S. M. Desai scite author profile

S. M. Desai

5Publications

45Citation Statements Received

26Citation Statements Given

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Affiliations

G.S. Science, Arts And Commerce College, Karnatak University, Maharaja Sayajirao University of Baroda

Publications

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Kinetics of osmium(VIII) catalyzed oxidation of allyl alcohol by potassium bromate in aqueous acidic medium-autocatalysis in catalysis

Desai

Halligudi

Nandibewoor

1999

Int. J. Chem. Kinet.

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The kinetics of oxidation of allyl alcohol with potassium bromate in the presence of osmium(VIII) catalyst in aqueous acid medium has been studied under varying conditions. The active species of oxidant and catalyst in the reaction were understood to be and Ϫ Bro 3 H 2 OsO 5 , respectively. The autocatalysis exhibited by one of the products, that is, Br Ϫ , was attributed to complex formation between bromide and osmium(VIII). A composite scheme and rate law were possible. Some reaction constants involved in the mechanism have been eval-

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Untitled

Desai

Halligudi

Nandibewoor

2002

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A kinetic study of oxidation of 1,4-dioxane by diperiodatonickelate(IV) in aqueous alkaline medium

1999

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Kinetics of the Oxidative Degradation of rac-Serine by Aqueous Alkaline Permanganate

Halligudi¹,

Desai²,

Mavalangi³

et al. 2000

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The Effect of Polymers on Drug Release Kinetics in Nanoemulsion In Situ Gel Formulation

Rani

Rajan²,

Bhupathyraaj³

et al. 2022

Polymers

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Glaucoma is an ocular condition characterized by elevated intraocular pressure (IOP). Conventional treatments of glaucoma face poor corneal permeability and bioavailability. To address these issues, a nanoemulsion in situ gel of Timolol maleate was developed in this study by adding the polymer Carbopol 934p. Using Carbopol 934p, a novel ophthalmic pH-induced nanoemulsion in situ gel was formulated. The formulation was liquid at pH 4 and quickly gelled when the pH was raised to 7.4 (Lacrimal pH). The pH-triggered in situ gelling mechanism demonstrated continuous drug release over a 24 h cycle. A total of nine trial formulations were prepared (NEI1–NEI9) and subjected to various physicochemical and in vitro evaluations. According to the in vitro release kinetics, the drug release of Timolol maleate nanoemulsion in situ gel NEI5 followed zero-order kinetics, with a release exponent value of 0.902, indicating that the mechanism of release was non-Fickian diffusion regulated. In vivo results showed that Timolol maleate nanoemulsion in situ gel NEI5 provided a better-sustained release of the drug, compared with the Timolet OD eye drops. The formulation is stable in storage, with no distinguishable change in appearance, physical properties, quality, and percentage drug release. NEI5 also reduces drug administration frequency, which improves patient compliance. Timolol maleate nanoemulsion in situ gel NEI5 achieved the goal of controlled drug delivery with extended-release and cost-effectiveness, lowering the dosage and frequency of drug administration, and thus may improve patient compliance. In conclusion, the stable nanoemulsion in situ gel of Timolol maleate NEI5 decreases intraocular pressure (IOP) over a prolonged period.

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S. M. Desai

Kinetics of osmium(VIII) catalyzed oxidation of allyl alcohol by potassium bromate in aqueous acidic medium-autocatalysis in catalysis

Untitled

A kinetic study of oxidation of 1,4-dioxane by diperiodatonickelate(IV) in aqueous alkaline medium

Kinetics of the Oxidative Degradation of rac-Serine by Aqueous Alkaline Permanganate

The Effect of Polymers on Drug Release Kinetics in Nanoemulsion In Situ Gel Formulation

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