Your search keyword '"Pathak, Kamla"' showing total 7 results

1. Feasibility of binary composition in development of nanoethosomal glycolic vesicles of triamcinolone acetonide using Box-behnken design: in vitro and ex vivo characterization.

Author

Akhtar, Nida, Verma, Anurag, and Pathak, Kamla

Subjects

ATOPIC dermatitis treatment, TRIAMCINOLONE acetonide, NANOMEDICINE, DRUG design, DRUG delivery systems, THERAPEUTICS

Abstract

Triamcinolone acetonide (TA) employed for the treatment of atopic dermatitis exhibits limited penetration into the epidermis. This investigationaimedto explore the role of binary solvents in topical drug delivery of TA by developing nanoethosomal glycolic lipid vesicles by infusion method. Screening of vesicles (TA1-TA17) formulated by Box Behnken design identified the optimized formulation (TA10) that was developed as carbomer gels. The gels were then evaluated for pharmaceutical properties and compared with control and reference ethosomal gel (RG). Higherin vitropermeation was found in gels containing TA10, prepared with or without using penetration enhancer (EGP 83.76 ± 0.72% and EG 82.42 ± 0.89%, respectively). CLSM studies depicted deeper uniform penetration of fluorescent tracer into the epidermis via EG as compared with RG and control gel. Enhanced penetration was due to combinational solvent effect exerted by ethanol and propylene glycol. Histological analysis confirmed the non-irritant potential of the gel. Thus, it can be concluded that nanoethosomal glycolic vesicles proved to be an effective non irritant carrier for improvised penetration of triamcinolone acetonide for potential topical therapeutics. [ABSTRACT FROM AUTHOR]

Published

2017

2. Pilosebaceous targeting by isotretenoin-loaded invasomal gel for the treatment of eosinophilic pustular folliculitis: optimization, efficacy and cellular analysis.

Author

Dwivedi, Mohit, Sharma, Vijay, and Pathak, Kamla

Subjects

TARGETED drug delivery, FOLLICULITIS, EOSINOPHILIA, HIV infections, LYMPHOCYTES, THERAPEUTICS

Abstract

Context:Eosinophilic pustular folliculitis is a secondary symptom associated with HIV infection appears as levels of CD4 lymphocyte cells and T4 lymphocyte cell. Isotretinoin, an analog of vitamin A (retinoid) alters the DNA transcription mechanism and interferes in the process of DNA formation. It also inhibits the eosinophilic chemotactic factors present in sebaceous lipids and in the stratum corneum of patients suffering from this ailment. Objective:The present research was aimed to formulate isotretenoin-loaded invasomal gel to deliver and target the drug to pilosebaceous follicular unit. Methods:Nine invasomal formulations (F1–F9) were prepared applying 32factorial designs and characterized. Results:Formulation F9 was selected as optimized formulation due to optimum results and highest %CDP of 85.94 ± 1.86% in 8 h. Transmission electron microscopy (TEM) suggested uniformity in vesicles shape and size in F9 and developed as invasomal gel (IG). Limitations:Clinical phase-I, phase-II, and phase-III studies will be required before using on human patients. Conclusion:Confocal laser scanning microscopy (CLSM) validates that IG successfully reaches the pilosebaceous follicular unit and further studied on cell line (SZ-95) exhibited IC50 of ≤8 (25 μM of isotretenoin). Cell cycle analysis confirmed IG arrested the cell growth up to 82% with insignificant difference to pure isotretenion. [ABSTRACT FROM PUBLISHER]

Published

2017

3. Optimization, in vitro cytotoxicity and penetration capability of deformable nanovesicles of paclitaxel for dermal chemotherapy in Kaposi sarcoma.

