Silpa Raj scite author profile

Nanotechnology is the science of manipulating atoms and molecules in the nanoscale - 80,000 times smaller than the width of a human hair. The world market for products that contain nanomaterials is expected to reach $2.6 trillion by 2015. The use of nanotechnology has stretched across various streams of science, from electronics to medicine and has now found applications in the field of cosmetics by taking the name of nanocosmetics. This widespread influence of nanotechnology in the cosmetic industries is due to the enhanced properties attained by the particles at the nano level including color, transparency, solubility etc. The different types of nanomaterials employed in cosmetics include nanosomes, liposomes, fullerenes, solid lipid nanoparticles etc. Recently, concerns over the safety of such nanocosmetics are raised and have forced the cosmetic industries to limit the use of nanotechnology in cosmetics and for enforcing laws to undergo a full-fledged safety assessment before they enter into the market. In this review, emphasis is made on the types of nanomaterials used in cosmetics by the various cosmetic brands, the potential risks caused by them both to human life and also to the environment and what all regulations have been undertaken or can be taken to overcome them.

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Purification and Characterization of Fibrinolytic Enzyme from Pseudoalteromonas sp., IND11 and its in vitro Activity on Blood Clot

Vijayaragh¹,

Raj²,

Prakash³

2014

International J. of Biological Chemistry

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Fibrinolytic enzymes are agents that dissolve fibrin clots. These fibrinolytic agents have potential use to treat cardiovascular diseases, such as heart attack and stroke. The aim of the study was to purify fibrinolytic enzyme from the marine isolate, Pseudoalteromonas sp., IND11. Enzyme was purified to electrophoretic homogeneity using ammonium sulphate precipitation, ion exchange and affinity chromatography. The SDS-PAGE showed that it was a monomeric protein with an apparent molecular weight of 64 kDa. The purified enzyme was active at pH 6.0-9.0 with an optimum pH of 8.0. It was stable upto 50°C, exhibiting maximum activity between 30 and 60°C. Among the ions, Na + and Ca 2+ activated enzyme activity. The Fe 2+ did not obviously activate or inhibit the enzyme activity. The ions such as Cu 2+ , Hg 2+ and Zn 2+ strongly affected enzyme activity. This enzyme activated plasminogen and also had direct clot lytic activity. It digested the fibrin net of blood clot, suggests its potential as an effective thrombolytic agent. This study explores new sources of fibrinolytic enzymes to treat and prevent CVDs.

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Case Study on Type A Niemann Pick Disease

Seshadri¹,

Ahmed²,

Saminathan³

et al. 2016

IOSR

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Pharmacokinetics and Pharmacodynamics of Avian Egg-Yolk Derived Pure Anti-Snake Venom in Healthy and Disease Animal-Model

Korah

Hima

Raj

et al. 2022

Journal of Pharmaceutical Sciences

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Silpa Raj

Nanotechnology in cosmetics: Opportunities and challenges

Purification and Characterization of Fibrinolytic Enzyme from Pseudoalteromonas sp., IND11 and its in vitro Activity on Blood Clot

Case Study on Type A Niemann Pick Disease

Pharmacokinetics and Pharmacodynamics of Avian Egg-Yolk Derived Pure Anti-Snake Venom in Healthy and Disease Animal-Model

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