A Constitutive Modeling and Experimental Effect of Shock Wave on the Microstructural Sub-strengthening of Granular Copper

Micro-sized copper powder (99.95%; O≤0.3) has been shock-processed with explosives of high detonation velocities of the order of 7.5km/s to observe the structural and microstructural sub-strengthening. Axisymmetric shock-consolidation technique has been used to obtain conglomerates of granular Cu. The technique involves the cylindrical compaction system wherein the explosive-charge is in direct proximity with the powder whereas the other uses indirect shock pressure with die-plunger geometry. Numeric simulations have been performed on with Eulerian code dynamics. The simulated results show a good agreement with the experimental observation of detonation parameters like detonation velocity, pressure, particle velocity and shock pressure in the reactive media. A pin contactor method has been utilized to calculate the detonation pressure experimentally. Wide angled x-ray diffraction studies reveal that the crystalline structure (FCC) of the shocked specimen matches with the un-shocked specimen. Field emissive scanning electron microscopic examination of the compacted specimens show a good sub-structural strengthening and complement the theoretical considerations. Laser diffraction based particle size analyzer also points towards the reduced particle size of the shock-processed specimen under high detonation velocities. Micro-hardness tests conducted under variable loads of 0.1kg, 0.05kg and 0.025kg force with diamond indenter optical micrographs indicate a high order of micro-hardness of the order of 159Hv. Nitrogen pycnometry used for the density measurement of the compacts shows that a compacted density of the order of 99.3% theoretical mean density has been achieved

Low Cost Strategy for Micropropagation of Lilium Asiatic Hybrid Cv. Toscana

A low cost protocol for in vitro propagation of Lilium cv. Toscana has been developed through incorporation of cost-effective media components. MS medium supplemented with 0.75 mg-1 BAP (6-benzylaminopurine) and 0.5 mg-1 NAA (α-naphthalene-acetic acid) was prepared with tapioca granules, table sugar and tap water in different combinations in place of agar-agar, sucrose and distilled water, respectively. Culture medium containing all the cost effective components was found to be the best for in vitro establishment of cultures yielding 6.00 bulblets per explant and medium supplemented with tapioca granules as cost effective component was found to be the best for in vitro multiplication of bulblets giving 3.70 bulblets per in vitro formed bulblet five weeks from third subculture. Tapioca supplemented MS medium containing 1 mg-1 NAA was significantly better than all the other modified media giving 86.62% in vitro rooting, 2.86 average root number and 4.60 cm average root length. For hardening of in vitro rooted bulblets, coco peat, peat moss and coco peat in combination with peat moss were found to be at par giving 100% survival

Microwave-Assisted Rapid Synthesis of Reduced Graphene Oxide-Based Gum Tragacanth Hydrogel Nanocomposite for Heavy Metal Ions Adsorption

This work aims to address the effectiveness and challenges of non-destructive testing (NDT) by active infrared thermography (IRT) for the inspection of aerospace-grade composite samples and seeks to compare uncooled and cooled thermal cameras using the signal-to-noise ratio (SNR) as a performance parameter. It focuses on locating impact damages and optimising the results using several signal processing techniques. The work successfully compares both types of cameras using seven different SNR definitions, to understand if a lower-resolution uncooled IR camera can achieve an acceptable NDT standard. Due to most uncooled cameras being small, lightweight, and cheap, they are more accessible to use on an unmanned aerial vehicle (UAV). The concept of using a UAV for NDT on a composite wing is explored, and the UAV is also tracked using a localisation system to observe the exact movement in millimetres and how it affects the thermal data. It was observed that an NDT UAV can access difficult areas and, therefore, can be suggested for significant reduction of time and cost

Consumptive hypothyroidism: an unusual paraneoplastic manifestation of a gastric gastrointestinal stromal tumor

A 42-year-old hypothyroid shepherd presented with a progressive abdominal lump accompanied by nausea and abdominal fullness. In addition, he had worsening hypothyroidism, despite supranormal doses of thyroxine. Computed tomography of the abdomen was suggestive of a mass lesion in relation to the stomach. A resection of the mass was done and the histopathology was suggestive of gastrointestinal stromal tumor. After surgery, the patient became euthyroid. We believe the patient had consumptive hypothyroidism due to the tumor

