Search Results (815)

This paper investigates the acidification of eggshells of different origins with acetic acid. The acidification process was investigated for conventional and organic eggshells generated from the production of liquid eggs in the food industry and hatched eggshells from egg incubators. The acidified eggshell materials were characterized using Fourier-transform infrared spectroscopy (FTIR), transmission electron microscopy (TEM) analysis, and thermogravimetric analysis (TGA). The results demonstrate that each type of investigated eggshell generates different nanostructures due to slight variations in their composition and this indicates potential applications: as a source of calcium supplements or to produce a snow-melting agent or CO₂ adsorbent. Full article

This article presents the microwave-assisted extraction of biosilica from common reed (Phragmites australis) biomass and the utilization of the resulting aqueous extract to enrich porous ceramic granules based on diatomaceous earth and bentonite from white wine cleaning. The enriched porous ceramic granule generated a solution of soluble silicon that was +23.4 ± 2.2 more concentrated than the porous ceramic granules not enriched with reed extract. The water reactivity of Si-O-Si groups is higher in the polysilicic acid formed via the polycondensation of silicic acid extracted from reed, compared to the Si-O-Si group from diatomaceous earth or bentonite. Full article

This work describes the preparation of a veterinary supplement based on diatomaceous earth, chemically hydrolyzed proteins, and essential oils, which are applicable for protecting monogastric animals against the mycotoxin contamination of cereal-based feeds. The veterinary supplement comprises 54.5–55% diatomaceous earth, 40.5–41% hydrolyzed proteins (whey protein concentrate and soybean protein isolate), 2.4–2.5% oregano essential oils, 0.6–0.7% NaCl, and 1.6% CaCl₂. The preparation process includes alkaline thermal hydrolysis of proteins, followed by emulsification of the essential oil with protein hydrolysate and granulation with diatomaceous earth. The veterinary supplement prepared in this work reduces the availability of aflatoxin B₁ in a simulated gastric fluid by 82.7 ± 4.43%. Full article

Microalgae cultivation is a promising approach for sustainable CO₂ fixation. This work describes the optimization of a laboratory-scale experimental model for microalgae cultivation under CO₂ supplementation. The experimental model was developed using a stirred clear glass reactor, white LED strips, connection system caps with three ports, tubes, valves, regulators, and N₂-CO₂ compressed gas cylinder. Three microalgae strains were used: Raphidocelis subcapitata ATCC22662, Desmodesmus communis NIVA-CHL 7, and Chlorella sorokiniana NIVA-CHL 176. The appropriate medium for cultivation of each of these strains was selected. The optimized experimental model demonstrated the positive influence of CO₂ supplementation on microalgae growth, particularly for Chlorella sorokiniana. Full article

A compatible microbial consortium with a high organic pollutant degradation ability, which includes a gram-positive Brevibacillus parabrevis B50 NCAIM B 001413 bacterial strain and a gram-negative Pseudoxanthomonas mexicana P32 NCAIM (P) B 001414 bacterial strain, was selected using high-throughput screening techniques. The compatible microbial consortium, encapsulated in alginate beds, was used to inoculate moving bed biofilm reactors from a small municipal wastewater treatment plant. The bioaugmentation performance of the inoculated consortium was evaluated by determining the water quality parameters before inoculation and one month after bioaugmentation treatment. The removal of organic matter was enhanced after treatment with the selected microbial consortium. Full article

As the usage of nano-sized complexes in biomedical applications has grown significantly over the past ten years, nanoparticles are now playing a significant role in the enhancement and revolution of medical applications. It may be due primarily to the novel and exceptional electrical, optical, photo-responsive, and catalytic capabilities displayed by particles with sizes ranging from 1 to 100 nm. The radiolabelled nanoparticles refer to the process of incorporating radioactive isotopes into nanoparticles. This technique enables the nanoparticles to be tracked, imaged and monitored using various imaging techniques, such as Single-Photon Emission Computed Tomography (SPECT/CT) or Positron Emission Tomography (PET). They play a crucial role in understanding the biodistribution, pharmacokinetics, and targeted delivery of nanoparticles to biological systems. In this study, selenium-based nanoparticles (Se-NPs) were explored for imaging potential as these are usable due to their size, surface, and kinetics, as well as their ability to be functionalised. The ^99mTechnicium (^99mTc) radionuclide was used to radiolabel the bio-inspired highly dispersed over grown endophytic fungus Fusarium oxysporum selenium NP using conventional radiochemistry protocol. The radiolabelling yield was found to be 94.5 ± 3% and analysed by various analytical tools. The synthesized ^99mTc-Se-NPs were assessed through In-vitro stability, and their In-vivo biodistribution was performed. The accumulation of post six-hour data was primarily seen in the liver (around 3.4% ID/g) and lungs (about 2.2% ID/g). These Se-NPs can be used as an imaging agent for lung and liver disorders because these NPs quickly pass through the kidneys are expelled via urine and show a long retention time in the body. These properties of ^99mTc-Se-NPs can be used for non-invasive imaging via SPECT. Full article

