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Shinde, P.L.,Dass, R.S.,Garg, A.K.,Chaturvedi, V.K. Asian Australasian Association of Animal Productio 2007 Animal Bioscience Vol.20 No.10
An experiment was conducted using 20 male buffalo calves to study the effect of vitamin E and selenium supplementation on their immune response and plasma ${\alpha}$-tocopherol and selenium status. These buffalo calves (10-12 months old, average body weight $75.30{\pm}2.20 $ kg) were randomly allotted to four treatments on the basis of their body weights and were fed on wheat straw and concentrate mixture to meet their nutrient requirements of 500 g/d body weight gain. The buffalo calves were fed either a control diet (neither supplemented with Se nor VE) or diets supplemented with Se at 0.3 ppm (+Se), DL-alpha tocopheryl acetate at 300 IU (+VE), and both DL-alpha tocopheryl acetate at 300 IU and Se at 0.3 ppm (+Se+VE). These experimental diets were fed for 180 days. Blood samples were collected at day 0 and subsequently at 45 day intervals up to 180 days of experimental feeding to monitor plasma ${\alpha}$-tocopherol and Se concentrations. To assess humoral immune response, all calves were sensitized with formalin inactivated Pasteurella multocida antigen at 135 days of experimental feeding and blood was collected on 0, 7, 14, 21 and 28 days post vaccination (DPV) to measure antibody production using indirect ELISA. Cell mediated immune response of calves was assessed after 180 days of experimental feeding by in vivo delayed type hypersensitivity (DTH) reaction using phytohaemaglutinin-P (PHA-P) as a mitogen. Results revealed that feeding of VE and Se improved the plasma levels of these nutrients. Plasma levels of Se were affected by supplementation of both VE (p<0.001) and Se (p<0.001); however, no interaction ($Se{\times}VE$) was observed. Supplementation of Se improved the humoral immune response (p<0.008), whereas, VE showed a tendency towards improvement in cell mediated immune response (p<0.064). It was concluded that vitamin E and Se supplementation improved the status of these micronutrients and humoral immune response in buffalo calves.
Phototoxic effects of pyropheophorbide-a from chlorophyll-a on cervical cancer cells
Chaturvedi, P.K.,Kim, Y.-W.,Kim, S.S.,Ahn, W.S. John Wiley Sons 2014 Journal of porphyrins and phthalocyanines Vol.18 No.3
Photodynamic therapy (PDT) is a promising modality in both the curative and palliative treatment against a variety of experimental and naturally occurring human cancers. At present, chlorophyll a derivatives are extensively used for the synthesis of photosensitizers (PSs) for PDT of tumors. In the present study, chlorophyll-a was extracted from the blue- green algae Spirulina platensis by refluxing with acetone. The extract was further acid treated to obtain methylpheophorbide-a (MPa), which was then refluxed in collidine and methylpyropheophorbide-a (Mppa) was obtained. After that, Mppa was converted to pyropheophorbide-a (Ppa) by treatment with 50% sulfuric acid. Finally, phototoxicity and dark toxicity of purified Ppa in two different cell lines, TC-1 and CaSki, were examined by MTT assay. The results suggest that Ppa is more toxic to TC-1 cell line than CaSki cell line. In vivo, the photosensitizing efficiency of Ppa was also higher than those of unloaded PS. These results indicate the potential of Ppa in PDT.
High yield strength bulk Ti based bimodal ultrafine eutectic composites with enhanced plasticity
Misra, D. K.,Rakshit, R. K.,Singh, M.,Shukla, P. K.,Chaturvedi, K. M.,Sivaiah, B.,Gahtori, B.,Dhar, A.,Sohn, S. W.,Kim, W. T.,Kim, D. H. BUTTERWORTH - HEINEMANN 2014 MATERIALS AND DESIGN Vol.58 No.-
Ti-based bulk metallic glass (BMGs) and their bimodal composites are linked with the pronounced strain hardening after yielding but with much low value of strength. Therefore, developing Ti-based alloys with high yield strength and high plasticity is the current challenge. Here, we report the synthesis of ultra-fine grained bulk (UFG) (Ti0.705Fe0.295) 100 Ga-x(x) (0 <= x <= 2) bimodal eutectic composites with not only high strength and larger plasticity but also with high yield strength which is one of the important mechanical property for structural application. Reasonably high strength, high yield strength, strain to failure ratio, and enhanced plasticity of similar to 7 +/- 0.8% was observed in (Ti70.5Fe29.5)(98)Ga-2 composite which is superior than Ti-based BMGs and bimodal composites. Modification of degree of eutectic structure refinement and volume fraction of constituent phases with the addition of Ga are the crucial factors in enhancing the mechanical properties of Ti-Fi-(Ga) composites. (C) 2014 Elsevier Ltd. All rights reserved.
Hejazi, M.,Edmonds, J.,Clarke, L.,Kyle, P.,Davies, E.,Chaturvedi, V.,Wise, M.,Patel, P.,Eom, J.,Calvin, K.,Moss, R.,Kim, S. American Elsevier 2014 TECHNOLOGICAL FORECASTING AND SOCIAL CHANGE Vol.81 No.-
In this paper, we assess future water demands for the agricultural (irrigation and livestock), energy (electricity generation, primary energy production and processing), industrial (manufacturing and mining), and municipal sectors, by incorporating water demands into a technologically-detailed global integrated assessment model of energy, agriculture, and climate change - the Global Change Assessment Model (GCAM). Base-year water demands - both gross withdrawals and net consumptive use - are assigned to specific modeled activities in a way that maximizes consistency between bottom-up estimates of water demand intensities of specific technologies and practices, and top-down regional and sectoral estimates of water use. The energy, industrial, and municipal sectors are represented in fourteen geopolitical regions, with the agricultural sector further disaggregated into as many as eighteen agro-ecological zones (AEZs) within each region. We assess future water demands representing six socioeconomic scenarios, with no constraints imposed by future water supplies. The scenarios observe increases in global water withdrawals from 3710km<SUP>3</SUP>year<SUP>-1</SUP> in 2005 to 6195-8690km<SUP>3</SUP>year<SUP>-1</SUP> in 2050, and to 4869-12,693km<SUP>3</SUP>year<SUP>-1</SUP> in 2095. Comparing the projected total regional water withdrawals to the historical supply of renewable freshwater, the Middle East exhibits the highest levels of water scarcity throughout the century, followed by India; water scarcity increases over time in both of these regions. In contrast, water scarcity improves in some regions with large base-year electric sector withdrawals, such as the USA and Canada, due to capital stock turnover and the almost complete phase-out of once-through flow cooling systems. The scenarios indicate that: 1) water is likely a limiting factor in meeting future water demands, 2) many regions can be expected to increase reliance on non-renewable groundwater, water reuse, and desalinated water, but they also highlight an important role for development and deployment of water conservation technologies and practices.