Bioactivity and In Silico Studies of Isoquinoline and Related Alkaloids as Promising Antiviral Agents: An Insight

Viruses are widely recognized as the primary cause of infectious diseases around the world. The ongoing global pandemic due to the emergence of SARS-CoV-2 further added fuel to the fire. The development of therapeutics becomes very difficult as viruses can mutate their genome to become more complex and resistant. Medicinal plants and phytocompounds could be alternative options. Isoquinoline and their related alkaloids are naturally occurring compounds that interfere with multiple pathways including nuclear factor-κB, mitogen-activated protein kinase/extracellular-signal-regulated kinase, and inhibition of Ca²⁺-mediated fusion. These pathways play a crucial role in viral replication. Thus, the major goal of this study is to comprehend the function of various isoquinoline and related alkaloids in viral infections by examining their potential mechanisms of action, structure-activity relationships (SAR), in silico (particularly for SARS-CoV-2), in vitro and in vivo studies. The current advancements in isoquinoline and related alkaloids as discussed in the present review could facilitate an in-depth understanding of their role in the drug discovery process

Taboos: Traditional beliefs and customs for resource management in the western Himalaya

575-581People residing in interior areas of the Himalaya are highly dependent on natural resources and thus have evolved their own beliefs and customs, the taboos, for conserving resources. Taboos form an important component of tribal lifestyle and guide sustainable utilization and management of natural resources. The present study was carried out in the higher reaches of Himachal Pradesh that are known for their rich bio-cultural diversity. The study aimed at documenting and classifying taboos prevalent in the area. For this, field surveys were carried out and interactions were held with the local people (n=210) using semi-structured interviews and focus group discussions. The results revealed a prevalence of 22 taboos that were mainly related to forest, water, farmland, and food resources. Of the total taboos, the maximum belonged to the segment and method category taboos (32% each) while the minimum (5%) were species-specific taboos. Adherence to taboos is high and breaking them is believed to bring the wrath of God. They, thus, are important for resource management. Studies targeting the history of taboos and their policy implications are much desired

Biliary sludge and recurrent ketoacidosis: a case report

A five year old boy, weighing 14 kg with no family history of diabetes, presented in frank diabetic ketoacidosis. He recovered, but continued to have episodes of ketoacidosis. He was diagnosed to have biliary sludge, which recovered with insulin treatment

Degradation kinetics of metronidazole and its mutual prodrug with ciprofloxacin: a calorimetric analysis

Calorimetric technique has aroused considerable interest as a versatile tool in pharmaceutical industry and academia to provide useful information about thermodynamic and kinetic aspects of drug molecules. The present paper utilizes this technique to monitor the hydrolytic degradation of metronidazole and its prodrug with ciprofloxacin, i.e. 2-(2-methyl-5-nitroimidazol-1-yl)ethyl-1-cyclopropyl-6-fluoro-1,4-dihydro-4-oxo-7-(1-piperazinyl)-quinoline-3-carboxylate. The synthesis of the present mutual prodrug was envisaged to combine the antiprotozoal and anaerobic antibacterial effects of metronidazole with antibacterial effects of ciprofloxacin. Heat flux microcalorimeter was used to determine the rate of heat evolved during the degradation of the drug and prodrug as a function of concentration, pH and temperature. In terms of enthalpy of hydrolysis the response is exothermic both for drug and prodrug. However, the absolute value of the enthalpy of reaction (ΔrH0) is low for the prodrug. The degradation followed pseudo first order kinetics, showed marked stability at pH 3-7 followed by accelerated hydrolysis at higher pH, characteristic of general acid-base catalysis. The catalytic rate constant for hydrogen ion (kH) and hydroxyl ion (kOH) were found to be 0.413 and 526.1 M-1h-1, respectively, at 318.15 K. The hydrolysis of the prodrug was found to be approximately 50-60 times faster than that of the drug. This may be attributed to the fact that hydrolysis of ester group in prodrug is assisted by keto group on the ciprofloxacin. However, there is no effect of protonation of nitrogen in piperazine ring in ciprofloxacin on the hydrolysis due to the distance from the ester moiety. Keywords: Calorimetry, stability studies, degradation kinetics, ciprofloxacin, metronidazole. International Journal of Biological and Chemical Sciences Vol. 1 (3) 2007: pp.197-21