B Ramesh scite author profile

B Ramesh

4Publications

5Citation Statements Received

394Citation Statements Given

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Formulation and Evaluation of Fast Disintigrating Meloxicam Tablets and Its Comparison with Marketed Product

Kulkarni¹,

Ranjit²,

Patel³

et al. 2010

IJDDT

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The present investigation deals with the formulation of fast disintegrating tablets of Meloxicam that disintegrate in the oral cavity upon contact with saliva and there by improve therapeutic efficacy. Meloxicam is a newer selective COX-1 inhibitor. The tablets were prepared by wet granulation procedure. The influence of superdisintegrants, crosspovidone, croscaremellose sodium on disintegration time, wetting time and water absorption ratio were studied. Tablets were evaluated for weight and thickness variation, disintegration time, drug content, in vitro dissolution, wetting time and water absorption ratio. The in vitro disintegration time of the best fast disintegrating tablets was found to be 18 sec. Tablets containing crospovidone exhibit quick disintegration time than tablets containing croscaremellose sodium. The fast disintegrating tablets of Meloxicam with shorter disintegration time, acceptable taste and sufficient hardness could be prepared using crospovidone and other excipients at optimum concentration.

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Bio-analytical Assay Methods used in Therapeutic Drug Monitoring of Antiretroviral Drugs-A Review

Charbe

Zacconi

Amnerkar

et al. 2019

CDTH

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Background: Several clinical trials, as well as observational statistics, have exhibited that the advantages of antiretroviral [ARV] treatment for humans with Human Immunodeficiency Virus / Acquired Immune Deficiency Syndrome HIV/AIDS exceed their risks. Therapeutic drug monitoring [TDM] plays a key role in optimization of ARV therapy. Determination of ARV’s in plasma, blood cells, and other biological matrices frequently requires separation techniques capable of high effectiveness, specific selectivity and high sensitivity. High-performance liquid chromatography [HPLC] coupled with ultraviolet [UV], Photodiode array detectors [PDA], Mass spectrophotometer [MS] detectors etc. are the important quantitative techniques used for the estimation of pharmaceuticals in biological samples. Objective: This review article is aimed to give an extensive outline of different bio-analytical techniques which have been reported for direct quantitation of ARV’s. This article aimed to establish an efficient role played by the TDM in the optimum therapeutic outcome of the ARV treatment. It also focused on establishing the prominent role played by the separation techniques like HPLC and UPLC along with the detectors like UV and Mass in TDM. Methods: TDM is based on the principle that for certain drugs, a close relationship exists between the plasma level of the drug and its clinical effect. TDM is of no value if the relationship does not exist. The analytical methodology employed in TDM should: 1) distinguish similar compounds; 2) be sensitive and precise and 3) is easy to use. Results: This review highlights the advancement of the chromatographic techniques beginning from the HPLC-UV to the more advanced technique like UPLC-MS/MS. TDM is essential to ensure adherence, observe viral resistance and to personalize ARV dose regimens. It is observed that the analytical methods like immunoassays and liquid chromatography with detectors like UV, PDA, Florescent, MS, MS/MS and Ultra performance liquid chromatography (UPLC)-MS/MS have immensely contributed to the clinical outcome of the ARV therapy. Assay methods are not only helping physicians in limiting the side effects and drug interactions but also assisting in monitoring patient’s compliance. Conclusion: The present review revealed that HPLC has been the most widely used system irrespective of the availability of more sensitive chromatographic technique like UPLC.

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Clinical Management of Multiple drug toxicity in Hallikar Bullocks

Anjaneya¹,

Ramesh²,

Shridhar³

et al. 2011

Vet. World

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Design, Development and Characterization of Simvastatin Loaded Transfersomal Gel for Transdermal Drug Delivery

Kumar¹,

Ramesh²,

Kavya³

et al. 2014

IND. DRU.

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The objective of the present study was to develop a controlled release transdermal drug delivery systems of simvastatin using lipid vesicular systems incorporated in a Carbopol gel, which will control the release of drug, increasing the bioavailability of the drug and thus decreasing the dosing frequency of the drug. The thin film hydration method or conventional rotary evaporation sonication method was used to prepare the transfersomes formulation. Experimental results of the present study showed that deformable lipid vesicles improve the transdermal delivery, prolong the release, and improve the site specificity of the lipophilic model drug, simvastatin. The drug diffusion studies showed that a transfersome vesicle follows zero order and mechanism of release follows Peppas model. In vivo study of optimized transfersomal gel formulation on suitable rodent model showed better biological anti-hyperlipidemic activity in comparison with reference formulation. Lipid:surfactant ratio of 85:15 is more effective when compared to other formulations because of its Higher flexibility and lesser particle size.

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B Ramesh

Formulation and Evaluation of Fast Disintigrating Meloxicam Tablets and Its Comparison with Marketed Product

Bio-analytical Assay Methods used in Therapeutic Drug Monitoring of Antiretroviral Drugs-A Review

Clinical Management of Multiple drug toxicity in Hallikar Bullocks

Design, Development and Characterization of Simvastatin Loaded Transfersomal Gel for Transdermal Drug Delivery

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