M. Sivakumar scite author profile

The preeminent treatments for neurodegenerative disease are often unavailable due to the poor accessibility of therapeutic drugs. Moreover, the blood–brain barrier (BBB) effectively blocks the transfer of cells, particles and large molecules, ie, drugs, across the brain. The most important challenge in the treatment of neurodegenerative diseases is the development of targeted drug delivery system. Theranostic strategies are known to combine therapeutic and diagnostic capabilities together. The aim of this review was to record the response to treatment and thereby improve drug safety. Nanotechnology offers a platform for designing and developing theranostic agents that can be used as an efficient nano-carrier system. This is achieved by the manipulation of some of the properties of nanoparticles (NPs), thereby enabling the attachment of suitable drugs onto their surface. The results provide revolutionary treatments by stimulation and thus interaction with targeted sites to promote physiological response with minimum side effects. This review is a brief discussion of the administration of drugs across the brain and the advantages of using NPs as an effective theranostic platform in the treatment of Alzheimer’s, Parkinson’s, epilepsy and Huntington’s disease.

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Ultrafiltration application of cellulose acetate–polyurethane blend membranes

Sivakumar

Malaisamy

Sajitha

et al. 1999

European Polymer Journal

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Heterogeneous Photocatalysis in Environmental Remediation

Chen

Sivakumar

Ray

2000

Dev. Chem. Eng. Mineral Process.

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Fabrication of chitosan–magnetite nanocomposite strip for chromium removal

et al. 2015

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Environmental pollution caused by heavy metals is a serious threat. In the present work, removal of chromium was carried out using chitosan-magnetite nanocomposite strip. Magnetite nanoparticles (Fe 3 O 4 ) were synthesized using chemical co-precipitation method at 80°C. The nanoparticles were characterized using UVvisible spectroscopy, fourier transform infrared spectroscopy, X-ray diffraction spectrometer, atomic force microscope, dynamic light scattering and vibrating sample magnetometer, which confirm the size, shape, crystalline nature and magnetic behaviour of nanoparticles. Atomic force microscope revealed that the particle size was 15-30 nm and spherical in shape. The magnetite nanoparticles were mixed with chitosan solution to form hybrid nanocomposite. Chitosan strip was casted with and without nanoparticle. The affinity of hybrid nanocomposite for chromium was studied using K 2 Cr 2 O 7 (potassium dichromate) solution as the heavy metal solution containing Cr(VI) ions. Adsorption tests were carried out using chitosan strip and hybrid nanocomposite strip at different time intervals. Amount of chromium adsorbed by chitosan strip and chitosan-magnetite nanocomposite strip from aqueous solution was evaluated using UV-visible spectroscopy. The results confirm that the heavy metal removal efficiency of chitosan-magnetite nanocomposite strip is 92.33 %, which is higher when compared to chitosan strip, which is 29.39 %.

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Analysis of machining of FRPs using FEM

Ramesh

Seetharamu

Ganesan

et al. 1998

International Journal of Machine Tools and Manufacture

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Studies on cellulose acetate–polysulfone ultrafiltration membranes: I. Effect of polymer composition

Sivakumar

Mohan

Rangarajan

et al. 2005

Polymer International

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Ultrafiltration techniques have particular advantages for simultaneous purification, concentration and fractionation of macromolecules. Studies are presented on novel ultrafiltration membranes, based on cellulose acetate and polysulfone blends, for the separation of proteins and heavy metal ions. The effects of polymer composition on pure water flux, water content, molecular weight cut‐off and hydraulic resistance are discussed. Scanning electron microscopy images of the membranes show the presence of segregated individual domains of cellulose acetate and polysulfone. The molecular weight cut‐off obtained from the protein separation studies is also presented. Applications of these membranes for separating metal ions from aqueous streams are discussed. Copyright © 2005 Society of Chemical Industry

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M. Sivakumar

Studies on cellulose acetate-polysulfone ultrafiltration membranes

Preparation and performance of cellulose acetate–polyurethane blend membranes and their applications – II

Theranostic applications of nanoparticles in neurodegenerative disorders

Ultrafiltration application of cellulose acetate–polyurethane blend membranes

Heterogeneous Photocatalysis in Environmental Remediation

Fabrication of chitosan–magnetite nanocomposite strip for chromium removal

Analysis of machining of FRPs using FEM

Studies on cellulose acetate–polysulfone ultrafiltration membranes: I. Effect of polymer composition

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