Author

Pathak, Kamla, Sharma, Vijay, and Sharma, Meenu

Subjects

*KAPOSI'S sarcoma, *CELL-mediated cytotoxicity, *PACLITAXEL, *PENETRATION mechanics, *CANCER chemotherapy, *DRUG delivery systems, *THERAPEUTICS

Abstract

Although much research has been published on ways to overcome the low oral bioavailability of paclitaxel, exploration of novel drug delivery systems that can target paclitaxel deep in to the dermal areas in AIDS-related Kaposi sarcoma (KS) have not yet been reported. Our aim was to develop deformable nanovesicles of paclitaxel capable of being used in dermal chemotherapy, especially deep into the dermal areas of AIDS related KS. Deformable nanovesicular formulations (TS1–TS15) composed of soya lecithin and span80 were prepared by the rotary evaporation sonication method within the constraints of our Box–Behnken design. The formulations were subjected to vesicle characterization andex vivopermeation. The optimized vesicular suspension was formulated as a gel and assessed forin vitrocytotoxicity and penetration characteristics by confocal laser scanning microscopy (CLSM). TS9 with vesicle size characteristics of 185.76 ± 2.15 nm, zeta potential of −23.2 mV, deformability index = 138.02 and cumulative drug permeation of 89.80 ± 1.84% was identified as the optimized formulation. TEM revealed spherical vesicles with firm boundaries that were stable at 4 °C. TS9 was developed as carbopol 934P gel (TG) and compared with the control gel (CG) made with the pure drug (paclitaxel). TG showed significantly higher (p < 0.05)in vitrodrug permeation and flux compared to the CG.In vitrocytotoxicity study on KSY-1 cell lines revealed higher IC50(≤17) for TS against IC50≤19 for TG. CLSM confirmed the penetrating potential of transfersomes via TG to the dermal layers of skin, the proposed target site. Conclusively, deformable nonovesicles of paclitaxel appear as a feasible alternative to the conventional formulations of paclitaxel in the management of AIDS-related KS. [ABSTRACT FROM PUBLISHER]

Published

2016

4. Product Development Studies on Sonocrystallized Curcumin for the Treatment of Gastric Cancer.

Author

Khan, Mohammad Ashif, Akhtar, Nida, Sharma, Vijay, and Pathak, Kamla

Subjects

CURCUMIN, STOMACH cancer treatment, CANCER cells, HYDROGEN-ion concentration, ORGANIC solvents, CRYSTALLIZATION, THERAPEUTICS

Abstract

Curcumin suffers from the limitation of poor solubility and low dissolution that can lead to limited applications. The investigation was aimed to substantiate the potentiality of melt sonocrystallized gastroretentive tablets of curcumin. Melt sonocrystallized curcumin (MSC CMN) was developed and its therapeutic potential was validated by in vitro cytotoxicity studies against Human oral cancer cell line KB. MSC curcumin was then formulated as floating tablet and evaluated. MSC form of CMN exhibited 2.36-fold and 2.40-fold solubility enhancement in distilled water and phosphate buffer, pH 4.5, respectively, better flow properties and intrinsic dissolution rate (0.242 ± 1.42 and 0.195 ± 1.26 mg/cm2/min) in comparison to its original form. The GI50 value of MSC CMN was found to be less than 10, specifying inhibition of growth more effectively at its least concentration by 50%. The gastroretentive-floating tablet (Formulation F4) displayed controlled drug release (96.22% ± 1.43%) for over 12 h. The present study revealed melt sonocrystallization can be used to produce particles with superior biopharmaceutical properties without the use of organic solvents or the addition of other excipients, and amenable to formulation in to a pharmaceutical dosage form. [ABSTRACT FROM AUTHOR]

Published

2015

5. Development of acetazolamide-loaded, pH-triggered polymeric nanoparticulate in situ gel for sustained ocular delivery: in vitro. ex vivo evaluation and pharmacodynamic study.

Author

Singh, Jyotsana, Chhabra, Gulshan, and Pathak, Kamla

Subjects

ACETAZOLAMIDE, NANOMEDICINE, PHARMACODYNAMICS, DRUG development, DRUG delivery systems, GELATION, EXCIPIENTS, THERAPEUTICS

