Posted by admin on Feb 28, 2017 in |
Nanobiomaterials are very effective components for several biomedical and pharmaceutical studies. Among the metallic, organic, ceramic and polymeric nanomaterials, metallic nanomaterials have shown certain prominent biomedical applications. Enormous works have been done to synthesize, analyse and administer the metallic nanoparticles for various kinds of medical and therapeutic applications, during the last forty years. In these analyses, the prominent biomedical applications of ten metallic nanobiomaterials have been reviewed from various sources and works. It has been found that almost nine of them are used in a very wide spectrum of medical and theranostic...
Read More
Posted by admin on Feb 28, 2017 in |
The human skin serves as an impediment, a thermo regulator and prevents excessive loss of water from the internal organs. Various ways of transferring the drugs have been developed by modifying the barrier properties of the skin. Enhancement in skin penetration by hydration of the stratum corneum, or by use of chemical enhancers acting on the lipids and keratinized structures in the stratum corneum, partitioning and solubility effects is a promising tool in potential clinical applications. Penetration enhancement is a new emerging technology which has the potential to increase the number of drugs taken trans-dermally. Also the drugs with short biological half-life could be easily administered. Among many advantages over other routes the three crucial ones are avoiding metabolism in liver, minimal negative effects and increased bioavailability. Also, the stratum corneum prevents the loss of physiologically essential substances and as a result provides penetration resistance by acting as a protective barrier. This is the rate limiting step in the absorption of the drug percutaneously. In this review article, we...
Read More
Posted by admin on Feb 28, 2017 in |
The studies on tree biomass for assessing carbon density in tropical forest ecosystem of central India was undertaken during 2009-11 in forest area of eight districts [Jabalpur, Seoni, Balaghat, Narsinghpur, Mandla, Dindori, Shahdol and Umaria] at 30 adopted representative sites at varying latitudes and longitudes. The annual rainfall of their study area was 1000-1600 mm. The soils of the study sites were alluvial, light to medium black as well as red and yellow with pH value ranging from 5.5 to 80. The study was confined in three vegetation type viz., teak mixed, salmixed and mixed forest. In the study new approach was adopted by using ground data as well remote sensing data to get an accurate estimate of vegetation carbon pool in the region. Among the 30 selected site ID, Tectona grandis was dominated at 10 side. The basal area and volume of tree species in forest study sites ranged between 0.8 to 169.68 m2/ha and 0.11 to 2, 31299.82 m3/ha. The maximum tree biomass/ha recorded for Shorea roubsta...
Read More
Posted by admin on Feb 28, 2017 in |
The emergence of novel antibiotics against the upsurge of “Superbugs” is a breakthrough health intervention. Daptomycin has gained prominence as a novel antibiotic produced by Streptomyces roseosporus which has demonstrated a broad spectrum of activity in vitro against a wide range of aerobic and anaerobic gram-positive bacteria, including methicillin-resistant Staphylococcus aureus and vancomycin-resistant Enterococci. The economic viability and large scale applicability of this high-value secondary metabolite is hampered by its poor production and tedious growth of S.roseosporus. The present study aims at strategic improvement of Daptomycin yield through reusability of the producer strain by its immobilization onto various non-conventional support matrices. Sufficient void volume, permeability, and cost effectiveness prompted the use of ultra porous refractory brick and ceramic foam for the immobilization of S.roseosporus. The surface area and porosity of the materials were characterized by BET surface analysis. Morphological transformations of the microbial cells were observed microscopically over the time. The cell mass adhered to the carrier was determined using SEM. The repeated use of immobilized cells led to...
Read More
Posted by admin on Feb 28, 2017 in |
The objective of the study to formulate and evaluate of pulsatile drug delivery containing combination of domperidone and paracetamol for the treatment of migraine which is used to deliver the drug at specific time as per pathophysiological need of the disease and improvement of therapeutic efficacy and patient compliance. Domperidone and paracetamol in the core tablet was formulated with different concentration of superdisintegrants and microcrystalline cellulose, an outer shell tablet which is formulated with different weight ratios of ethyl cellulose (EC) and hydroxyl propyl methylcellulose (HPMC). The effects of the formulation of core tablet and outer shell of press coated tablets; on drug release and the lag time were investigated. The formulation was optimized based on acceptable tablet properties and in vitro drug release. The release profile of press coated tablet exhibited a lag time dependent upon the amount of HPMC K15 and EC in compression coating, followed by burst release. The optimized batch PRT3 gave a lag time of 6.1 h and drug release of 98.67% and 92.56%...
Read More
