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Colloques --- Colloquia --- Maladies --- Reumatologie --- Rhumatologie --- Ziekten --- Gout. --- Uric Acid. --- Uric Acid --- Academic collection --- 2,6,8-Trihydroxypurine --- Ammonium Acid Urate --- Monosodium Urate --- Monosodium Urate Monohydrate --- Potassium Urate --- Sodium Acid Urate --- Sodium Acid Urate Monohydrate --- Sodium Urate --- Sodium Urate Monohydrate --- Trioxopurine --- Urate --- Acid Urate, Ammonium --- Acid Urate, Sodium --- Acid, Uric --- Monohydrate, Monosodium Urate --- Monohydrate, Sodium Urate --- Urate Monohydrate, Monosodium --- Urate Monohydrate, Sodium --- Urate, Ammonium Acid --- Urate, Monosodium --- Urate, Potassium --- Urate, Sodium --- Urate, Sodium Acid --- Gouts --- Gout Suppressants --- Hypoxanthine Phosphoribosyltransferase --- blood. --- Chondrocalcinosis --- Hyperuricemie --- Goutte --- Jicht --- Gout --- blood
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In 2015, the first pharmaceutical cocrystal was approved by the FDA. Since then, the number of cocrystals on the market and in the development pipeline has been slowly but steadily growing. It is now well established that cocrystals are a versatile new approach to oral drug formulation. This Reprint Book is a collection of articles that show the utility of pharmaceutical cocrystals and various aspects of cocrystal research: • Cocrystals as a strategy to modify the physicochemical properties of a drug such as dissolution behaviour, tabletability, and melting point; • Development of new coformers; • Screening studies for multiple cocrystal forms; • Cocrystals in nano-sized drug delivery.
Research & information: general --- nitazoxanide --- cocrystals --- multicomponent crystals --- dissolution behavior --- supersaturated formulations --- crystallization inhibitors --- drug-polymer interactions --- nano co-crystals --- crystal engineering --- polydispersity index --- zeta potential --- particle size --- zidovudine --- lamivudine --- HIV/AIDS --- sonochemistry --- imidazole N-oxides --- barbituric acid --- thiobarbituric acid --- pharmaceutical cocrystals --- mechanochemistry --- solid state NMR --- X-ray Diffraction --- design of experiments --- Quality by Design --- cocrystal --- compaction --- nanoindentation --- slip plane --- tabletability --- surface topology --- interparticulate bonding area --- interparticulate bonding strength --- nefiracetam --- solid state --- solubility --- dissolution rate --- stability --- formulation --- diclofenac sodium --- L-proline --- salt cocrystal --- multicomponent crystal --- monohydrate --- tetrahydrate --- dissolution --- itraconazole --- terephthalic acid --- crystal structure --- solid-state --- thermal analysis --- wettability --- n/a
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In 2015, the first pharmaceutical cocrystal was approved by the FDA. Since then, the number of cocrystals on the market and in the development pipeline has been slowly but steadily growing. It is now well established that cocrystals are a versatile new approach to oral drug formulation. This Reprint Book is a collection of articles that show the utility of pharmaceutical cocrystals and various aspects of cocrystal research: • Cocrystals as a strategy to modify the physicochemical properties of a drug such as dissolution behaviour, tabletability, and melting point; • Development of new coformers; • Screening studies for multiple cocrystal forms; • Cocrystals in nano-sized drug delivery.
nitazoxanide --- cocrystals --- multicomponent crystals --- dissolution behavior --- supersaturated formulations --- crystallization inhibitors --- drug-polymer interactions --- nano co-crystals --- crystal engineering --- polydispersity index --- zeta potential --- particle size --- zidovudine --- lamivudine --- HIV/AIDS --- sonochemistry --- imidazole N-oxides --- barbituric acid --- thiobarbituric acid --- pharmaceutical cocrystals --- mechanochemistry --- solid state NMR --- X-ray Diffraction --- design of experiments --- Quality by Design --- cocrystal --- compaction --- nanoindentation --- slip plane --- tabletability --- surface topology --- interparticulate bonding area --- interparticulate bonding strength --- nefiracetam --- solid state --- solubility --- dissolution rate --- stability --- formulation --- diclofenac sodium --- L-proline --- salt cocrystal --- multicomponent crystal --- monohydrate --- tetrahydrate --- dissolution --- itraconazole --- terephthalic acid --- crystal structure --- solid-state --- thermal analysis --- wettability --- n/a
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In 2015, the first pharmaceutical cocrystal was approved by the FDA. Since then, the number of cocrystals on the market and in the development pipeline has been slowly but steadily growing. It is now well established that cocrystals are a versatile new approach to oral drug formulation. This Reprint Book is a collection of articles that show the utility of pharmaceutical cocrystals and various aspects of cocrystal research: • Cocrystals as a strategy to modify the physicochemical properties of a drug such as dissolution behaviour, tabletability, and melting point; • Development of new coformers; • Screening studies for multiple cocrystal forms; • Cocrystals in nano-sized drug delivery.
