH: Mice Inbred BALB CMESH: AlgorithmsMESH: MeglumineMESH : Staining and LabelingMeglumineMESH: Contrast MediaMESH : MiceOrganometallic CompoundsAnimalsMESH : Microscopy ConfocalMESH: MiceMESH : Mice Inbred BALB CFluorescent DyesMESH : Aorta ThoracicMESH : Contrast MediaStaining and LabelingMESH : LiverMESH: Organometallic CompoundsMESH : Xanthenes[SDV.IB.IMA] Life Sciences [q-bio]/Bioengineering/ImagingXanthenesMESH: XanthenesMESH : AnimalsMESH: FemaleMESH: Image CytometryMESH: Liver
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Mechanisms involved in lipid accumulation and apoptosis induced by 1-nitropyrene in Hepa1c1c7 cells

2011

International audience; 1-Nitropyrene (1-NP) is a nitro-polycyclic aromatic hydrocarbon (nitro-PAH) present in diesel exhaust and bound to particular matter in urban air. We show that 1-NP and the referent PAH benzo(a)pyrene (BP) induce apoptosis and a lipid accumulation dependent on cytochrome P450 1A1-metabolites in mouse hepatoma cells, whereas 1-amino-pyrene had no effect. The caspase inhibitor, N-benzyloxycarbonyl-Val-Ala-Asp(O-Me) fluoromethyl ketone (Z-VAD-fmk), inhibits 1-NP-induced apoptosis, but failed to alter 1-NP-triggered lipid accumulation determined by Nile red staining. We further show that cholesterol and fatty acid contents are modified after nitro-PAH exposure and that 1…

endoplasmic-reticulum stressMESH: PyrenesHepatoma cellsliver-cellsactivated protein-kinaseApoptosisAMP-Activated Protein KinasesToxicologyMESH: Liver Neoplasms ExperimentalMicechemistry.chemical_compoundMESH: CholesterolLiver Neoplasms ExperimentalMESH: AnimalsMESH: AMP-Activated Protein KinasesStearoyl-CoA desaturase 1CaspaseMESH: Lipid Metabolismchemistry.chemical_classificationhuman macrophages0303 health sciencesPyrenesbiology8-tetrachlorodibenzo-p-dioxin tcdd030302 biochemistry & molecular biologyGeneral Medicineinhibition[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biomolecules [q-bio.BM]CholesterolBiochemistry[SDV.TOX]Life Sciences [q-bio]/ToxicologyCaspaseslipids (amino acids peptides and proteins)stearoyl-coaStearoyl-CoA DesaturaseMESH: Cell Line Tumor[SDV.BC]Life Sciences [q-bio]/Cellular Biology03 medical and health sciencesMESH: Benzo(a)pyreneCell Line Tumor1-NitropyreneBenzo(a)pyreneAnimalsFatty acidsProtein kinase AMESH: Mice030304 developmental biologyaromatic-hydrocarbonsMESH: CaspasesCholesterolMESH: Apoptosisc-srcFatty acidAMPKCytochrome P450Lipid MetabolismMolecular biologychemistryApoptosisMESH: Stearoyl-CoA Desaturasebiology.proteinStearoyl-CoA desaturase-1desaturaseToxicology Letters
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Immunoaffinity purification and characterization of mitochondrial membrane-bound D-3-hydroxybutyrate dehydrogenase from Jaculus orientalis.

2008

Abstract Background The interconversion of two important energy metabolites, 3-hydroxybutyrate and acetoacetate (the major ketone bodies), is catalyzed by D-3-hydroxybutyrate dehydrogenase (BDH1: EC 1.1.1.30), a NAD+-dependent enzyme. The eukaryotic enzyme is bound to the mitochondrial inner membrane and harbors a unique lecithin-dependent activity. Here, we report an advanced purification method of the mammalian BDH applied to the liver enzyme from jerboa (Jaculus orientalis), a hibernating rodent adapted to extreme diet and environmental conditions. Results Purifying BDH from jerboa liver overcomes its low specific activity in mitochondria for further biochemical characterization of the e…

lcsh:Animal biochemistryMESH : AgedMESH : RodentiaMESH: RodentiaMESH: Base SequenceBiochemistryMESH: Lipid PeroxidationMESH : Information ServicesAntigen-Antibody ReactionsMESH: Health EducationEpitopesMESH: OrganizationsMESH: LibrariesMESH: Antigen-Antibody Reactionslcsh:QD415-436MESH: AnimalsMESH : OrganizationsMESH : Physician's RoleMESH: Bacterial ProteinsImmunosorbent Techniqueschemistry.chemical_classificationMESH: Conserved SequenceMethodology ArticleMESH : Computer Communication NetworksMESH: Chromatography AffinityMESH : Pseudomonas aeruginosaMESH : Chromatography AffinityMESH : Immunosorbent TechniquesMESH: Ethnic GroupsMESH : Ethnic GroupsMESH: EpitopesMESH : Patient SatisfactionMESH : United StatesMESH: MitochondriaMESH : Antigen-Antibody ReactionsMolecular Sequence DataMESH : Hydroxybutyrate DehydrogenaseMESH: Sequence AlignmentRodentiaMESH: Information ServicesMESH : Epitopeslcsh:BiochemistryMESH : Mitochondrial MembranesBacterial ProteinsMESH : Conserved SequenceComplementary DNAMESH : LibrariesMolecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH: Immunosorbent TechniquesMESH: Molecular Sequence DataMESH: HumansMESH : Consumer ParticipationMESH : HumansMESH: AdultMESH: Patient SatisfactionMESH: Hydroxybutyrate DehydrogenaseMESH: Consumer ParticipationchemistryLipid PeroxidationMESH: FemaleMESH: LiverMESH : Sequence Analysis DNAMESH: Continental Population GroupsMESH: Sequence Analysis DNAMESH : Molecular Sequence DataDehydrogenaseChromatography AffinityMESH: Mitochondrial MembranesMESH: Antibodies BacterialMESH : Bacterial ProteinsMESH : FemaleMESH: Computer Communication NetworksConserved SequenceMESH: AgedbiologyMESH : Lipid PeroxidationMESH : Sequence AlignmentMESH: Physician's RoleMESH : AdultAntibodies BacterialMitochondriaAmino acidLiverBiochemistryMitochondrial MembranesPseudomonas aeruginosaMESH: Pseudomonas aeruginosaMESH : MitochondriaMESH : Mass MediaMESH: Mass MediaMESH : MaleHydroxybutyrate DehydrogenaseAffinity chromatographyMESH : Health Education[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH: United StatesAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH : Antibodies Bacteriallcsh:QP501-801Jaculus orientalisMESH : Continental Population GroupsBase SequenceMESH : LiverSequence Analysis DNAbiology.organism_classificationMolecular biologyMESH: MaleEnzymePolyclonal antibodiesbiology.proteinMESH : Base SequenceNAD+ kinaseMESH : AnimalsSequence Alignment
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