Search Results (82)

The accumulation of municipal sewage sludge is a worldwide problem, although when properly treated, it can be utilized for various purposes in industry and agriculture. Due to its high nutrient content, one of its possible uses is the application as fertilizer on agricultural or degraded lands with the purpose of non-food plant production. In the present study, the sustainability of dehydrated sewage sludge application was tested in Szarvasi-1 energy grass (Thinopyrum obtusiflorum cv. Szarvasi-1) plantations, with special focus on the turnover of nutrients and trace elements in two experiments conducted outdoors between 2016 and 2019. Experiment 1 was conducted in 1 m³ containers, and the treatment was started on two-year old plants in 0, 15, 22.5, and 30 Mg ha⁻¹ doses per year applied in two or three portions to reveal the upper limit of sludge application. Experiment 2 was conducted in 100 m² field quadrates with 0, 7.5, 15, and 22.5 Mg ha⁻¹ doses per year applied once a year, which is in the range of the currently permitted application dose in Hungary. Soil, sludge, and plant samples, as well as physiological data, were collected. Aboveground biomass yield was measured 2–3 times per year. Increasing doses of sewage sludge significantly increased the yield compared to the controls, but the increment between the second and third doses was small. Chlorophyll content (SPAD values) increased tendentiously and partly significantly. The maximal quantum efficiency of PSII and the stomatal conductance was not improved compared to the control, whereas the relative water content of the plants was increased in Experiment 1 but not in Experiment 2 compared to the control. Malondialdehyde concentration was increased by the largest dose in Experiment 1. The concentration of macroelements, Ca, Mg, N, and S, increased in the aboveground biomass with increasing doses of sewage sludge, but even after three years, the cumulative amount removed with the harvested biomass was much smaller than the amount remaining in the soil. The total amount of K in the harvested biomass exceeded that introduced to the soil by the treatments. Micro- and trace-element concentrations did not show increasing tendency in the biomass, suggesting a slower uptake and removal rate than macroelements. The results point to the necessity to assess the real nutrient requirement and trace-element uptake by the plants as compared to the sewage sludge treatment to avoid their uncontrolled accumulation in the soil and ensure a sustainable fertilization of the plantations. Full article

Simulating damage phenomena in masonry structures remains a significant challenge because of the intricate and heterogeneous nature of this material. An accurate evaluation of fracture behavior is essential for assessing the bearing capacity of these structures, thereby mitigating dramatic failures. This paper proposes an innovative adaptive concurrent multiscale model for evaluating the bearing capacity of in-plane masonry structures under in-plane loadings. Developed within a Finite Element (FE) set, the proposed model employs a domain decomposition scheme to solve a combination of fine- and coarse-scale sub-models concurrently. In regions requiring less detail, the masonry is represented by homogeneous linear elastic macro-elements. The material properties for these macro-elements are derived through a first-order computational homogenization strategy. Conversely, in areas with higher resolution needs, the masonry is modeled by accurately depicting individual brick units and mortar joints. To capture strain localization effectively in these finer regions, a Phase Field Cohesive Zone Model (PF-CZM) formulation is employed as the fracture model. The adaptive nature derives from the fact that at the beginning of the analysis, the model is entirely composed of coarse regions. As nonlinear phenomena develop, these regions are progressively deactivated and replaced by finer regions. An activation criterion identifies damage-prone regions of the domain, thereby triggering the transition from macro to micro scales. The proposed model’s validity was assessed through multiscale numerical simulations applied to a targeted case study, with the results compared to those from a direct numerical simulation. The results confirm the effectiveness and accuracy of this innovative approach for analyzing masonry failure. Full article

The increasing demand for sustainable agricultural practices has led to the exploration of natural biostimulants. This study investigates the effects of tannin extracts obtained via hydrodynamic cavitation and Chlorella vulgaris microalgae on the growth and physiological performance of strawberry (Fragaria x ananassa Duch) plants. A preliminary phytotoxicity test using Lepidium sativum L. confirmed the safety of the tannin water extract. Subsequently, two main experiments were conducted: the first identified the optimal tannin concentration, while the second assessed the individual and combined effects of tannins and C. vulgaris on strawberry plants. The results show that tannin water extract at double concentration of the commercial tannin (54% T.E.) significantly increased leaf dry biomass by 75% and doubled the number of main roots compared to the control. In the second experiment, C. vulgaris at 50% concentration (C1) enhanced fresh leaf biomass by 14% and fresh roots by 20%, while tannin extract (T) showed a declining effect on plant biomass as compared to the control. Positive effects were also observed for root growth in the combined treatment T+C1, with 32% fresh root biomass more than in the control. Regarding fruit, C1 maintained high fruit yield from the beginning of the experiment until September, while T+C1 showed a marked rising trend, reaching a comparable number of fruits to C1, about twofold more than the control. A chemical analysis of the main micro- and macro-elements in roots and leaves resulted in T+C1 having the highest content of Zn and Fe and C1 having the highest content of Fe and K (the latter only in the leaves) as compared to other treatments. In contrast, T+C1 showed about 50% less P and K in the leaves than in C. vulgaris treatments. In addition, in the tannin treatment, microelements such as Fe and Zn accumulated in the roots, evidencing absorption from the soil, but low translocation to the leaves. However, all treatments showed similar photosynthetic performance in terms of leaf gas exchange and chlorophyll fluorescence. These findings suggest that extracts of C. vulgaris and tannins or their blends represent a promising strategy for improving crop productivity and resilience in a sustainable manner. Full article

