Search results for " Saccharated"

showing 3 items of 3 documents

Bioequivalence decision for nanoparticular iron complex drugs for parenteral administration based on their disposition

2017

Although parenteral iron products have been established to medicinal use decades before, their structure and pharmacokinetic properties are not fully characterized yet. With its' second reflection paper on intravenous iron-based nano-colloidal products (EMA/CHMP/SWP/620008/2012) the European Medicine Agency provided an extensive catalogue of methods for quality, non-clinical and pharmacokinetic studies for the comparison of nano-sized iron products to an originator (EMA, 2015). For iron distribution studies, the reflection paper assumed the use of rodents. In our tests, we used a turkey fetus model to investigate time dependent tissue concentrations in pharmacological and toxicological rele…

0301 basic medicineEmbryo NonmammalianTissue concentrationsTurkeyAmylopectinDose dependenceBioequivalencePharmacologyKidneyToxicologyFerric CompoundsGlucaric Acid03 medical and health sciences0302 clinical medicinePharmacokineticsAnimalsDistribution (pharmacology)MedicineIron complexMaltoseFerric Oxide Saccharatedbusiness.industryMyocardiumGeneral MedicineDisposition030104 developmental biologyLiverTherapeutic Equivalency030220 oncology & carcinogenesisModels AnimalNanoparticlesIron-Dextran ComplexbusinessParenteral ironRegulatory Toxicology and Pharmacology
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Performance of a Predictive Model for Long-Term Hemoglobin Response to Darbepoetin and Iron Administration in a Large Cohort of Hemodialysis Patients

2016

International audience; Anemia management, based on erythropoiesis stimulating agents (ESA) and iron supplementation, has become an increasingly challenging problem in hemodialysis patients. Maintaining hemodialysis patients within narrow hemoglobin targets, preventing cycling outside target, and reducing ESA dosing to prevent adverse outcomes requires considerable attention from caregivers. Anticipation of the long-term response (i.e. at 3 months) to the ESA/iron therapy would be of fundamental importance for planning a successful treatment strategy. To this end, we developed a predictive model designed to support decision-making regarding anemia management in hemodialysis (HD) patients tr…

MalePediatricsBlood transfusionDarbepoetin alfaPhysiologymedicine.medical_treatment030232 urology & nephrologylcsh:Medicine030204 cardiovascular system & hematologyFerric CompoundsBiochemistryGlucaric AcidHemoglobinsMathematical and Statistical Techniques0302 clinical medicineMedicine and Health SciencesDarbepoetin alfaErythropoiesislcsh:ScienceFerric Oxide SaccharatedMultidisciplinaryPharmaceuticsDisease ManagementAnemia[SDV.MHEP.HEM]Life Sciences [q-bio]/Human health and pathology/HematologyHematologyMiddle Aged3. Good healthNephrologyInjections IntravenousPhysical SciencesFemaleHemodialysisStatistics (Mathematics)Research Articlemedicine.drugComputer and Information Sciencesmedicine.medical_specialtyAnemiaResearch and Analysis Methods03 medical and health sciencesDose Prediction MethodsRenal DialysisArtificial IntelligenceMedical DialysismedicineHumansHemoglobinDosingStatistical MethodsIron Deficiency AnemiaIntensive care medicineArtificial Neural NetworksAgedRetrospective StudiesComputational NeuroscienceModels Statisticalbusiness.industrylcsh:RBiology and Life SciencesComputational BiologyProteinsRetrospective cohort studymedicine.diseaseIron-deficiency anemiaHematinicsKidney Failure ChronicCognitive Sciencelcsh:QNeural Networks ComputerHemoglobinPhysiological ProcessesbusinessMathematicsNeuroscienceForecasting
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Comparative toxicity and cell-tissue distribution study on nanoparticular iron complexes using avian embryos and HepG2-cells

2007

In this study the toxicity and intracellular availability of iron from iron dextran (FeD), iron sucrose (FeS), and iron gluconate (FeG) was compared in organs of avian (turkey) embryos and in isolated cells (HepG2) in cell culture. Iron uptake was more pronounced in embryonic liver than in renal tissue. Cellular iron uptake in liver and kidney was more or less similar for the different compounds. Only some experiments showed slightly greater iron concentrations in liver and kidney with FeG compared with FeD and FeS. Significant differences were found in the survival ratios of the eggs and the embryo weights depending on the type of iron complex administered. The rank order of toxicities was…

TurkeysCarcinoma HepatocellularEmbryo NonmammalianLiver cytologyChick EmbryoBiologyKidneyIron sucroseIn ovoFerric CompoundsGluconatesAndrologyGlucaric AcidIn vivoCell Line TumorPhysiology (medical)medicineAnimalsHumansFerric Oxide SaccharatedBody WeightLiver NeoplasmsBiochemistry (medical)Public Health Environmental and Occupational HealthKidney metabolismGeneral MedicineIn vitroSurvival RateLiverBiochemistryCell cultureToxicityHematinicsNanoparticlesIron-Dextran Complexmedicine.drugTranslational Research
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