Research & information: general --- nitazoxanide --- cocrystals --- multicomponent crystals --- dissolution behavior --- supersaturated formulations --- crystallization inhibitors --- drug-polymer interactions --- nano co-crystals --- crystal engineering --- polydispersity index --- zeta potential --- particle size --- zidovudine --- lamivudine --- HIV/AIDS --- sonochemistry --- imidazole N-oxides --- barbituric acid --- thiobarbituric acid --- pharmaceutical cocrystals --- mechanochemistry --- solid state NMR --- X-ray Diffraction --- design of experiments --- Quality by Design --- cocrystal --- compaction --- nanoindentation --- slip plane --- tabletability --- surface topology --- interparticulate bonding area --- interparticulate bonding strength --- nefiracetam --- solid state --- solubility --- dissolution rate --- stability --- formulation --- diclofenac sodium --- L-proline --- salt cocrystal --- multicomponent crystal --- monohydrate --- tetrahydrate --- dissolution --- itraconazole --- terephthalic acid --- crystal structure --- solid-state --- thermal analysis --- wettability --- nitazoxanide --- cocrystals --- multicomponent crystals --- dissolution behavior --- supersaturated formulations --- crystallization inhibitors --- drug-polymer interactions --- nano co-crystals --- crystal engineering --- polydispersity index --- zeta potential --- particle size --- zidovudine --- lamivudine --- HIV/AIDS --- sonochemistry --- imidazole N-oxides --- barbituric acid --- thiobarbituric acid --- pharmaceutical cocrystals --- mechanochemistry --- solid state NMR --- X-ray Diffraction --- design of experiments --- Quality by Design --- cocrystal --- compaction --- nanoindentation --- slip plane --- tabletability --- surface topology --- interparticulate bonding area --- interparticulate bonding strength --- nefiracetam --- solid state --- solubility --- dissolution rate --- stability --- formulation --- diclofenac sodium --- L-proline --- salt cocrystal --- multicomponent crystal --- monohydrate --- tetrahydrate --- dissolution --- itraconazole --- terephthalic acid --- crystal structure --- solid-state --- thermal analysis --- wettability
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Tea, made from the leaves of the Camellia senenisis plant, is the second most consumed beverage worldwide after water. Accumulating evidence from cellular, animal, epidemiological and clinical studies have linked tea consumption to various health benefits, such as chemoprevention of cancers, chronic inflammation, heart and liver diseases, diabetes, neurodegenerative diseases, etc. Although such health benefits have not been consistently observed in some intervention trials, positive results from clinical trials have provided direct evidence supporting the cancer-protective effect of green tea. In addition, numerous mechanisms of action have been suggested to contribute to tea’s disease-preventive effects. Furthermore, effects of the processing and storage of tea, as well as additives on tea’s properties have been investigated.
polyphenols --- n/a --- cell cycle arrest and apoptosis --- neuroblastoma --- salivary ?-amylase activity --- cancer apoptosis --- yaupon holly --- bioaccessibility --- fracture --- p53 --- tea --- Liubao tea --- BE(2)-C --- matrix metalloproteinase-1 (MMP-1) --- catechin --- renal stone --- oxalate --- protein expression --- 67LR --- Alzheimer’s disease --- EGCG --- nutraceutical --- diseases --- anti-oxidant --- heme oxygenase-1 --- polyphenol --- anxiety --- matcha --- ERCC1/XPF --- neuro-sphere --- tea consumption --- theanine --- Rosmarinic acid --- yerba mate --- hypercalciuria --- gene expression --- microbiota --- cohort study --- histone deacetylase 2 (HDAC2) --- guayusa --- nuclear factor erythroid 2-related factor 2 (Nrf2) --- DNA repair --- mRNA expression --- caffeine --- chemoprevention --- cisplatin --- 6-OH-11-O-hydroxyphenanthrene --- adrenal hypertrophy --- hepatic damage --- anti-photoaging --- cell death --- green tea --- kudingcha --- suberoylanilide hydroxamic acid (SAHA) --- epigallocatechin gallate (EGCG) --- stress-reduction --- calcium oxalate monohydrate --- Camellia sinensis --- chemoresistance --- tea polyphenols --- green tea polyphenols --- green tea catechins --- N-MYC --- cancer --- epigallocatechin-gallate (EGCG) --- Parkinson’s disease --- Alzheimer's disease --- Parkinson's disease
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This Special Issue is result of a call for papers of the Section Industrial Crystallization of MDPI’s scientific journal Crystals. It addresses scientists and engineers active in research and process & product development in life-science industries (e.g. pharmaceuticals, fine chemicals and biotechnology products) and bulk chemical applications (e.g. desalination) as well. The contributions comprise several fundamental and application-oriented facets of crystallization providing an overview of industrially relevant subjects in the field. Main issues cover phase equilibria and solid-state behavior of crystalline compounds, crystal shape and size and related measurement techniques. Melt and solution crystallization are considered specifically addressing contemporary aspects of continuous crystallization and process intensification.
