Physico-chemical, proximate, sensory and storage quality attributes analysis of Papaver somniferum (poppy) fortified chevon nuggets

Papaver somniferum(Poppy) seeds contain poly-phenols like tannic acid, ellagitannin that act as antioxidant, fat replacer, sedative, analgesic and anti-tussive properties, disease preventing and health promoting proper-ties. Efficacy of ground P. somniferum poppy seed was used in chevon nuggets was analyzed. The use of ground poppy seed in chevon nuggets formulation had no effect on moisture as well as pH content of poppy seed incorporated chevon nuggets. However, ground poppy seed incorporation in chevon nuggets had significantly (p<0.05) lower fat content, higher protein content, higher emulsion stability and subsequently higher cooking yield. Chevon nuggets having 10% ground poppy seed were having significantly (p<0.05) higher sensory scores. The ground poppy seed treated chevon nuggets were having significantly (p<0.05) lower TBA and FFA value. The microbial load of developed product was significantly (p<0.05) lower during refrigeration storage. The chevon nuggets prepared with fortification of ground poppy seed was found to be suitable for consumption till 21st day during refrigeration storage based on TBA, FFA, microbiological and sensory profile. Thus, chevon nuggets with good to very good acceptability were developed with incorporation of ground poppy (P. somniferum) seed in it. The chevon nuggets developed consisted of higher amount of antioxidants and polyunsaturated fatty acid with better sensory scores and longer shelf-life

Cardiac drugs and outcome in COVID-19

We read with much interest the article “Are certain drugs associated with enhanced mortality in COVID -19” by Goldstein et al your esteemed Journal. Authors have discussed the theoretical basis of angiotensin receptor blockers, statins in worsening outcome of COVID – 19 patients.(1) We believe that this topic is rapidly evolving and requires further evidence and discussion for understanding the multiple factors which contribute to the pathogenesis and outcome. We have the following comments

Volume Integral Theorem for Exotic Matter

We answer an important question in general relativity about the volume integral theorem for exotic matter by suggesting an exact integral quantifier for matter violating Averaged Null Energy Condition (ANEC). It is checked against some well known static, spherically symmetric traversable wormhole solutions of general relativity with a sign reversed kinetic term minimally coupled scalar field. The improved quantifier is consistent with the principle that traversable wormholes can be supported by arbitrarily small quantities of exotic matter.Comment: 7 page

Electro-Grid Security System Automation

Providing Security is primary concern in a living area. Electro-grid Security System Automation is an idea about providing security to the electric grid system. When the transmission line is affected immediately the flow of current will be terminated by the security module in an automated way.The process consists of an alert module along with the power cut module. The security system will check the flow of current for every interval of time as well as in abnormal situations. If any natural calamities affect the transmission line, the responsible person gets the alert and the flow of current termination occurs instantly

Mechanisms of neurological injury in COVID-19

We read with much interest the article “Neurological Impact of Coronavirus Disease (COVID 19): Practical Considerations for the Neuroscience Community” by Werner et al. published in your esteemed Journal. Authors have described the various neurological details of COVID-19 in detail.1 We believe this topic is important and is continuously evolving. We have the following comments as an addition to the article

Bright blue emissions on UV-excitation of LaBO3 (B=In, Ga, Al) perovskite structured phosphors for commercial solid-state lighting applications

Bright blue photoluminescence (PL) was obtained from Bi3+-activated LaBO3 (B = In, Ga, Al) perovskite nanophosphors. A cost-effective and low-temperature chemical route was employed for preparing Bi3+ doped LaBO3 (B=In, Ga, Al) which were then annealed at 1000 °C. The phase formation, morphological studies and luminescent properties of the as-prepared samples were performed by X-ray diffraction (XRD), scanning electron microscopy (SEM), photoluminescence and optical absorption spectroscopy. Comparison of emission intensities, lifetime studies, energy band gaps and color purity of all samples (pure and Bi3+ doped) were investigated for promising applications in UV light-emitting diodes, variable frequency drive (VFD), field emission display (FED), and other photoelectric fields

Cerebrovascular events in COVID-19 patients

Neurological manifestations in patients with COVID-19 are more frequently being reported. Cerebrovascular events have been reported in around 3% of patients. In this review we summarize the published literature on cerebrovascular events in patients with COVID-19 as available on the PubMed database. So far, 3 studies have reported cerebrovascular events. Cerebrovascular events were identified on screening patients with decreased consciousness or in the presence of focal neurological deficits. These events were common in elderly, critically ill patients and in patients with prior cardio-cerebrovascular comorbidities. The diagnosis of cerebrovascular events was confirmed with computed tomography of the brain in most studies reporting neurological events. Multiple pathological mechanisms have been postulated regarding the process of neurological and vascular injury among which cytokine storm is shown to correlate with mortality. Patients with severe illness are found to have a higher cardio- cerebrovascular comorbidity. With an increasing number of cases and future prospective studies, the exact mechanism by which these cerebrovascular events occur and attribute to the poor outcome will be better understood

Theory of a Higher Order Phase Transition: Superconducting Transition in BKBO

We describe here the properties expected of a higher (with emphasis on the order fourth) order phase transition. The order is identified in the sense first noted by Ehrenfest, namely in terms of the temperature dependence of the ordered state free energy near the phase boundary. We have derived an equation for the phase boundary in terms of the discontinuities in thermodynamic observables, developed a Ginzburg-Landau free energy and studied the thermodynamic and magnetic properties. We also discuss the current status of experiments on $Ba_{0.6}K_{0.4}BiO_3$ and other $BiO_3$ based superconductors, the expectations for parameters and examine alternative explanations of the experimental results.Comment: 18 pages, no figure

Synthesis of Silver Nanoparticles using Facile Wet Chemical Route

Stable aqueous monodispersed silver nanoparticles were synthesised by reducing silver nitrate using various sugars such as glucose, fructose, lactose, and sucrose at 55-60 oC. A mixture of two stabilising agents, polyvinyl pyrrolidone (PVP) of molecular weight (MW 40, 000) and gelatin plays a decisive part in controlling size and shape of superfine silver nanoparticles. Using PVP, better control of particle size was obtained, whereas a mixture of PVP, and gelatin resulted in sea urchin kind of structure. Effects of several processing parameters such as pH, quantities of alkaline solution, reaction time, concentration of stabilising agent, and the metal/dispersant ratio were investigated. The suspensions were stable for at least one week. Silver nanoparticles can be easily collected by centrifugation on mixing with sufficient amount of acetone. Structural characterisation of synthesised silver nanoparticles was carried out by X-ray diffraction (XRD), which shows that the as-synthesised silver nanoparticles are face-centered cubic crystalline. Chemical characterisations of as-synthesized silver nanoparticles were done using inductively-coupled plasma-optical emission spectrometry (ICP-OES) and LECO gas analysers. The optical properties of silver nanoparticles were monitored using UV-Vis spectrophotometer. Role of stabilising agent in protecting the silver nanoparticles was studied using fourier transform infrared spectroscopy (FTIR). Particle size and distribution were characterised using smallangle X-ray scattering (SAXS), zeta particle size analyser (PSA), scanning electron microscopy, and transmission electron microscopy. The average particle size of the as-synthesised silver nanoparticles was 35 nm.Defence Science Journal, 2009, 59(4), pp.447-455, DOI:http://dx.doi.org/10.14429/dsj.59.154