| abstract | - Animesh Choubey is the elder son of the two children of Rajeshwar and Meenakshi Choubey. Animesh was born in Raipur, Chhattisgarh, India. He attended the Holy Cross Higher Secondary School in Raipur, from 1987 to 1996. From 1997 to 2001, Animesh attended The National Institute of Technology (formerly Government Engineering College) in Raipur, and graduated with a Bachelor of Engineering degree in Metallurgy. Animesh entered the masters’ program at The Indian Institute of Technology (IIT), Kanpur in 2001 and graduated with masters’ in Materials and Metallurgical Engineering in 2003. At IIT his scientific research was focused on studying the corrosion and wear behavior of 316L SS, Co-Cr and Ti based biomaterials under simulated body conditions in the supervision of Dr. R. Balasubramaniam and Dr. Bikramjit Basu, his advisors at The Indian Institute of Technology (IIT) Kanpur, India. Prior to his Ph.D., he worked as a Senior Executive, Research and Development, for Sahajanand Medical Technologies; a cardiovascular stent manufacturing company at Surat, Gujarat, India from September 2003 to July 2004, during which time he gained experience in research and development of new products, process optimization, solving complex technical problems and managing the entire customer experience. In August 2004, Animesh joined The Department of Biomedical Engineering at The University of Texas Health Science Center at San Antonio. He worked with Dr. Eugene A. Sprague and Dr. Denes Marton at Vascular Biomaterial Research Laboratory, his doctoral research was focused on studying the role of metal microstructure in inhibiting adverse responses to implants by accelerating endothelialization and controlled release of anti-restenotic drugs. Due to the reference value of his achievements, his biography has been selected for publication in Marquis Who’s Who in America (63rd Ed., 2009). Below is the listing of his career intesrests and relevant professional credentials. Biomaterials and tissue engineering, Cell-biomaterial interaction, Controlled drug delivery, Biodegradable materials, Corrosion and wear behavior of biomaterials. Human aortic endothelial cell and protein response to 316L stainless steel material microstructure and its potential application in anti-restenotic drug loading and delivery (PhD thesis, 2005-2008). Electrochemical and tribological behavior of novel titanium based alloys for human body implants (masters' thesis, 2002-2003). Recognized in Marquis Who's Who in America, 63rd Ed., 2009. Scholarship from UGC (University Grants Commission of India) to pursue masters’ from The Indian Institute of Technology, Kanpur, India (2001-2003). Best technical poster presentation in Light Metals Science and Technology (April 16th-17th, 2003) conference at Indian Institute of Science (IISc), Bangalore, India. Bajpai Saha award for technical paper presentation in the International Conference of Biomaterials and Artificial Organs (December 1st-3rd, 2003) at Indian Institute of Technology (IIT) Bombay, India. TPEG (Texas Public Education Grant) scholarship from The University of Texas at San Antonio (2006-2007). Author of the article which was ranked in ‘The Top 50 Most Frequently Read Articles’ in Journal of Biomaterials Application during March 2006. Ankur Raval, Animesh Choubey, Chhaya Engineer, Haresh Kotadia and Devesh Kothwala; Novel Biodegradable Polymeric Matrix Coated Cardiovascular Stent for Controlled Drug Delivery; Trends in Biomaterials and Artificial Organs, 20(2) (2007) 101-110. Arpana Verma, Animesh Choubey, Ankur Raval, Devesh Kothwala; Thermal Processing and Characterization of 316LVM Cardiovascular Stent; Journal of Biomedical Materials and Engineering, 16(6) (2006) 381-395. Devesh Kothwala, Ankur Raval, Animesh Choubey, Chhaya Engineer, Haresh Kotadia; Paclitaxel Drug Delivery from Cardiovascular Stent; Trends in Biomaterials and Artificial Organs, 19 (2) (2006) 88-92. Ankur Raval, Animesh Choubey, Chhaya Engineer and Devesh Kothwala; Surface Conditioning of 316LVM Slotted Tube Cardiovascular Stents, Journal of Biomaterials Applications, 19 (2005) 197-213. Animesh Choubey, Bikramjit