Madhusudhan Rao Vallabhaneni scite author profile

Madhusudhan Rao Vallabhaneni

2Publications

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33Citation Statements Given

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Electrochemical Recognition and Electrochemical Oxidation of Mesalazine Drug at PMA Modified Glassy Carbon Electrode

Gupta¹,

Vallabhaneni²

2021

IJPI

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Background: Electrochemistry was the foremost subdivision of the chemistry its interred correlated to the entire other chemistries. Primarily it can settle on the nature of compound reactions by physically depends on the applying extent of electricity. The magnitude container is agreed away in connecting the optimistic and negative electrodes at the being there of analytic nearby in solution medium. Thus the electrochemistry is essentially depended on the reaction of chemical changes are by the persuade current of applying, on this perception the electricity is on the inside associated to the chemical type which are in attendance in the chemical compounds. These genus are sensitive to the functionalised electric value of potentials, and it was seen in varying of chemical reactions. In that basis, the changing of reactions is extensive in electrochemical reactions. Methods: In this Cyclic Voltammetry experimental method, crucial principal subsequent, instrumentation, and chemical changing noticing potentiostat of the electrochemical cell and recording apparatus are studied. The working electrodes are glassy carbon electrode was used for the harvest of this research work. How the glassy carbon electrode is useful to bring good results from using analytes. The procedures for doing a modification with modifiers on the surface of the electrode are clearly discussed. Results: A quick-tempered and miniature responsive analytical advance became evolved for the electrochemical oxidation of Mesalazine (MSZ) the procedure of electro ionic deposited modified PMA altered glassy carbon electrode (MGCE). The distorted electrode specify electrocatalytic attention in the bearing of the oxidation of MSZ drug in 0.2M phosphate buffer solution (PBS) of pH 7.4 with the assist of using cyclic voltammetric (CV) technique. The restrict of detection develop into calculated to be 79.50nM at misused electrode. The impacts of experiment charge observe shows evidence of an adsorption deal with electrode phenomenon. The altered electrode might be used as an analytical apparatus for the enthusiasm MSZ drug in pharmaceutical formulations. Conclusion: The planned electrode deposited PMA MGCE grows to be engaged for the electro-oxidation and stamina of an imperative drug MSZ at physiological pH by revenue of the use of CV modus operandi. The discovery perimeter grows to be calculated to be 79.50nM on behalf of MSZ with the method of CV.

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Design of Experiments Approach to Discriminatory Dissolution Method Development of Poorly Soluble Drug in Immediate Release Dosage Form

Kolla¹,

Vallabhaneni²,

Puttagunta³

et al. 2019

IJPER

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Aim: The study involved design of experiment guided discriminatory dissolution method development for poorly soluble, ezetimibe tablets. Objective: In the current scope of study, ezetimibe tablets are selected as a suitable drug product candidate to evaluate the application of design of experiments in discriminatory dissolution method development for poorly soluble drug. Ezetimibe is practically insoluble in all the aqueous buffers. Methodology: 2-Level factorial design is selected as suitable model to build the experimental setup. Different factors like pH of dissolution media, sodium lauryl sulphate concentration, dissolution media volume and agitation speed (RPM) are selected for the study and dissolution % release at 5, 10, 15, 20, 45 min and % RSD of dissolution values at 20 min were selected as responses based on prior experience. The responses are evaluated for statistical significance and for adequacy of the built design with the help of different tools like ANOVA and diagnostic graphs. Results: It is observed that pH of dissolution media, surfactant concentration are having minimal positive effect on all of the responses. Whereas agitation speed and dissolution media volume were having significant positive effect on all responses, except for % RSD at 20 min and is inversely proportional to agitation speed. Conclusion: With the current scope of study design of experiments as an effective tool for discriminatory dissolution method development is employed to prove adequacy. Selected solutions from predictions were executed for experimental results and were compared against predictions to validate model.

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