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51	Solubilité aqueuse, coefficient de partage octanol-eau et pression de vapeur de contaminants alimentaires organiques de la famille des phthalates et alkylphénols : détermination expérimentale et modélisation / Aqueous solubility, octanol-water partition coefficient and vapor pressure of organic food packaging contaminants : experimental determination and modeling Ishak, Hanane 18 September 2017 (has links) Cette étude s’attache à la caractérisation physico-chimique des contaminants des emballages alimentaires organiques, précisément les phtalates et les alkylphénols, en terme de solubilité aqueuse, coefficient de partage octanol-eau et pression de vapeur. Cette caractérisation se situe dans le cadre des règlementations REACH concernant l’identification des substances chimiques toxiques. Les mesures expérimentales de solubilité aqueuse sont effectuées par la méthode dynamique de saturation dans un intervalle de température [298.15-328.15K], celles du coefficient de partage octanol-eau avec la méthode « shake-flask » à 298.15. Les mesures de pression de vapeur sont réalisées avec la méthode dynamique de saturation dans un intervalle de température [313.15-423.15K] et validées avec la méthode statique. A partir de ces mesures, les coefficients de partage air-eau et octanol-air sont déterminés. En addition des mesures expérimentales, une prédiction de ces propriétés est effectuée avec les modèles thermodynamiques : UNIFAC originale, UNIQUAC, NRTL et COSMO-sac-dsp. A l’issue de ces résultats, une évaluation quantitative et qualitative de chacun des modèles est effectuée. Cette évaluation facilitera l’optimisation des paramètres de chacun des modèles des deux familles dans le but de créer un modèle de prédiction du phénomène de migration de l’emballage vers l’aliment / The aim of this study is the physical-chemical characterization of the organic food packaging contaminants, particularly phthalates and alkyl phenols, in terms of aqueous solubility, octanol-water partition coefficient and vapor pressure. This characterization falls within the scope of REACH regulations for the identification of chemical substances. The aqueous solubility measurements are performed using the dynamic saturation method in a temperature range of [298.15 – 328.15K], those of octanol-water partition coefficient with the “shake-flask” method at 298.15K. The vapor pressure measurements are carried out with the “dynamic saturation method” in a temperature range between 313.15 and 423.15K, and validated with the static method. These measurements are used in the determination of air-water and octnol-air partition coefficients. Beside experimental measurements, these poperties are predicted using thermodynamic models: UNIFAC originale, UNIQUAC, NRTL and COSMO-sac-dsp. A qualitative and quantitative evaluation is performed for each model. This evaluation will facilitate the optimization of the models’ parameters concerning phthalates and alkyl phenols in order to generate a model for the contaminants migration process Phtalate Allkylphenol Solubilité aqueuse Pression de vapeur Coefficient de partage octanol-eau Modelisation Phtalate Alkylphenol Aqueous solubility Vapor pressure Octanol-water partition coefficient Modeling 540
52	Measurement Of Dissociation Constant (Ka) And Partition Coefficient (KP) Of Weak Organic Acids From Their First Hyperpolarizabilities Ray, Paresh Chandra 10 1900 (has links) No description available. Organic Acids - Partition Coefficient Organic Acids- Dissociation coefficient Hyperpolarization Hyper-Rayleigh Scattering Benzoic Acids - Hyperpolarizability Cinnamic Acids - Hyperpolarizability Hyperpolarizability Nonlinear Optics Organic Chemistry
53	Optimizing Sample Dissolution Methods of Low Water Soluble Intermediate Organic Compounds to Support Environmental Risk Assessment during Active Pharmaceutical Ingredient Manufacturing. Mohammed, Warda January 2021 (has links) This project focus on investigating the dissolution of low water-soluble intermediate organic compounds called active pharmaceutical ingredients (API) and organic substances that are manufactured by a pharmaceutical company, Cambrex Karlskoga in Sweden. Several dissolution methods were used and evaluated using methods including total organic carbon (TOC), chemical oxygen demand (COD), biochemical oxygen demand (BOD) and Microtox toxicity test. The selection of solvents were based on previous studies and specifications from the Swedish Institute of Standards, SIS.The performance of eight solvents for different organic substances were evaluated using the above mentioned methods. Solvents that are highly volatile and have low solubility in water were excluded. Therefore, dimethyl sulfoxide (DMSO), dimethylformamide (DMF) and Pluronic F-68, that had highest water solubility, low acute toxicity and not degradable by microorganisms, were further used to dissolve four organic substances. Furthermore, DMSO and DMF were then also used to dissolve four censored chemicals with addition of physical treatment and solvent mixtures (DMF:DMSO with ratio 1:2).Results from each method were discussed and statistical tests were also performed in order to compare different dissolution methods. In addition, quality control and quality assurance were made in order to ensure the quality of measured values from analytical methods. Four organic substances were dissolve in DMSO, DMF and Pluronic F-68 with dissolution ≥79% using six ratios of DMSO and DMF and five ratios of Pluronic F-68 which were analyzed using TOC. Physical treatment increased dissolution of two APIs with 40%. Using BOD, para-aminobenzonic acid (PABA) and 5-nitroisophthalic acid (5-NIPA) had values higher than