K C Sachin scite author profile

Cycloheximide, a protein synthesis inhibitor, was encapsulated in cross-linked gelatin nanoparticles (Type B, Bovine skin, 75 Bloom) of 168 nm diameter with 26% entrapment efficiency. In-vitro release kinetics of the drug from the nanoparticles was done in phosphate buffer saline (PBS) at pH 7.4 and pH 5.8. The release kinetics showed a bi-phasic curve. Interestingly, the release of drug is approx 90% in acidic pH as compared to 50% release in neutral pH. The particle size was determined by Dynamic Light Scattering (DLS) technique, and size distribution spectra at different pH were observed to vary inversely with increase in pH. These drug loaded nanoparticles were found to be stable in whole blood showing negligible haemolysis. Cytotoxicity in HBL-100 and MCF-7, breast cancer cell lines was done in a 24-72 hrs assay, showing increased anti-tumour activity over a period of time indicating slow release. Dose dependent cytotoxicity was observed after 24 hours upto 72 hours of incubation of nanoparticles while the drug per se (<4 microg) showed 93% toxicity within 24 hours. Phase contrast microscopy of nanoparticle-cell interaction, clearly indicated aggregation along the lipid cell-membrane. Electron Microscopy (TEM, SEM) studies revealed its size and spherical shape. The stability of the particle, the slow and controlled release of drug from the gelatin nanoparticles indicate that it is a good candidate to deliver bio-pharmaceuticals. These behave as "intelligent" carriers for drug delivery, and can be exploited to empty their drug load in acidic medium. The paper focuses on the release kinetics of the gelatin nanoparticles that can be successfully exploited to treat solid tumors.

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Review on the correlation between mixing, microstructure and strength of cementitious products with nanoparticles

Adithya

Sachin

Radhakrishna

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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Concrete is manmade multiphase composite where coarse granular materials are embedded in a hard matrix of binder, filling the space between the aggregate particles and gluing them all together that strengthens with time on hydration. Addition of nanoparticles further enhances the properties of the concrete such as early strength, refined micro structure and enhanced durability. Nanoparticles are added to cementitious composites by dry mixing with cement or dispersion in water. The challenge associated with it is the uniform dispersion of the nanoparticles in the matrix of the composite. The type of mixer and the mixing pattern affect the fresh and hardened properties of the concrete. This article reviews the effect of dispersion of nano particles, type of mixer and mixing pattern on the properties of cementitious composites.

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Experimental studies on GGBS based geopolymer concrete

Amar

Devanand

Harsha

et al. 2023

Materials Today: Proceedings

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Enhanced structural and optical properties of ZnO nanorods synthesized via a modified sol-gel method

Akhoon¹,

Rubab²,

Sachin³

et al. 2016

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K C Sachin

Effect of molecular weight heterogeneity on drug encapsulation efficiency of gelatin nano-particles

Release Kinetics from Bio-Polymeric Nanoparticles Encapsulating Protein Synthesis Inhibitor- Cycloheximide, for Possible Therapeutic Applications

Review on the correlation between mixing, microstructure and strength of cementitious products with nanoparticles

Experimental studies on GGBS based geopolymer concrete

Enhanced structural and optical properties of ZnO nanorods synthesized via a modified sol-gel method

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