My research field or area of interest innanotechnology
My research (PhD programme) group is currently investigating on biodegradable nanoparticles recruited for targeted delivery of antimalarials, anticancerous pharmaceutical agents and Nutraceuticals, and their toxicity related aspects. Another research (MPhil programme) group was involved in nanotoxicology area entitled “Potential impact of some Nanoferrofluids exposure in mice liver cells, somatic and germ cells”. Currently we are engaged in synthesizing novel biodegradable nanoparticles using synthetic and natural ingredients for their toxicological assays. We are also actively investigating the pathways of cellular uptake of nanoparticles, and their intracellular trafficking and sorting mechanisms in different cellular compartments.
Research experience that I have gained from doctoral work from Central Food Technological Research Institute, Mysore and work from Institute of Food Research, Norwich UK and Kansas State University, USA allowed me to work on protective role of nutraceuticals in infectious disease and malaria research. This helped me undertake another project entitled “Developing Technical R &D Processes to Scale-up Flaxseed Value-Added Products Using Nanotechnology for Economic Empowerment of Semi-Urban and Rural Population”. This emphasizes on optimizing methodologies for flaxseed fractionation and newest technologies such as Nanotechnology in designing Nanolaminates for endosperm (new concept), Nanofilters for Lignans syrup (new concept), and Nanocapsules for Lignans and Nanoemulsion for Omega-3s enriched nutrient delivery systems (new concept).
The project would involve rural population, scientists from both Nanotechnology and Food processing expertise. In our Karnataka State, a basic education in application of technologies and processing of value-added food products with future scope of application in health food, nutrients and certainly impact on alleviation of poverty among the target population such as Women, Scheduled Caste /Scheduled Tribe (SC/ST), semi-Urban and the Rural Community by creating employment opportunities and addressing the economic empowerment. I am optimistic that this Technology and Employment Based Research Project Proposal prepared with a view of the present national priorities and future needs of our country would certainly be considered for funding.
Currently, we are working on the project funded by DBT, involves Nanotechnology in Agriculture, an emerging area of research entitled “Studies on Alternative Systems to Deliver Antianaplasmosis Agents in Therapy”. The problem addresses the population falls below the poverty line and again a substantial number of them fall in the poorest category. The sufferings of target groups such as Scheduled Caste and Scheduled Tribe (SC/ST) small and marginal farmers of many villages in the country will have sleepless nights as virulent diseases such as Anaplasmosis affecting their cattle and claimed lives of many during the episode. The project would involve scientists from both nanotechnology and Agrobiotechnology expertise. This unique concept proposal addresses the diseased domestic animals and sufferings of rural farmers that adversely affect the agricultural farming. In our University, an education within this field is going to be in great demand to help with employment opportunities in the agriculture, business sector and at scientific institutions.
LIST OF PUBLISHED PAPERS
1. N.R. Ravikumar, Nagaraj, R. Gargi, H. Shobarani, B. Madhusudhan. Preparation and Evaluation of
Nimesulide-loaded Ethylcellulose and Methylcellulose Nanoparticles and Microparticles for Oral
Delivery. Journal of Biomaterials Applications 24: 47-64, 2009.
2. P.Niranjana, K.P. Gopalakrishna Rao, D.V. Sudhakar Rao and B. Madhusudhan. Effect of controlled atmosphere storage (CAS) on Antioxidant Enzymes and DPPH- Radical scavenging activity of mango (Mangifera indica L.) cv. Alphonso. African Journal of Food, Agriculture, Nutrition and Development 9 (2): 779-792, 2009.
3. Aditya, N.P, Swati Patankar, Basavaraj Madhusudhan. Assessment of Combined Antimalarial Activity of , Arteether and Primaquine Against Plasmodium berghei, In vivo. Pharmocologyonline 1: 588 -596, 2009.
4. J. Rajesh and B. Madhusudhan. An Approach to Determine the Content of SDG in Flaxseed
Chutney Powder by RP-HPLC Method. The Bioscan 4(1):89-92, 2009.
