Shanmuga Sundar Saravanabhavan scite author profile

Shanmuga Sundar Saravanabhavan

4Publications

44Citation Statements Received

48Citation Statements Given

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Affiliations

Vinayaka Missions University, Anna University, Chennai, University of Debrecen

Publications

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Graphene oxide functionalized with chitosan based nanoparticles as a carrier of siRNA in regulating Bcl-2 expression on Saos-2 & MG-63 cancer cells and its inflammatory response on bone marrow derived cells from mice

Saravanabhavan

Rethinasabapathy

Sarang

et al. 2019

Materials Science and Engineering: C

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Presently, quite a lot of research that are being carried out to find a potential cure for cancer and many had made to clinical trial stage as well. In the present study, we focus on use of a novel graphene oxide functionalized chitosan nanoparticle targeting Saos-2 and MG-63 osteosarcoma cells. The graphene oxide chitosan nanoparticles were loaded with siRNA, studied for in vitro release with varying concentration & pH, and fitted to peppas model. MTT & ROS assay was used to evaluate biocompatibility of carrier and qPCR to study the inflammatory responses in particular checking gene expression of IL-6, TGF-ß, TNF-α in both RAW 264.7 and bone marrow derived macrophages. The results of study showed that release of siRNA were in a controlled fashion and effective at acidic pH that prevails on tumor site. The material was biocompatible and effective in case of Saos-2 osteosarcoma cells with a viability of 0.4±0.43 and 0.49±0.53 in case of MG-63 cells when treated with highest concentration of 100µl siRNA compared to untreated cells that were in range of 0.64±0.67 in Saos-2 and 0.61±0.63 in MG-63 cells. The results of expression of inflammatory cytokines IL-6, TGF-β & TNF-α showed negligible amount compared to control group serving the purpose of an effective carrier targeting tumor cells. Highlights  Graphene oxide functionalized chitosan nanoparticle loaded with siRNA targeting Saos-2 and MG-63 osteosarcoma cells exhibited a controlled release.  Effective release of siRNA on cancer cells and destruction of the same.  No inflammation observed when treated with RAW and Bone Marrow derived macrophages derived from mice models.

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Investigation on sulphonated PEEK beads for drug delivery, bioactivity and tissue engineering applications

Saravanabhavan

Dharmalingam

2011

J Mater Sci

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Immuno-MALDI MS dataset for improved detection of HCVcoreAg in sera

Kaysheva¹,

Pleshakova²,

Stepanov³

et al. 2019

Data in Brief

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Complicated and large-scale challenge the contemporary biomedical community faces are development of highly-sensitive analytical methods for detection of protein markers associated with development of pathogenic mechanisms [2]. The atomic force microscopy (AFM) method in combination with specific fishing is unique among other analytical protein detection approaches; it allows visualization and counting of single protein molecules [3–6]. The present dataset focus on mass spectrometry method for detection of human hepatitis C virus core antigen (HCV core Ag) taking into account the potential modification with cations in blood serum samples, using mica chips for the atomic force microscopy (AFM-chips). To conduct specific protein fishing, we used flat AFM-chips preliminary sensibilized with molecular probes – aptamers, which are single-stranded DNA sequences. In our study we used four types of aptamers up to 85 nucleotides specific against the target protein – HCVcoreAg [3,4]. Working (n = 19) and control (n = 11) AFM-chips with aptamers were preliminarily immobilized on the surface in four zones and incubated in blood serum samples (See Supplementary fig. 1). Analysis of MS data regarding modification of marker protein peptides with Na+, K+, K2Cl+, and Na2Cl + ions enables to enhance the reliability of target proteins detection in the serum thereby demonstrating a high diagnostic potential.

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Fabrication of polysulphone/hydroxyapatite nanofiber composite implant and evaluation of their in vitro bioactivity and biocompatibility towards the post-surgical therapy of gastric cancer

Saravanabhavan¹,

Dharmalingam²

2013

Chemical Engineering Journal

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