School Of Basic And Applied Sciences
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Item Iron content titanium dioxide nanoparticles as exogenous contrast agent for tissue imaging using swept-source optical coherence tomography(American Institute of Physics Inc., 2021-01-08T00:00:00) Barkhade, Tejal; Indoliya, Abhishek; Poddar, Raju; Mahapatra, Santosh Kumar; Banerjee, IndraniEx vivo tissue imaging was performed by swept-source optical coherence tomography (SS-OCT) using titanium dioxide (TiO2) and Fe content TiO2 nanoparticles (NPs). The comparative effects of TiO2 and Fe content TiO2 NPs in terms of contrast enhancement, penetration, scattering, and accumulation in the chicken breast tissue have been monitored at different exposure times. Powder NP samples were synthesized using the sol-gel method, and characterization was carried out via transmission electron microscopy, x-ray photoelectron spectroscopy, and diffuse reflectance spectroscopy techniques. Fe incorporation in the TiO2 matrix reduces its toxic effect on tissue skin and produces a safe exogenous contrast agent, which is analyzed by SS-OCT. The scattering coefficients and contrast to noise ratio of the tissues with and without NPs were determined to study the imaging efficacy. The improvement in the coefficient was observed with an increase in the exposure time of NPs. Nano-TiO2 has shown the ability to penetrate within the tissue layer up to 780 ?m while Fe content TiO2 NPs samples showed the lowest rate of penetration up to 210 ?m after a 30 min time interval. � 2021 Author(s).Item Cellulose: A multifaceted biopolymer(Nova Science Publishers, Inc., 2016) Majeed, A.; Najar, R.A.; Ul Rehman, W.; Choudhary, S.; Thakur, S.; Singh, A.; Sharma, G.; Bhardwaj, P.Cellulose is a common natural polymer with a wide range of industrial, medical, bio fuel, agricultural, textile and paper applications. It exhibits various levels of structural organizations, from individual glucose chains through microfibrils, macrofibrils to cellulose fibers. The synthesizing machinery of cellulose consists of a six subunit plasmamembrane protein complex, cellulose synthase, organized into a rosette structure. Plant cellulose synthases possess additional plant specific motifs that are absent in bacteria. Among the different solvent systems developed for cellulose dissolution, ionic liquids stand at the forefront. Microorganism mediated energy release from cellulose facilitates its use in fuel cells as a source of energy. The nanocomposites of cellulose have revolutionized the medical field and are being chiefly used in tissue engineering, ligament engineering and wound healing. The chemical structure of cellulose make it suitable to form hydrogels which are used in tissue engineering, cartilage modelling, bone implantation, cell culture scaffolds, enhanced drug delivery, heavy metal absorbance, and in retaining soil water and efficient fertilizer release for agricultural efficiency. Besides, cellulose based ethanol production help to reduce the pressure on conventional sources of energy. This chapter focuses on cellulose structure, its synthesizing machinery, trafficking, genes and proteins involved, solubility and solvent systems, its derivatives, composites, hydrogels, fuel cells, ethanol production and degradation. ? 2016 Nova Science Publishers, Inc.Item Carrageenan based hydrogels and composites: A systematic investigation reporting their multidimentional essence(Nova Science Publishers, Inc., 2016) Ul Rehman, W.; Majeed, A.; Rani, P.; Saini, K.C.; Najar, R.A.; Mehra, R.; Singh, A.; Bast, FelixCarrageenans are red seaweed extracted sulfated linear polysaccharides which possess excellent gel forming properties. They are extensively used for their thickening, gel forming as well as stabilizing properties in food industries. Due to their good protein binding abilities, they are preferred in meat and dairy preservation. Structurally, they are polymers of alternately repeating disaccharide unit, ?-(133)-D-galactose and ?-(134)-3,6- anhydro-D- or L-galactose. Sulphation of the galactose gives them the distinguishing properties. Three isomeric forms of carrageenan with slightly different properties exist in nature. Their hydrogels are used in tissue engineering and controlled drug delivery while their composites find applications in wound dressings, protection of fish and meat from dehydration. In the field of medicine, carrageenans possess anticoagulant, antithrombotic, antiviral, and antitumor activities. Besides they also possess many industrial applications. ? 2016 Nova Science Publishers, Inc.Item Gelatin: A comprehensive report covering its indispensable aspects(Nova Science Publishers, Inc., 2016) Ul Rehman, W.; Majeed, A.; Mehra, R.; Bhushan, S.; Rani, P.; Saini, K.C.; Bast, FelixGelatin is a collagen derived product, obtained by incomplete hydrolysis of collagen procured from skin, bones and connective tissues of animals and exhibits flavourlessness, colourlessness and translucency. It is commonly utilised as a gelling agent and also as additive in food, drugs, cosmetics, paints, matches, photographic films and foam stabilizer. The overall amino acid composition and proportion of gelatin varies according to the source of raw material, however glycine, proline and hyrdoxyproline constitute almost 60% of the total amino acid residues while cysteine is absent. Besides being used in food industries, gelatin based composites and blends are used in pharmacy for manufacturing biocompatible gelatin scraps, tissue engineering films and controlled drug delivery systems. This chapter focuses on the physio-chemical properties of gelatin, its extraction, composites and blends. ? 2016 Nova Science Publishers, Inc.