5. B. Madhusudhan. Potential benefits of flaxseed in health and disease -A perspective. Agriculturae
Conspectus Scientificus. Accepted, In Press (appearing in Sept 2009 issue).
6. P. Niranjana, K.P. Gopalakrishna Rao, D.V. Sudhakar Rao and B. Madhusudhan. Effect of pre-
cooling and heat treatment on antioxidant enzymes profile of mango and banana. African Journal of
Food, Agriculture, Nutrition and Development. Accepted, In Press.
7. J.Rajesha, MA Harisha Nayaka, Basavaraj Madhusudhan, MD Shylaja, GA Ravishankar, M
Karuna Kumar Antioxidant potential of secoisolariciresinol diglycoside isolated from different
fractions of flaxseeds. Seed Science and Biotechnology 2(2), 2008, 83-88.
8. Keshamma Entoori, Rohini Sreevathsa, Manoj Kumar Arthik, Polumetla Ananda Kumar, Amrita Raja
Vinoda Kumar, Basavaraj Madhusudhan, Udayakumar Makarla¬. A chimeric cry1X gene imparts
resistance to Spodoptera litura (Fabricus) and Helicoverpa armigera (Hubner) in transgenic
groundnut. EurAsian Journal of BioSciences, 2(7), 2008, 53-65.
9. E. Keshamma, Rohini Sreevasthsa, B. Madhusudhan, and T. G. Prasad Transformability in Field
Bean (uidA::nptII) by Agrobacterium tumefaciens-mediated In Planta Strategy. Journal of Plant
Biology 35(1), 2008, 31-37.
10. E. Keshamma, S. Rohini, K. S. Rao, B. Madhusudhan, and M. Udaya Kumar Tissue Culture-
independent In Planta Transformation Strategy: an Agrobacterium tumefaciens-Mediated Gene
Transfer Method to Overcome Recalcitrance in Cotton (Gossypium hirsutum L.). The Journal of
Cotton Science 12(3), 2008, 264-272.
11. K.A. Faseehuddin Shakir and B. Madhusudhan. Effects of flaxseed (Linum usitatissimum) chutney
powder on gamma-glutamyl transpepsidase and micronuclei profile in azoxymethane treated rats.
Indian Journal of Clinical Biochemistry 22 (2), 2007, 129 -131).
12. K.A. Faseehuddin Shakir and B. Madhusudhan. Hypocholesterolemic and hepatoprotective effects of flaxseed chutney: evidence from animal studies. Indian Journal of Clinical Biochemistry 22 (1), 2007, 117-121. http://www.fnbnews.com
13. J. Rajesha, Murthy KN, Ravishankar GA, Kumar MK and B. Madhusudhan. Antibacterial potentials of flaxseed by in vivo model. Journal of Agriculture Food Chemistry 54 (11), 2006, 3794 –99.
14. P. D. Sarkar, T.M. Shivaprakash and B. Madhusudhan. Association between paraoxonase activity and lipid levels in patients with premature coronary artery disease. Clin Chim Acta. 373 (1 –2), 2006, 77 –81.
Researchgroup, Institute, University, School, Company name
Researchgroup, Institute, Company, University, School webpage
Welcome! Nanopaprika was cooked up by Hungarian chemistry PhD student in 2007. The main idea was to create something more personal than the other nano networks already on the Internet. Community is open to everyone from post-doctorial researchers and professors to students everywhere.
There is only one important assumption: you have to be interested in nano!
The invertion of 10G optical transceiver has greatly increase the networking speed, for the science behind the transceiver, please check website and learn about CWDM SFP transceiver, www.fiberoptictransceiver.net
The XFP (10 Gigabit Small Form Factor Pluggable) is a standard for transceivers for high-speed computer network and telecommunication links that use optical fiber.please visit www.xfptransceiver.com for more info