I. M. Shaikh scite author profile

The use of microemulsions as drug delivery vehicle has been an exciting and attractive area of research because of its many potential and extraordinary benefits. Microemulsions offer an interesting and potentially quite powerful alternative carrier system for drug delivery because of their high solubilization capacity, transparency, thermodynamic stability, ease of preparation, and high diffusion and absorption rates when compared to solvent without the surfactant system. The oral efficacy of microemulsion has already been proved by cyclosporine formulation (Neoral), but apart from oral route, microemulsions for other routes like dermal, transdermal, ocular, vaginal, rectal, buccal, periodontal, parenteral, and nasal delivery routes have also been developed. The present review focuses on various applications of microemulsions through different above mentioned routes and also gives idea about new application of micro emulsion as oral solid dosage form, as microreactors and as blood substitute.

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Aceclofenac Organogels: In Vitro and In Vivo Characterization

Shaikh

Jadhav

Jadhav³

et al. 2009

CDD

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The flux calculated for skin permeation ability of aceclofenac was in the order EO/lecithin organogel > hydrogel. The In vivo results also demonstrated that organogels are more effective in faster drug release as compared to hydrogels. It was observed that viscosity of gels decreased with increasing stress .The size of micellar aggregation increased with water added and has been revealed in dynamic light scattering (DLS) study. The histopathological data showed that EO/lecithin organogel were safe enough for topical purpose.

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Applications of Microemulsion‐Based Drug Delivery System

et al. 2006

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Topical Delivery of Aceclofenac from Lecithin Organogels: Preformulation Study

Shaikh

Jadhav²,

Gide³

et al. 2006

CDD

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The purpose of this research is to evaluate the suitability of lecithin organogels containing aceclofenac for topical application. The present article focuses on the preformulation part of the whole research work. Thin layer chromatography was carried out to determine lecithin's purity. The excipients for formulating lecithin organogel were screened. Lecithin organogels are thermo reversible in nature and hence gelation temperature study was carried out to determine the temperature where Sol-Gel and Gel-Sol transformation takes place. Partition coefficient of the drug was estimated. Drug solubility in plain oil and organogel containing reverse micelles was estimated. Effect of water added on the properties of lecithin organogels such as X-ray diffraction pattern, conductivity and viscosity were determined. Microscopy of the gel sample has been carried out at different magnifications. The pseudo ternary phase diagram has been constructed to determine the organogel existence region. The permeation study of aceclofenac from different concentrations of lecithin organogels [200 mM, 300 mM and 400 mM] has been determined using cellulose acetate membrane (0.45 micro) and excised rat skin. Lecithin organogel in ethyl oleate has desired stability and consistency. A single spot on the TLC plate confirms the purity of soy lecithin to be used in organogel formation. Aceclofenac solubility was found to be more in lecithin/oil reverse micellar system as compared to its solubility in oil. The X-ray diffraction pattern confirms the incorporation of water in micellar gel network. The physical properties of organogels are affected by water incorporated and concentration of gelator. The permeation of aceclofenac through artificial membrane and excised rat skin demonstrated the same trend and were in the following order 200 mM>300 mM>400 mM. The results showed that organogel exhibits useful pharmaceutical properties.

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Advanced Approaches in Insulin Delivery

Shaikh

Jadhav²,

Ganga

et al. 2005

CPB

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Diabetes is a syndrome of disordered metabolism and inappropriate hyperglycemia resulting from a deficiency of insulin secretion or insulin resistance. Insulin, a pancreatic hormone, helps to lower the blood sugar levels. The structural features of insulin and insulin receptors are summarized. Diabetic patients use insulin in the form of injections, which involves lots of pain, and a need for non-invasive, alternative mode of insulin administration is desired. These challenges have lead to attempts in insulin therapy using oral, nasal, pulmonary, rectal, transdermal, buccal, gene therapy, islet cell transplantation and diabetes vaccine. Among all the approaches pulmonary administration has achieved some clinical significance. Future approaches that can be exploited for insulin therapy in Insulin Dependent Diabetes Mellitus [IDDM] have been summarized. Insulin inhalers or tablets for IDDM are interesting alternatives.

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I. M. Shaikh

Applications of Microemulsion Based Drug Delivery System

Aceclofenac Organogels: In Vitro and In Vivo Characterization

Applications of Microemulsion‐Based Drug Delivery System

Topical Delivery of Aceclofenac from Lecithin Organogels: Preformulation Study

Advanced Approaches in Insulin Delivery

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