Abstract

The objective of research was to develop a novel pH-triggered polymeric nanoparticulate in situ gel (NP-ISG) for ophthalmic delivery of acetazolamide (ACZ) to enhance the conjunctival permeation and precorneal residence time of the formulation by overcoming the limitations of protective ocular barriers. Nanoparticles (NP1--NP12) were developed by nanoprecipitation method and evaluated for pharmacotechnical characteristics including transmission electron microscopy. The optimized formulation, NP10 was dispersed in carbopol 934 P to form nanoparticulate in situ gels (NP-ISG1--NP-ISG5). NP-ISG5 was selected as optimized formulation on the basis of gelation ability and residence time. Ex vivo transcorneal permeation study exhibited significantly higher ACZ permeation from NP-ISG5 (74.50 ± 2.20 mg/cm2) and NP10 (93.5 ± 2.25 mg/cm2) than eye drops (20.08 ± 3.12 mg/cm2) and ACZ suspension (16.03 ± 2.14). Modified Draize test with zero score indicated nonirritant property of NP-ISG5. Corneal toxicity study revealed no visual signs of tissue damage. Further, NP-ISG5 when tested for hypotensive effect on intraocular pressure (IOP) in rabbits revealed that NP-ISG5 caused significant decrease in IOP ( p < 0.05) in comparison to eye drops. Conclusively, NP-ISG5 may offer intensive management of glaucoma via higher permeation, prolonged precorneal residence time and sustained drug release along with higher in vitro efficacy, safety and patient compliance. [ABSTRACT FROM AUTHOR]

Published

2014

6. Intranasal Nanoemulsions for Direct Nose-to-Brain Delivery of Actives for CNS Disorders.

Author

Bahadur, Shiv, Pardhi, Dinesh M., Rautio, Jarkko, Rosenholm, Jessica M., and Pathak, Kamla

Subjects

BLOOD-brain barrier, CENTRAL nervous system, OLFACTORY cortex, TARGETED drug delivery, THERAPEUTICS, DISEASES

Abstract

The treatment of various central nervous system (CNS) diseases has been challenging, despite the rapid development of several novel treatment approaches. The blood–brain barrier (BBB) is one of the major issues in the treatment of CNS diseases, having major role in the protection of the brain but simultaneously constituting the main limiting hurdle for drugs targeting the brain. Nasal drug delivery has gained significant interest for brain targeting over the past decades, wherein the drug is directly delivered to the brain by the trigeminal and olfactory pathway. Various novel and promising formulation approaches have been explored for drug targeting to the brain by nasal administration. Nanoemulsions have the potential to avoid problems, including low solubility, poor bioavailability, slow onset of action, and enzymatic degradation. The present review highlights research scenarios of nanoemulsions for nose-to-brain delivery for the management of CNS ailments classified on the basis of brain disorders and further identifies the areas that remain unexplored. The significance of the total dose delivered to the target region, biodistribution studies, and long-term toxicity studies have been identified as the key areas of future research. [ABSTRACT FROM AUTHOR]

Published

2020

7. Matrix based system of isotretinoin as nail lacquer to enhance transungal delivery across human nail plate.

Author

Joshi, Monika, Sharma, Vijay, and Pathak, Kamla

Subjects

*ISOTRETINOIN, *DRUG delivery systems, *EUGENOL, *SCANNING electron microscopy, *EXCIPIENTS, *CELL adhesion molecules, *NAILS (Anatomy), *THERAPEUTICS

Abstract

The project was aimed at development of isotretinoin nail lacquer and assessment of its penetration efficiency across human nail plate. Preliminary studies (hydration enhancement factor and SEM) aided the selection of thioglycolic acid as permeation and eugenol was selected as local anesthetic in the formulation. The nail lacquer was optimized by 3 2 factorial design and a total of nine formulations were prepared and screened. In vitro adhesion and ex vivo permeation (cumulative drug permeation per unit area (CDP/A) = 6.61 ± 0.57 mg/cm 2 ) across bovine hoof guided the selection of F3 as optimized formulation that was improvised. Viscosity adjustments to improve handling characteristics were affected by incorporation of ethyl cellulose (6%; F3M1) that scaled the viscosity to 312.681 cp and insignificantly ( p > 0.05) affected CDP/A (6.32 ± 0.45 mg/cm 2 ). In comparison to marketed preparation (Retino-A cream) F3M1 afforded two fold increase in CDP/A. The permeation characteristics were defined by Higuchi model ( r 2 = 0.964) and flux value of 176 μg/cm 2 /h. Confocal laser scanning microscopy, after 72 h of nail lacquer application, revealed extensive distribution of the fluorescent tracer across the human nail plate in comparison to control that was confined to the top layer. Conclusively, an efficacious and stable nail lacquer of isotretinoin was developed for potential clinical topical use to target the drug to nail bed in treatment of nail psoriasis . [ABSTRACT FROM AUTHOR]

Published

2015