Rishi Paliwal scite author profile

Abstract. Nanomedicine refers to biomedical and pharmaceutical applications of nanosized cargos of drugs/vaccine/DNA therapeutics including nanoparticles, nanoclusters, and nanospheres. Such particles have unique characteristics related to their size, surface, drug loading, and targeting potential. They are widely used to combat disease by controlled delivery of bioactive(s) or for diagnosis of life-threatening problems in their very early stage. The bioactive agent can be combined with a diagnostic agent in a nanodevice for theragnostic applications. However, the formulation scientist faces numerous challenges related to their development, scale-up feasibilities, regulatory aspects, and commercialization. This article reviews recent progress in the method of development of nanoparticles with a focus on polymeric and lipid nanoparticles, their scale-up techniques, and challenges in their commercialization.

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Effect of lipid core material on characteristics of solid lipid nanoparticles designed for oral lymphatic delivery

Paliwal¹,

Rai²,

Vaidya³

et al. 2009

Nanomedicine: Nanotechnology, Biology and Medicine

247

126

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Solid lipid nanoparticles: a review on recent perspectives and patents

Paliwal

Kenwat

et al. 2020

Expert Opinion on Therapeutic Patents

236

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Nanocarriers in Ocular Drug Delivery: An Update Review

Wadhwa¹,

Paliwal²,

Paliwal³

et al. 2009

CPD

172

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Controlled drug delivery to eye is one of the most challenging fields of pharmaceutical research. Low drug-contact time and poor ocular bioavailability due to drainage of solution, tear turnover and its dilution or lacrimation are the problems associated with conventional systems. In addition, anatomical barriers and physiological conditions of eye are also important parameters which control designing of drug delivery systems. Nanosized carriers like micro/nano-suspensions, liposome, niosome, dendrimer, nanoparticles, ocular inserts, implants, hydrogels and prodrug approaches have been developed for this purpose. These novel systems offer manifold advantages over conventional systems as they increase the efficiency of drug delivery by improving the release profile and also reduce drug toxicity. Conventional delivery systems get diluted with tear, washed away through the lacrimal gland and usually require administering at regular time intervals whereas nanocarriers release drug at constant rate for a prolonged period of time and thus enhance its absorption and site specific delivery. This review presents an overview of the various aspects of the ocular drug delivery, with special emphasis on nanocarrier based strategies, including structure of eye, its barriers, delivery routes and the challenges/limitations associated with development of novel nanocarriers. The recent progresses in therapy of ocular disease like gene therapy have also been included so that future options should also be considered from the delivery point of view. Recent progress in the delivery of proteins and peptides via ocular route has also been incorporated for reader benefit.

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Rishi Paliwal

Zein in controlled drug delivery and tissue engineering

Nanomedicine Scale-up Technologies: Feasibilities and Challenges

Effect of lipid core material on characteristics of solid lipid nanoparticles designed for oral lymphatic delivery

Solid lipid nanoparticles: a review on recent perspectives and patents

Nanocarriers in Ocular Drug Delivery: An Update Review

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