Search Results - "Pagire, Sudhir K."

Thermodynamic Investigation of Carbamazepine-Saccharin Co-Crystal Polymorphs by Pagire, Sudhir K, Jadav, Niten, Vangala, Venu R, Whiteside, Benjamin, Paradkar, Anant

“…Polymorphism in active pharmaceutical ingredients can be regarded as critical for the potential that crystal form can have on the quality, efficacy, and safety…”
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Hot-melt extrusion process impact on polymer choice of glyburide solid dispersions: The effect of wettability and dissolution by Alshafiee, Maen, Aljammal, Mohammad K., Markl, Daniel, Ward, Adam, Walton, Karl, Blunt, Liam, Korde, Sachin, Pagire, Sudhir K., Kelly, Adrian L., Paradkar, Anant, Conway, Barbara R., Asare-Addo, Kofi

“…[Display omitted] •Solid dispersions of glyburide made by hot-melt extrusion.•SEM and focus variation showed microstructure and surface morphology was…”
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Spherical Crystallization of Carbamazepine/Saccharin Co-Crystals: Selective Agglomeration and Purification through Surface Interactions by Pagire, Sudhir K, Korde, Sachin A, Whiteside, Benjamin R, Kendrick, John, Paradkar, Anant

“…Spherical crystallization involves crystallization and simultaneous agglomeration of a crystalline particle using an immiscible phase, which has preferential…”
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Improving Stability of Effervescent Products by Co-Crystal Formation: A Novel Application of Crystal Engineered Citric Acid by Pagire, Sudhir K, Seaton, Colin C, Paradkar, Anant

“…The major concern of the physical and chemical instability of effervescent products during manufacturing and storage is addressed through a co-crystallization…”
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Tracing the Architecture of Caffeic Acid Phenethyl Ester Cocrystals: Studies on Crystal Structure, Solubility, and Bioavailability Implications by Ketkar, Sameer, Pagire, Sudhir K, Goud, N. Rajesh, Mahadik, Kakasaheb, Nangia, Ashwini, Paradkar, Anant

“…Caffeic acid phenethyl ester (CAPE) is a polyphenolic active compound present in popular apiproduct, “propolis”, obtained from beehives. Though it has broad…”
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Solid-State Competitive Destabilization of Caffeine Malonic Acid Cocrystal: Mechanistic and Kinetic Investigations by Alsirawan, Mhd. Bashir, Lai, Xiaojun, Prohens, Rafel, Vangala, Venu R, Pagire, Sudhir K, Shelley, Petroc, Bannan, Thomas J, Topping, David O, Paradkar, Anant

“…The main objective of this research is to investigate both the mechanism and the kinetics of solvent-free destabilization of the model caffeine/malonic acid…”
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