the guideline values, which indicate high biodegradability of these organic substances. PABA, 5-NIPA and bupivacaine base were acute toxic where PABA showed EC50 values of 27.9 mg/L using DMSO and 36.0 mg/L using DMF, and EC50 values of 5-NIPA were 102 mg/L using DMSO and 84.0 mg/L using DMF, and bupivacaine base had EC50 value of 174 mg/L using solvent mixture (DMF:DMSO with ratio 1:2). With increasing amount of Pluronic F-68, 5-NIPA had increased values of EC50, thereby Pluronic F-68 was not appropriate to use.In conclusion, DMSO and DMF were most appropriate solvents to use in order to dissolve APIs and organic substances with analyte: DMSO ratio of 1:0.5 and analyte: DMF ratio of 1:0.25. In addition, physical treatment could be used in order to increase dissolution of the APIs. Active pharmaceutical ingredient API total organic content TOC chemical oxygen demand COD biological oxygen demand BOD Microtox octanol-water partition coefficient Kow solubility. Chemical Sciences Kemi
54	Development of Non-Amorphous Solid Dispersions for Poorly-Soluble Drugs Using a Novel Excipient and Hot Melt Extrusion Hwee Jing Ong (5930108) 16 January 2020 (has links) <div>Drug solubility is a persistent challenge in pharmaceutical product development. The objective of this research is to develop a formulation/processing strategy by means of a biodendrimeric solid dispersion (BDSD) platform, for increasing the solubility and dissolution rate of poorly water-soluble drugs. The BSDS platform combines a novel type of excipient, referred to as DLB, with a new application of the hot melt extrusion (HME) process.</div><div><br></div><div>Four model compounds – phenytoin (PHT), griseofulvin (GSF), ibuprofen (IBU), and loratadine (LOR) – were used to evaluate the solubilization effect of an octenylsuccinate-modified dendrimer-like biopolymer (OS-DLB). Shake-flask solubility measurements show that OS-DLB exerts significant solubilizing effect when present at less than 0.2% in water. The presence of hydrophobic C<sub>8</sub> chains on OS-DLB creates the type of favorable nonpolar microenvironment necessary for producing a parallel liquid phase equilibrium responsible for the increase in the total amount of drug dissolved in aqueous media. The higher the hydrophobicity of the drug, the higher the observed solubilization effect. Isothermal titration calorimetry studies show that drug solubilization by OS-DLB occurs by means of entropy-driven interactions. These studies also show that the intermolecular interaction between IBU and OS-DLB in solution exhibits very small energy change upon mixing but a stronger effect on entropy. In comparison, the intermolecular interaction between the less hydrophobic GSF and OS-DLB have significant effects on both enthalpy and entropy. Consequently, in terms of solubilization enhancement, it was found that the interaction between IBU and OS-DLB is entropy-driven (more favorable), while in the case of GSF, the interacting molecules are arranged to maximize enthalpic interaction.</div><div><br></div><div>Based on the solubility studies, a formulation/processing approach for enhancing the dissolution rate of the model drugs was developed. The biopolymer serving as both carrier and solubilizing agent, was coprocessed with poloxamer, functioning as a processing aid, using hot melt extrusion (HME) as an enabling technology. The result is a non-amorphous solid dispersion, exhibiting high and long-lasting supersaturation upon dissolution. A 3-factor, 3-level Box-Behnken design was implemented to define the optimal design space for the formulation/extrusion process. The results obtained from multivariate data analysis (partial least squares and principal components analysis) and response surface modeling suggest that drug release performance of IBU BDSDs is strongly influenced by the processing variables, while maximum release of GSF from the BDSDs can be attained through selective combination of functional excipients.<br></div> Uncategorized solubility solid dispersion excipients nanoparticle biopolymer polysaccharides partition coefficient crystallinity hot melt extrusion phase solubility study isothermal titration calorimetry Quality by Design (QbD)
55	Stanovení rozdělovacího koeficientu (Kow) perfluorovaných kyselin v systému oktan-1-ol/voda / Determination of n-octanol/water partition coefficient (Kow) of perfluorinated acids Skrottová, Anežka January 2013 (has links) Perfluorinated compounds are organic compounds in which all hydrogen atoms in a carbon chain are substituted with fluorine atoms. These compounds are highly stable, persistent and bioaccumulative. They are purely anthropogenic compounds contained in biota and abiota. Partition coefficient between n-octanol and water is the essential toxicological parameter of a compound. This parameter helps us to assess behaviour of compound in the environment as well as in the living organisms. The shake flask method and the RP-HPLC method were employed to measure the Kow of nine perfluorinated acids. Using the shake flask method, the surface activity of compounds and the acid dissociation caused false results of the measurement. But behaviour of these compounds in the environment can be assess. Accurate and precise results were measured by the RP-HPLC method using an acetate buffer. Log Kow of perfluoro- carboxylic acids, with the carbon chain length of 5-14, were found out, their final value ranging between 1.66 and 5.10. Log Kow of acid with 12 carbons was estimated based on the linear regression of dependence of log Kow on the number of carbons. There were significant differences in the results obtained by various software. Thus, the results cannot be considered relevant. These software are not suitable for...
