Mohd. Aqil scite author profile

The discovery of liposome or lipid vesicle emerged from self forming enclosed lipid bi-layer upon hydration; liposome drug delivery systems have played a significant role in formulation of potent drug to improve therapeutics. Recently the liposome formulations are targeted to reduce toxicity and increase accumulation at the target site. There are several new methods of liposome preparation based on lipid drug interaction and liposome disposition mechanism including the inhibition of rapid clearance of liposome by controlling particle size, charge and surface hydration. Most clinical applications of liposomal drug delivery are targeting to tissue with or without expression of target recognition molecules on lipid membrane. The liposomes are characterized with respect to physical, chemical and biological parameters. The sizing of liposome is also critical parameter which helps characterize the liposome which is usually performed by sequential extrusion at relatively low pressure through polycarbonate membrane (PCM). This mode of drug delivery lends more safety and efficacy to administration of several classes of drugs like antiviral, antifungal, antimicrobial, vaccines, anti-tubercular drugs and gene therapeutics. Present applications of the liposomes are in the immunology, dermatology, vaccine adjuvant, eye disorders, brain targeting, infective disease and in tumour therapy. The new developments in this field are the specific binding properties of a drug-carrying liposome to a target cell such as a tumor cell and specific molecules in the body (antibodies, proteins, peptides etc.); stealth liposomes which are especially being used as carriers for hydrophilic (water soluble) anticancer drugs like doxorubicin, mitoxantrone; and bisphosphonate-liposome mediated depletion of macrophages. This review would be a help to the researchers working in the area of liposomal drug delivery.

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Nanoemulsion Components Screening and Selection: a Technical Note

Azeem

et al. 2009

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Sparfloxacin-loaded PLGA nanoparticles for sustained ocular drug delivery

Gupta¹,

Aqil²,

Khar³

et al. 2010

Nanomedicine: Nanotechnology, Biology and Medicine

309

154

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Status of terpenes as skin penetration enhancers

Aqil

Ahad

Sultana

et al. 2007

Drug Discovery Today

201

117

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Alginate microspheres of isoniazid for oral sustained drug delivery

Rastogi

Sultana

Aqil

et al. 2007

International Journal of Pharmaceutics

154

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Formulation and optimization of nanotransfersomes using experimental design technique for accentuated transdermal delivery of valsartan

Ahad¹,

Aqil²,

Kohli³

et al. 2012

Nanomedicine: Nanotechnology, Biology and Medicine

150

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Review of Ocular Drug Delivery

Sultana

Jain

Aqil³

et al. 2006

CDD

120

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Successful treatment of eye diseases requires effective concentration of drug at the eye for sufficient period of time. Conventional ocular drug delivery including eye drops, systemic administration, ophthalmic ointments, is no longer sufficient to combat ocular diseases. This article reviews the constraints with conventional ocular therapy, and explores various novel approaches, to improve the ocular bioavailability of drugs to the anterior chamber of the eye.

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Chitosan-coated PLGA nanoparticles of bevacizumab as novel drug delivery to target retina: optimization, characterization, and in vitro toxicity evaluation

Pandit

Sultana

Aqil

2016

Artificial Cells, Nanomedicine, and Biotechnology

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In several ocular diseases, the vascular endothelial growth factor (VEGF) level has been found to be upregulated. Bevacizumab, an anti-VEGF drug, is the most commonly used off level drug for these conditions. Delivery of drug to the posterior site is desired for the effective management of these diseases. The present study was to develop and optimize the chitosan (CS)-coated poly(lactide-co-glycolic acid) (PLGA) nanoparticles (NPs) of bevacizumab for sustained and effective delivery to posterior ocular tissues. NPs were prepared by double emulsion solvent evaporation method and optimized for various variables (i.e., CS concentration, PLGA content, polyvinyl alcohol (PVA) concentration, and sonication time) by employing a 4-factor 3-level Box-Behnken statistical design. NPs were characterized for particle size, polydispersity index (PDI), entrapment efficiency (EE), and in vitro release. Transscleral flux was determined through goat sclera, and ocular tolerance assay was done by Hen's Egg Test chorioallantoic membrane method. The particle size and PDI of the optimized NPs were 222.28 ± 7.45 nm and 0.19 ± 0.08, respectively. The developed NPs showed an EE of 69.26 ± 1.31% with an extended release profile. The flux was significantly higher that is, 0.3204 ± 0.026 μg/cm/h for the NPs compared to drug solution. Thus, CS-coated PLGA NPs can be potentially useful as ocular drug carriers to target retina.

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Mohd. Aqil

Liposomal Drug Delivery Systems: An Update Review

Nanoemulsion Components Screening and Selection: a Technical Note

Sparfloxacin-loaded PLGA nanoparticles for sustained ocular drug delivery

Status of terpenes as skin penetration enhancers

Alginate microspheres of isoniazid for oral sustained drug delivery

Formulation and optimization of nanotransfersomes using experimental design technique for accentuated transdermal delivery of valsartan

Review of Ocular Drug Delivery

Chitosan-coated PLGA nanoparticles of bevacizumab as novel drug delivery to target retina: optimization, characterization, and in vitro toxicity evaluation

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