K
Kanchan Kohli
Researcher at Jamia Hamdard
Publications - 209
Citations - 6921
Kanchan Kohli is an academic researcher from Jamia Hamdard. The author has contributed to research in topics: Transdermal & Medicine. The author has an hindex of 36, co-authored 187 publications receiving 5698 citations. Previous affiliations of Kanchan Kohli include Dabur Research Foundation & Hamdard University.
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Journal ArticleDOI
Chitosan-sodium alginate nanoparticles as submicroscopic reservoirs for ocular delivery: formulation, optimisation and in vitro characterisation.
Sanjay K. Motwani,Shruti Chopra,Sushma Talegaonkar,Kanchan Kohli,Farhan Jalees Ahmad,Roop K. Khar +5 more
TL;DR: Box-Behnken experimental design thus facilitated the optimisation of mucoadhesive nanoparticulate carrier systems for prolonged ocular delivery of the drug.
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Mechanism of Action of Flavonoids as Anti-inflammatory Agents: A Review
TL;DR: The aim of the present review is to give an overview of the mechanism of action of potential anti-inflammatory flavonoids.
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Self-emulsifying drug delivery systems: an approach to enhance oral bioavailability.
TL;DR: This article presents an exhaustive account of various literature reports on diverse types of self-emulsifying formulations with emphasis on their formulation, characterization and in vitro analysis, with examples of currently marketed preparations.
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Strategy for effective brain drug delivery
M. Intakhab Alam,Sarwar Beg,Abdus Samad,Sanjula Baboota,Kanchan Kohli,Javed Ali,Alka Ahuja,M. Akbar +7 more
TL;DR: Several novel approaches including nanotechnology based approach like nanoparticles, liposomes, antibody mediated delivery approach and application of genomics in brain drug targeting that would give an insight to the researchers, academia and industrialists are enlightened.
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Advancement in carbon nanotubes: basics, biomedical applications and toxicity
TL;DR: Carbon nanotubes have attracted much attention by researchers worldwide in recent years for their small dimensions and unique architecture, and for having immense potential in nanomedicine as biocompatible and supportive substrates.