Technology: general issues --- K-MER zeolite --- synthesis parameter --- morphology --- cyanoethylation of methanol --- catalyst --- multi-dendrite motion --- CA-LBM model --- dendritic growth --- natural convection --- numerical simulation --- melt crystallization --- freeze crystallization (FC) --- recycling --- ionic liquid (IL) --- solid–liquid equilibrium --- cellulose --- nanocrystals --- modification --- poly(butylene succinate) --- crystallization --- kinetics --- chirality --- deracemization --- preferential crystallization --- racemic conglomerate --- phase behavior --- polymorphism --- aryl glycerol ethers --- spherical BaTiO3 nanoparticle --- hydrothermal synthesis --- nanoscale TiO2 seed --- crystal growth --- dielectric property --- curcumin --- purification --- ternary mixture of curcuminoids --- reverse osmosis --- membrane fouling --- gypsum scaling --- fluorescent-tagged polyacrylate --- fluorescence --- scale inhibition mechanisms --- solvent effect --- crystal habit --- aspect ratio --- molecular dynamics (MD) --- surface structure --- amine --- biocatalysis --- enzyme --- process intensification --- enantioselective --- fluidized bed --- continuous --- chiral separation --- racemate resolution --- enantiomer --- asparagine monohydrate --- fine chemicals --- continuous crystallization --- crystal shape --- process design --- DTB crystallizer --- scale up --- L-serine --- L-alanine --- enantiomers --- isomorphic miscibility --- thermal expansion --- PXRD --- TRPXRD --- optical measurement techniques --- crystal size measurement --- inline probe --- crystal needles --- microcrystals --- microplate --- grid scanning --- in situ data collection --- n/a --- solid-liquid equilibrium
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This Special Issue is result of a call for papers of the Section Industrial Crystallization of MDPI’s scientific journal Crystals. It addresses scientists and engineers active in research and process & product development in life-science industries (e.g. pharmaceuticals, fine chemicals and biotechnology products) and bulk chemical applications (e.g. desalination) as well. The contributions comprise several fundamental and application-oriented facets of crystallization providing an overview of industrially relevant subjects in the field. Main issues cover phase equilibria and solid-state behavior of crystalline compounds, crystal shape and size and related measurement techniques. Melt and solution crystallization are considered specifically addressing contemporary aspects of continuous crystallization and process intensification.
