Journal ArticleDOI
Targeted delivery of arjunglucoside I using surface hydrophilic and hydrophobic nanocarriers to combat experimental leishmaniasis
Richa Tyagi,Sanchaita Lala,Anita Kamra Verma,Ashoke K. Nandy,Shashi B. Mahato,Amarnath Maitra,Mukul K. Basu +6 more
TLDR
It was apparent that in addition to a smaller size and better drug release profile, the contribution of other parameters, e.g. overall surface hydrophilicity or hydrophobicity of the vehicles, also play an important role in the macrophage uptake of the drug.Abstract:
The purpose of the present study was to investigate the therapeutic efficacy of the indigenous drug arjunglucoside I (AG) against in vivo models of experimental leishmaniasis by incorporating it in surface hydrophilic co-polymeric nanogel particles of size less than 100 nm diameter and to compare its efficacy with that of the free drug as well as the drug encapsulated in hydrophobic poly-dl-lactide (PLA) nanoparticles. The drug AG, having glucose at the terminal end of the glycosidic chain, was isolated from an indigenous source. Drug-incorporated ultra-low-sized nanogels (∼90 nm in diameter) composed of cross-linked random co-polymer of N-isopropylacrylamide (NIPAAM) and N-vinyl pyrrolidone(VP) were prepared, characterized and used as delivery vehicles to combat experimental leishmaniasis in hamster models. For comparison, drug-encapsulated hydrophobic nanoparticles (∼250 nm in diameter) made from PLA were used as a control. The drug AG was incorporated in these nanocarriers and these drug-nanocarrier co...read more
Citations
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Hydrogel Nanoparticles in Drug Delivery
TL;DR: Hydrogel nanoparticles have gained considerable attention in recent years as one of the most promising nanoparticulate drug delivery systems owing to their unique potentials via combining the characteristics of a hydrogel system with a nanoparticle, each with its own advantages and drawbacks.
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Nanocarriers’ entry into the cell: relevance to drug delivery
TL;DR: This review will discuss nanocarriers able to deliver anticancer agents, nucleic acids, proteins and peptides for therapeutic applications by these non-phagocytic routes, starting with the phagocytosis pathway.
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Nanogels as pharmaceutical carriers: finite networks of infinite capabilities.
TL;DR: This work has shown that polyelectrolyte nanogels can readily incorporate oppositely charged low-molecular-mass drugs and biomacromolecules such as oligo- and polynucleotides (siRNA, DNA) as well as proteins.
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Polymeric nanoparticle-encapsulated curcumin ("nanocurcumin"): a novel strategy for human cancer therapy
Savita Bisht,Georg Feldmann,Sheetal Soni,Rajani Ravi,Collins Karikar,Amarnath Maitra,Anirban Maitra +6 more
TL;DR: Nanocurcumin provides an opportunity to expand the clinical repertoire of this efficacious agent by enabling ready aqueous dispersion and demonstrating comparable in vitro therapeutic efficacy to free curcumin against a panel of human pancreatic cancer cell lines.
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Nanotechnology: intelligent design to treat complex disease.
TL;DR: The purpose of this expert review is to discuss the impact of nanotechnology in the treatment of the major health threats including cancer, infections, metabolic diseases, autoimmune diseases,immune diseases, and inflammations.
References
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