The upgrading of fatty alcohols synthesis from natural fatty acid methyl esters’ reduction using alumina-supported NaBH₄ without H₂ supply was investigated. It was possible to synthesize fatty alcohols efficiently with high yields. By using pure NaBH₄ or alumina-supported NaBH₄ and methanol as co-reactants, 100% selectivity towards fatty alcohols was achieved. The purpose of supporting the metal hydride is to increase its stability and ensure the recovery of the product at the end of the reaction. A high final fatty alcohol yield was obtained when alumina-supported NaBH₄ was used. The use of more than stoichiometric amounts of methanol and NaBH₄ is important to produce alkoxyborohydride anions that act as better reducing species than NaBH₄. The reaction conditions effect was investigated and the role of short carbon chain alcohol structure was explained. The effect of fatty acid methyl ester structure was also examined. Saturated fatty acid methyl esters (methyl laurate, methyl myristate) with short carbon chains can be easily reduced using NaBH₄/Al₂O₃ and methanol, thus obtaining high conversion and selectable fuel alcohol. Unsaturated fatty acid methyl ester (methyl oleate) with longer carbon shows steric hindrance, which is not suitable for the interaction of esters and reduces the surface area, meaning that the conversion of fatty acid methyl ester is lower. Full article

The main phenolic compounds in the Hippophae rhamnoides fruit with potential therapeutic activities are quercetin-3-O-rhamnoside, quercetin-3-O-galactoside, myricetin, rutin, luteolin, kaempferol, vitexin, gallic acid, chlorogenic acid, caffeic acid, 7-methoxycoumarin, p-coumaric acid, and ferulic acid. Their general features recommend them for nutritional and therapeutic purposes, exploiting their neuroprotective and radioprotective effects. This study aims to investigate the potency of polyphenol-derived structures against dual tyrosine-regulated kinase, modulating neuroblastomas and glioblastomas in humans. Structural insights from the point of view of drug-like property assessment are also provided by Density Functional Theory (DFT) predictions on the lowest energy conformers, using the B3LYP/6-311G (d,p) method. Full article

Sustainable polymers derived from biomass have the potential to reduce environmental impacts while offering significant performance and cost advantages over petrochemical-derived macromolecules. We present here a facile and efficient approach to the synthesis of a biomethacrylic monomer, isobornyl/bornyl methacrylate (IBOMA/BOMA), using the naturally available camphor terpene in the essential oil of the Algerian plant Artemisia arborescens (Absinthe) as a key intermediate. The essential oil of the aerial part of the Artemisia arborescens plant naturally distributed in northwest Algeria was isolated by hydrodistillation and analyzed using gas chromatography–mass spectrometry (GC/MS) techniques. Nine components were identified, representing 90.7% of the total content. The main constituent of Artemisia arborescens essential oil is camphor (71.8%). Camphor was purified and modified to produce an 80% renewable-carbon-based methacrylic monomer. This terpene-derived methacrylic monomer was free radically polymerized to create a biosourced methacrylic polymer. Nuclear magnetic resonance (NMR) was used to characterize the structure of camphor terpene, isobornyl/bornyl methacrylate, and poly (isobornyl/bornyl methacrylate) (PIBOMA)/(PBOMA). Full article

Proteogenomics is a recently developed omics application, adding enhancing the sensitivity of proteomics, and thus making possible the detection of proteome markers in very tiny amounts of samples. Even if the filed developed only in the last 10 years, the technology is very intensely applied in clinical diagnostics, and more recently, efforts are made to use it in non-clinical, in vitro and in vivo studies. The aim of this study was to investigate the applicability of single-plex and multiplex assays in the evaluation of proteome changes generated in vitro by the exposure to several standard compounds. The extracts demonstrated weak cytotoxic effects. The detection of cytokines Performing the same assays on tissue lysates permitted only the detection of low levels of cytokines. Full article

This paper presents a method for monitoring food freshness and quality through the early detection of biogenic amines, which are indicators of food spoilage/degradation. The urge to monitor food quality has led to a growing interest in the detection of toxic compounds, such as biogenic amines (BAs), as chemical indicators of food degradation by using different bioanalytical tools. The bioanalytical platform includes several parts and modules useful for food hazard evaluation. This paper presents how electrochemical and spectrometric detection works for biogenic amine monitoring in food and how the communication interface provides useful data. Full article

This study investigated the combined alkaline and enzymatic hydrolysis of eggshell membranes for obtaining ingredients for food and cosmetic applications. 1.25 N NaOH and Alcalase 2.4 L protease were used for eggshell membrane hydrolysis. The characterization of the hydrolysates consisted of the determination of the degree of hydrolysis, oligopeptides, and free amino acids obtained through eggshell membrane hydrolysis. The degree of hydrolysis was 14.23%. Analytical techniques such as reversed-phase liquid chromatography coupled with mass spectrometry, hydrophilic interaction liquid chromatography, and FT-IR spectroscopy revealed the presence of oligopeptides, dipeptides, and amino acids, including alanine, lysine/glutamine, glutamic acid, histidine, proline, valine, hydroxyproline, and phenylalanine. Electrophoretic analysis demonstrated protein fractions within the molecular weight range of approximately 14 kDa to 70 kDa in all samples. Full article

One severe public health problem globally is air pollution, as exposure to air pollutants threatens the health of people everywhere in the world. Agriculture generates waste, the improper disposal of such waste producing adverse environmental effects like air pollution, etc. In this context, our research focused on capitalizing on animal waste (wool) and agro-industrial by-products (sunflower seed husks) as additives in two types of aqueous dispersion finishing/protection products, serving as binders. The paper presents the results from the monitoring of volatile organic compounds (VOCs) emissions of four types of innovative multi-layer finishes made with such types of waste. Full article