K-MER zeolite --- synthesis parameter --- morphology --- cyanoethylation of methanol --- catalyst --- multi-dendrite motion --- CA-LBM model --- dendritic growth --- natural convection --- numerical simulation --- melt crystallization --- freeze crystallization (FC) --- recycling --- ionic liquid (IL) --- solid–liquid equilibrium --- cellulose --- nanocrystals --- modification --- poly(butylene succinate) --- crystallization --- kinetics --- chirality --- deracemization --- preferential crystallization --- racemic conglomerate --- phase behavior --- polymorphism --- aryl glycerol ethers --- spherical BaTiO3 nanoparticle --- hydrothermal synthesis --- nanoscale TiO2 seed --- crystal growth --- dielectric property --- curcumin --- purification --- ternary mixture of curcuminoids --- reverse osmosis --- membrane fouling --- gypsum scaling --- fluorescent-tagged polyacrylate --- fluorescence --- scale inhibition mechanisms --- solvent effect --- crystal habit --- aspect ratio --- molecular dynamics (MD) --- surface structure --- amine --- biocatalysis --- enzyme --- process intensification --- enantioselective --- fluidized bed --- continuous --- chiral separation --- racemate resolution --- enantiomer --- asparagine monohydrate --- fine chemicals --- continuous crystallization --- crystal shape --- process design --- DTB crystallizer --- scale up --- L-serine --- L-alanine --- enantiomers --- isomorphic miscibility --- thermal expansion --- PXRD --- TRPXRD --- optical measurement techniques --- crystal size measurement --- inline probe --- crystal needles --- microcrystals --- microplate --- grid scanning --- in situ data collection --- n/a --- solid-liquid equilibrium
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This Special Issue is result of a call for papers of the Section Industrial Crystallization of MDPI’s scientific journal Crystals. It addresses scientists and engineers active in research and process & product development in life-science industries (e.g. pharmaceuticals, fine chemicals and biotechnology products) and bulk chemical applications (e.g. desalination) as well. The contributions comprise several fundamental and application-oriented facets of crystallization providing an overview of industrially relevant subjects in the field. Main issues cover phase equilibria and solid-state behavior of crystalline compounds, crystal shape and size and related measurement techniques. Melt and solution crystallization are considered specifically addressing contemporary aspects of continuous crystallization and process intensification.
Technology: general issues --- K-MER zeolite --- synthesis parameter --- morphology --- cyanoethylation of methanol --- catalyst --- multi-dendrite motion --- CA-LBM model --- dendritic growth --- natural convection --- numerical simulation --- melt crystallization --- freeze crystallization (FC) --- recycling --- ionic liquid (IL) --- solid-liquid equilibrium --- cellulose --- nanocrystals --- modification --- poly(butylene succinate) --- crystallization --- kinetics --- chirality --- deracemization --- preferential crystallization --- racemic conglomerate --- phase behavior --- polymorphism --- aryl glycerol ethers --- spherical BaTiO3 nanoparticle --- hydrothermal synthesis --- nanoscale TiO2 seed --- crystal growth --- dielectric property --- curcumin --- purification --- ternary mixture of curcuminoids --- reverse osmosis --- membrane fouling --- gypsum scaling --- fluorescent-tagged polyacrylate --- fluorescence --- scale inhibition mechanisms --- solvent effect --- crystal habit --- aspect ratio --- molecular dynamics (MD) --- surface structure --- amine --- biocatalysis --- enzyme --- process intensification --- enantioselective --- fluidized bed --- continuous --- chiral separation --- racemate resolution --- enantiomer --- asparagine monohydrate --- fine chemicals --- continuous crystallization --- crystal shape --- process design --- DTB crystallizer --- scale up --- L-serine --- L-alanine --- enantiomers --- isomorphic miscibility --- thermal expansion --- PXRD --- TRPXRD --- optical measurement techniques --- crystal size measurement --- inline probe --- crystal needles --- microcrystals --- microplate --- grid scanning --- in situ data collection --- K-MER zeolite --- synthesis parameter --- morphology --- cyanoethylation of methanol --- catalyst --- multi-dendrite motion --- CA-LBM model --- dendritic growth --- natural convection --- numerical simulation --- melt crystallization --- freeze crystallization (FC) --- recycling --- ionic liquid (IL) --- solid-liquid equilibrium --- cellulose --- nanocrystals --- modification --- poly(butylene succinate) --- crystallization --- kinetics --- chirality --- deracemization --- preferential crystallization --- racemic conglomerate --- phase behavior --- polymorphism --- aryl glycerol ethers --- spherical BaTiO3 nanoparticle --- hydrothermal synthesis --- nanoscale TiO2 seed --- crystal growth --- dielectric property --- curcumin --- purification --- ternary mixture of curcuminoids --- reverse osmosis --- membrane fouling --- gypsum scaling --- fluorescent-tagged polyacrylate --- fluorescence --- scale inhibition mechanisms --- solvent effect --- crystal habit --- aspect ratio --- molecular dynamics (MD) --- surface structure --- amine --- biocatalysis --- enzyme --- process intensification --- enantioselective --- fluidized bed --- continuous --- chiral separation --- racemate resolution --- enantiomer --- asparagine monohydrate --- fine chemicals --- continuous crystallization --- crystal shape --- process design --- DTB crystallizer --- scale up --- L-serine --- L-alanine --- enantiomers --- isomorphic miscibility --- thermal expansion --- PXRD --- TRPXRD --- optical measurement techniques --- crystal size measurement --- inline probe --- crystal needles --- microcrystals --- microplate --- grid scanning --- in situ data collection
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