Basu and R. Balasubramaniam; Tribological Behavior of Ti based Alloys in Simulated Body Fluid Solution at Fretting Contacts, Material Science and Engineering A, 379 (2004) 234-239. Animesh Choubey, Bikramjit Basu and R. Balasubramaniam; Electrochemical Behavior of Intermetallic Ti3Al Based Alloys in Simulated Human Body Fluid Environment, Intermetallics, 12 (2004) 679-682. Animesh Choubey, B. Basu and R. Balasubramaniam; Effect of Replacement of V by Nb and Fe on the Electrochemical and Corrosion Behavior of Ti-6Al-4V in Simulated Physiological Environment, Journal of Alloys and Compounds, 381 (2004) 288-294. Ankur Raval, Animesh Choubey, Chhaya Engineer and Devesh Kothwala; Development and Assessment of 316LVM Stents for Angioplastic Surgery; Material Science and Engineering A, 386 (2004) 331-343. Animesh Choubey, Annett Dorner Reisel and Bikramjit Basu, Friction and Wear Behaviour of Bioceramic Coated Implant Materials, Key Engineering Materials, 264-268 (2004) 2115-2118. Animesh Choubey, Denes Marton, Eugene A. Sprague; Protein Adsorption and Endothelial Cell (EC) Adhesion/Proliferation on Differently Finished 316L SS Substrates; Proceedings of Biomedical Engineering Society Annual Meeting, Los Angeles, California, USA, September 26th-29th. Animesh Choubey, Denes Marton, Eugene A. Sprague; Human Aortic Endothelial Cell Response to 316LS Steel Microstructure; Proceedings of Biomedical Engineering Society Annual Meeting, Chicago, Illinois, USA, October 11th-14th, 2006, Page 66. Devesh Kothwala, Ankur Raval, Animesh Choubey, Chhaya Engineer and Haresh Kotadia; Paclitaxel Drug Delivery from Cardiovascular Stent; Proceedings of XV National Conference on Medical Devices and Biomaterials:Quality Assurance, Ethics and Regulatory Issues, Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, Kerala, India, January 21st-22nd, 2005, Page 9. Animesh Choubey, R. Balasubramaniam, Bikramjit Basu and M.N. Mungole; Electrochemical Behavior of Light Weight Titanium Alloys for Human Body Implants; Proceedings of International Conference on Light Materials Science and Technology, Indian Institute of Science Bangalore, India, April 16th-17th, 2003, Pages 35-37. Bikramjit Basu, Animesh Choubey and Annett Dorner-Reisel; Friction and Wear Behavior of Bioceramic Coated Implant Materials; Proceedings of the 8th International Conference and Exhibition of European Ceramic Society, Istanbul, Turkey, 29th June-3rd July, 2003. Primary cell culture and characterization, Protein analysis tools, Fluorescence microscopy, High Performance Liquid Chromatography (HPLC), X-ray Photoelectron Spectroscopy (XPS), Time of Flight SIMS (ToFSIMS), Atomic Force Microscopy (AFM), Scanning Electron Microscopy (SEM), Potentiostat (corrosion testing), Profilometer and wear testing machine, Electrochemical Impedance Spectroscopy (EIS), Metallography, Working with radioactive materials, Medical device testing, Familiarity with computer-controlled materials testing equipment, such as Instron, MTS, or equivalent. The surface modification of 316L stainless steel and the correlation between the surface properties and protein adsorption. Mechanism of endothelial cell adhesion and migration on 316L stainless steel. Effect of flow in endothelial healing in parallel artery and co-culture models. Determine the influence of Abbokinase on the migration rate of cultured aortic smooth muscle and endothelial cells. Novel technique for anti-restenotic and anti-inflammatory drug loading and elution from 316L stainless steel bare metal stents. Animesh Choubey, Denes Marton, Eugene A. Sprague; Human aortic endothelial cell response to 316L stainless steel microstructure of varying grain sizes. Animesh Choubey, Denes Marton, Eugene A. Sprague; Role of material microstructure in controlled drug release. Animesh Choubey, Denes Marton, Eugene A. Sprague; Surface electrostatic forces on differently finished 316L stainless steel. Animesh Choubey, Denes Marton, Eugene A. Sprague; Human aortic endothelial cell adhesion and spreading promoted by grafting REDV peptides to chemically etched 316L substrates.
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