Search results for "Electrolytes"

showing 4 items of 84 documents

Muscle cramping in the marathon: dehydration and electrolyte depletion vs. muscle damage

2020

Martinez-Navarro, I, Montoya-Vieco, A, Collado, E, Hernando, B, Panizo, N, and Hernando, C. Muscle Cramping in the marathon: Dehydration and electrolyte depletion vs. muscle damage. J Strength Cond Res XX(X): 000-000, 2020-Our aim was to compare dehydration variables, serum electrolytes, and muscle damage serum markers between runners who suffered exercise-associated muscle cramps (EAMC) and runners who did not suffer EAMC in a road marathon. We were also interested in analyzing race pacing and training background. Nighty-eight marathoners took part in the study. Subjects were subjected to a cardiopulmonary exercise test. Before and after the race, blood and urine samples were collected and…

medicine.medical_specialtysodium depletionStrength trainingPhysical Therapy Sports Therapy and RehabilitationMarathon RunningUrinechemistry.chemical_compoundElectrolytesInternal medicineLactate dehydrogenaseStatistical significancemedicinestrength trainingHumansOrthopedics and Sports MedicineDehydrationCreatine KinaseMuscle CramppacingbiologyDehydrationUrine specific gravitybusiness.industryMusclesGeneral Medicinemedicine.diseaseEndocrinologychemistrybiology.proteinCreatine kinaseathletic performancemedicine.symptombusinesshuman activitiesBiomarkersMuscle cramp
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Sequestration of biogenic amines by alginic and fulvic acids.

2006

The interaction of natural (alginic and fulvic acids) and synthetic (polyacrylic acid 2.0 kDa) polyelectrolytes with some protonated polyamines [diamines: ethylendiamine, 1,4-diaminobutane (or putrescine), 1,5-diaminopentane (or cadaverine); triamines: N-(3-aminopropyl)-1,4diaminobutane (or spermidine), diethylenetriamine; tetramine: N.N'-bis(3-aminopropyl)-1,4-diaminobutane (or spermine); pentamine: tetraethylene-pentamine; hexamine: pentaethylenehexamine] was studied at T=25 degrees C by potentiometry and calorimetry. Measurements were performed without supporting electrolyte, in order to avoid interference, and results were reported at I=0 mol L(-1). For all the systems, the formation of…

polyammonium-polycarboxylate interactionsAlginatesPolymersBiogenic aminesInorganic chemistryFulvic acidCarboxylic AcidsBiophysicsProtonationCalorimetryBiochemistryMedicinal chemistryElectrolyteschemistry.chemical_compoundbiogenic amineGlucuronic AcidPolyaminesBenzopyransAlginic acidPolyacrylic acidCadaverineChemistryHexuronic AcidsOrganic ChemistryPolyacrylic acidPentaminesequestrationPolyelectrolytesPolyelectrolyteQuaternary Ammonium CompoundsBiogenic amines; Fulvic acid; Alginic acid; Polyacrylic acid; sequestrationModels ChemicalDiethylenetriamineThermodynamicsAmine gas treatingProtonsMathematics
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Improvements in Rational Design Strategies of Inulin Derivative Polycation for siRNA Delivery.

2016

The advances of short interfering RNA (siRNA)-mediated therapy provide a powerful option for the treatment of many diseases, including cancer, by silencing the expression of targeted genes involved in the progression of the pathology. On this regard, a new pH-responsive polycation derived from inulin, Inulin-g-imidazole-g-diethylenetriamine (INU-IMI-DETA), was designed and employed to produce INU-IMI-DETA/siRNA "Inulin COmplex Nanoaggregates" (ICONs). The experimental results showed that INU-IMI-DETA exhibited strong cationic characteristics and high solubility in the pH range 3-5 and self-aggregation triggered by pH increase and physiological salt concentration. INU-IMI-DETA showed as well…

polycationssiRNA deliverySmall interfering RNAPolymers and PlasticsInulinBioengineering02 engineering and technology010402 general chemistry01 natural sciencesBiomaterialschemistry.chemical_compoundDrug Delivery SystemsMaterials ChemistryPolyaminesGene silencingHumansGene SilencingRNA Small Interferingpolycations siRNA delivery inulinRational designInulinBafilomycinRNATransfectionHydrogen-Ion Concentration021001 nanoscience & nanotechnologyEndolysosomePolyelectrolytesEndocytosis0104 chemical scienceschemistryBiochemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoDrug DesignMCF-7 Cellspolycations; siRNA delivery; inulin0210 nano-technologyBiomacromolecules
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Физико-химические свойства твердых электролитов системы иодид пиридиния-иодид серебра

1984

Advisor: Укше, Евгений Александрович, Слайдинь, Гунар

Электролиты:NATURAL SCIENCES::Chemistry::Physical chemistry [Research Subject Categories]Физическая химияElectrolytesЭлектрохимияFizikālā ķīmijaElektroķīmijaElectrochemistryСверхионные проводникиТвердые электролитыElektrolīti
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