56	Characterization of Aprotic Solutes and Solvents Using Abraham Model Correlations Brumfield, Michéla L. 12 1900 (has links) Experimental data were obtained for the computation of mole fraction solubilities of three dichloronitrobenzenes in organic solvents at 25oC, and solubility ratios were obtained from this data. Abraham model equations were developed for solutes in tributyl phosphate that describe experimental values to within 0.15 log units, and correlations were made to describe solute partitioning in systems that contain either "wet" or "dry" tributyl phosphate. Abraham model correlations have also been developed for solute transfer into anhydrous diisopropyl ether, and these correlations fit in well with those for other ethers. Abraham correlations for the solvation of enthalpy have been derived from experimental and literature data for mesitylene, p-xylene, chlorobenzene, and 1,2-dichlorobenzene at 298.15 K. In addition, the enthalpy contribution of hydrogen bonding between these solutes and acidic solvents were predicted by these correlations and were in agreement with an established method. Residual plots corresponding to Abraham models developed in all of these studies were analyzed for trends in error between experimental and calculated values. Abraham Model Solvation Enthalpy of solvation Partition coefficient Mesitylene p-Xylene Chlorobenzene Diisopropyl ether Chemistry, Analytical Dichloronitrobenzene -- Solubility. Tributyl phosphate -- Solubility. Ether -- Solubility.
57	Experimental Development of Paleoproxies : Investigation into Anaerobic Conditions and the Amorphous Calcium Carbonate Precursor for Carbonate Minerals Garner, Brittany M 08 December 2017 (has links) Carbonate geochemistry plays an important role in understanding environmental conditions during the time of precipitation. The studies for this dissertation research were focused on carbonate precipitation and crystallization in different chemical and physical environments. The first project aimed to precipitate aragonite at low oxygen levels to identify a correlation between partitioning of trace elements and anoxic and suboxic conditions. The second study focused on the precipitation of amorphous calcium carbonate in varying magnesium concentrations to determine the identity of crystalline material after transformation of ACC. Lastly, the third project was developed to understand transformation of CaCO3 polymorphs. Specifically, whether or not geochemistry is retained from one polymorph to the next. All projects could aid in development of paleoproxies to be used for determining past environmental and climatic conditions in the past. anoxic conditions paleoproxy paleoenvironment geochemistry marine chemistry authigenic carbonates partition coefficient trace elements amorphous calcium carbonate vaterite aragonite calcite calcium carbonate
58	The Guinea Pig Model For Organophosphate Toxicology and Therapeutic Development Ruark, Christopher Daniel 02 June 2015 (has links) No description available. Pharmacology Toxicology Biochemistry Molecular Biology organophosphate acetylcholinesterase guinea pig toxicology therapeutic recombinant PBPK QSPR allostery tissue plasma partition coefficient YASARA
59	Investigating Nickel Flux and Toxicity in Clay Sediments with Batch and Stream Recirculating Flume Experiments Cloran, Christina Elizabeth January 2008 (has links) No description available. Earth Environmental Science Geology Toxicology Nickel flux toxicity clay Warden Ditch montmorillonite kaolinite suspended solids sediment sorption distribution/partition coefficient humic acid
60	Solute Partitioning in Elastin-like Polypeptides: A Foundation for Drug Delivery Applications Helm, Eric 24 December 2015 (has links) No description available. Engineering Chemical Engineering Chemistry Analytical Chemistry Pharmaceuticals Polymer Chemistry Polymers Elastin-like Polypeptide Drug Delivery Micelles Linear Free Energy Relationship Partition Coefficient Solute Partitioning Two-phase System Polymer

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