Sahithi Mudili scite author profile

Sahithi Mudili

3Publications

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GITAM University

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Formulation and Evaluation of Statistically Designed Ibuprofen Fastdissolving Tablets Employing Starch Glutamate as a Novel Superdisintegrant

Mudili

2019

Asian J Pharm Clin Res

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Objective: The main aim of the present work is to enhance the solubility and bioavailability of the ibuprofen by formulating it into fast-dissolving tablets employing starch glutamate as a novel superdisintegrant. Materials and Methods: Starch glutamate was prepared from native potato starch and glutamic acid by the esterification process. Drug-excipient compatibility studies were performed between the starch glutamate and ibuprofen with the help of Fourier transform infrared spectroscopy, and differential scanning calorimetry techniques. Ibuprofen fast dissolving tablets were formulated employing different superdisintegrants along with the starch glutamate (a novel superdisintegrant) by the direct compression method. The prepared ibuprofen fast-dissolving tablets were evaluated for various pre- and post-compression parameters along with the in vitro and in vivo release characteristics. Optimized formulation stability studies were performed at accelerated conditions for 6 months as per the International Conference on Harmonization (ICH) and WHO guidelines. Results: Drug-excipient compatibility studies indicated that prepared starch glutamate was compatible with ibuprofen drug, and it can be used as a superdisintegrant in the formulation of fast-dissolving tablets. Fast-dissolving tablets of ibuprofen were formulated by employing starch glutamate as a superdisintegrant showed good tablet properties and showed an increased dissolution efficiency of the drug. Among all the formulations (F1–F8), the formulation F4 which contains 5% starch glutamate and 5% croscarmellose sodium as superdisintegrants showed 99.7±0.34% drug dissolution within 5 min. Peak plasma concentration of optimized formulation F2 was achieved in a short period of time and increased relative bioavailability and F2 was found to be stable during accelerated stability testing as per the ICH stability guidelines. Conclusion: From drug-excipient compatibility studies, disintegration time, in vitro dissolution studies, and pharmacokinetic studies, it was concluded that starch glutamate can be used as a superdisintegrant in the formulation of fast-dissolving tablets to increase the solubility as well as bioavailability of the poorly soluble drugs.

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Optimization of Statistically Designed Aceclofenac Fast Dissolving Tablets Employing Starch Glutamate as a Novel Superdisintegrant

Kumar

Mudili

2019

Int J App Pharm

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Objective: To optimize aceclofenac fast dissolving tablets employing starch glutamate as novel superdisintegrant by 2 3 Methods: Starch glutamate was prepared by the esterification process. Starch glutamate physical and micromeritics properties had been evaluated and the prepared starch glutamate was used as a superdisintegrant for the formulation of the fast dissolving tablets of aceclofenac by direct compression method and optimized by employing 2 factorial design to improve bioavailability and enhance patient compliance.3 Results: The prepared starch glutamate was amorphous, insoluble in aqueous and organic solvents were tested. Fast dissolving tablets of aceclofenac were formulated by employing starch glutamate as a superdisintegrant showed good tablet properties and showed an increased dissolution efficiency of the drug. Among all the formulations (F1 to F8), the formulation F8 containing 5% concentration of starch glutamate, croscarmellose sodium and, crospovidone as a superdisintegrants showed 99.7±0.15% of drug release within 5 min. Whereas the formulation F2 containing 5% concentration of starch glutamate, drug release characters were comparable to the formulation F8. Optimized formulation F2 attained peak plasma concentration within a short period and showed increased relative bioavailability of the drug. factorial design. The prepared aceclofenac fast dissolving tablets were evaluated for post compression parameters as well as in vitro and in vivo release characteristics. Optimized formulation stability studies were performed at accelerated conditions for 6 mo as per ICH and WHO guidelines. Conclusion:From the physical properties, disintegration time, in vitro dissolution studies and pharmacokinetic studies, it was concluded that fast dissolving tablets of aceclofenac tablets formulated by employing starch glutamate as a superdisintegrant enhanced the dissolution efficiency and improved the bioavailability of the drug as compared to the pure drug and stable. I In nt te er rn na at ti io on na al l J Jo ou ur rn na al l o of f A Ap pp pl li ie ed d P Ph ha ar rm ma ac ce eu ut ti ic cs s

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Optimisation of Starch Glutamate as a New Modified Superdidintegrant in the Formulation of Ibuprofen Fast Dissolving Tablets

Kumar

Mudili

2023

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Sahithi Mudili

Formulation and Evaluation of Statistically Designed Ibuprofen Fastdissolving Tablets Employing Starch Glutamate as a Novel Superdisintegrant

Optimization of Statistically Designed Aceclofenac Fast Dissolving Tablets Employing Starch Glutamate as a Novel Superdisintegrant

Optimisation of Starch Glutamate as a New Modified Superdidintegrant in the Formulation of Ibuprofen Fast Dissolving Tablets

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