Shradha S. Tiwari scite author profile

Shradha S. Tiwari

3Publications

1Citation Statement Received

15Citation Statements Given

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Hindu College of Pharmacy

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Nateglinide Silica Lipidhybrid Particles for Improved Solubility

Tiwari¹,

Wadher²,

Gattani³

2020

IND. DRU.

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Porous silica-based drug delivery systems have shown substantial potential for improving the oral delivery of poorly water-soluble drugs.The major problem with nateglinide, a BCS Class II drug, is pHdependent solubility, limited aqueous solubility, poor dissolution and variable bioavailability. The aim of the present investigation was to develop a lipid-based solid formulation of nateglinide, as a strategy to improve both the solubility and the dissolution rate of the drug in a tablet dosage form. The silica lipid hybrid (SlH) particles were formulated using Miglyol812 and Acrysol el 135 as liquid lipid vehicles as well aslabrasol and Transcutol HP as surfactants.Nateglinide was dissolved in different lipids and later adsorbed on highly porous silica Sylloid PF244 to obtain free-flowing powders. The prepared nateglinide SlH was characterized by FT-IR, DSC, and XRD.Nateglinide SlH was evaluated for solubility and dissolution. SlH of NTG prepared with Miglyol 812 and Transcutol HP enhanced solubility of NTG 57.21 fold. From the study, it may be concluded that the oral solid lipid-based formulation, SlH has an improved potential for enhancing solubility and dissolution of BCS class II drugs like nateglinide.

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Potential Nanomaterials for the Treatment and Management of Diabetes Mellitus

Tiwari

Wadher

2023

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Development of Amorphous Binary and Ternary Solid Dispersions of Nateglinide for Improved Solubility and Dissolution

2020

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Objective: Nateglinide is a commonly used oral hypoglycemic, biopharmaceutical classification system Class II drug, which shows relatively poor water solubility and variable bioavailability. The objective of the present investigation was to develop the binary and ternary solid dispersions of nateglinide for improved solubility and dissolution. Methods: Nateglinide solid dispersions were prepared by a common solvent evaporation method. Polymers like soluplus, kolliphor P188, sylloid 244FP, gelucire 48/16, affinisol (HPMCAS), HPβCD, βCD were used in different combinations. The physicochemical characterization of the optimized ternary dispersion was studied by using FT-IR, DSC, and PXRD. Solubility and dissolution behavior of all dispersions were studied. Result: From all prepared ternary solid dispersions, nateglinide dissolution was significantly faster than pure nateglinide. With ternary solid dispersion of NTG, soluplus and kolliphor P188 there was a big improvement in solubility and dissolution. This combination enhanced the solubility of NTG by 23 folds. Another ternary dispersion of NTG with soluplus and gelucire 48/16 enhanced solubility by 25 fold. Conclusion: Ternary solid dispersion found superior over binary dispersions. For the ternary dispersions, showing the best solubility, tablets were prepared. Dissolution and drug release from the formulated tablet was as good as a marketed product.

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Shradha S. Tiwari

Nateglinide Silica Lipidhybrid Particles for Improved Solubility

Potential Nanomaterials for the Treatment and Management of Diabetes Mellitus

Development of Amorphous Binary and Ternary Solid Dispersions of Nateglinide for Improved Solubility and Dissolution

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