Background: Psoriasis vulgaris is a systemic immune-mediated disease marked by oxidative stress and disruptions in mineral homeostasis. This study evaluated the effect of 12-week cyclosporine A (CsA) therapy on serum micro-/macroelements and redox balance in adults with moderate–severe disease. Methods: Thirty-seven patients were prospectively assessed at baseline, day 42, and day 84. Disease severity was quantified using PASI and BSA. Serum copper, zinc, magnesium, calcium, iron, sodium, and potassium were measured by atomic absorption spectrometry. Total antioxidant status (TAS), total oxidant status (TOS), and oxidative stress index (OSI = TOS/TAS × 100) were determined spectrophotometrically. Results: CsA treatment produced significant clinical improvement, demonstrated by reductions in PASI and BSA. Parallel biochemical changes included decreased copper and increased zinc, magnesium, calcium, and iron levels toward reference ranges (all p < 0.0001). TAS increased, TOS decreased, and OSI was markedly reduced, indicating restored redox balance. The Cu/Zn ratio declined throughout therapy, and elevated magnesium at week 12 correlated with greater clinical improvement. Sodium and potassium levels remained stable. Subgroup analyses suggested differing biochemical responses in smokers, patients with diabetes, and individuals with obesity. Conclusions: CsA improves psoriasis severity while ameliorating systemic oxidative stress and mineral disturbances. The Cu/Zn ratio and serum magnesium may support personalized monitoring during CsA therapy. Full article

The prolonged and intensive use of chemical inputs in agriculture, particularly synthetic fertilizers, has generated a variety of environmental and agronomic challenges. This has intensified the need for alternative, viable, and sustainable solutions. Plant-associated microbes have emerged as promising candidates in this regard. While research has largely focused on bacteria and fungi, comparatively less attention has been paid to other microbial groups such as microalgae and cyanobacteria. These photosynthetic microorganisms offer multiple agronomic benefits, including the ability to capture CO₂, assimilate essential micro- and macroelements, and synthesize a wide range of high-value metabolites. Their metabolic versatility enables the production of bioactive molecules with biostimulant and biocontrol properties, as well as biofertilizer potential through their intrinsic nutrient content. Additionally, several cyanobacterial species can fix atmospheric nitrogen, further enhancing their agricultural relevance. This review aims to summarize the potential of these microorganisms and their application in the agriculture sector, focusing primarily on their biofertilization, biostimulation, and biocontrol capabilities and presents a compilation of the products currently available on the market that are derived from these microorganisms. The present work also identifies the gaps in the use of these microorganisms and provides prospects for developing a suitable solution for today′s agriculture. Full article

Levels of micro- and macroelements in the human organism change dynamically and undoubtedly remain critical for human health. Currently, much research is focused on searching for the concentrations of various metals (including toxic ones) in the tissues obtained from patients suffering from various diseases including ophthalmic diseases. However, the knowledge in this matter is still scarce and highly limited. Previous studies related to the changes in the levels of micro- and macroelements within the morphological elements of the eye and visual tract were performed on animal models in most cases, and only for the chosen elements. In addition, the majority of the studies performed on human samples were mostly focused only on the group of patients with chosen ophthalmic diseases such as glaucoma or cataracts. Moreover, usually, the results of the studies are contradictory, and some hypotheses are still unexplained. The understanding of the physiology and pathophysiology of the processes that lead to the changes in the distribution of the levels of micro- and macroelements that are crucial in the etiology of ophthalmic diseases might provide more effective prevention and better therapeutic strategies, or even improvements in the treatment of chosen ophthalmic diseases. In this paper, we summarized the current knowledge regarding the metallomic analysis of the human organ of vision and its relationship with chosen ophthalmic diseases. Full article

Fomes fomentarius (L.) Fr. has been valued since the 15th century across Europe, including the Balkan region, for its medicinal and traditional uses such as tinder production, spiritual practices, wound healing, and hemostasis. This study analyzes three Balkan strains, focusing on micro- and macroelements, polyamines (PAs), and phenolic compounds in hot water (H₂O), chloroform (CHCl₃), hydroethanolic (EtOH), and hydromethanolic (MeOH) extracts. Micro- and macroelements were determined using atomic absorption spectrophotometry (AAS), while PAs were quantified using high-performance liquid chromatography with fluorescence detection (HPLC-FD). Phenolic profiles were determined using liquid chromatography–mass spectrometry (LC-MS/MS), with total phenolic content (TPC) assessed using the Folin–Ciocalteu method. Antioxidant activity was evaluated via DPPH, ABTS, NO scavenging, lipid peroxidation inhibition, and FRAP assays, alongside anti-acetylcholinesterase and antiproliferative activity assessments. This study represents the first investigation of PA profiles in F. fomentarius, with total PA levels ranging from 32.67 to 2910.09 nmol/g dry weight (d.w.). The Bosnian strain exhibited the highest PA levels, with spermidine (SPD) concentrations ranging from 899.96 to 2910.09 nmol/g d.w. LC-MS/MS analysis identified several bioactive phenolics, including amentoflavone, baicalein, chrysoeriol, esculetin, and scopoletin—reported here for the first time in this fungus. The H₂O and EtOH extracts from the Croatian and Serbian strains showed higher TPC levels, correlating with notable antioxidant activity. The EtOH and MeOH extracts demonstrated significant anti-acetylcholinesterase and antiproliferative activities, emphasizing their medicinal potential. These findings highlight the therapeutic potential of polar extracts from Balkan F. fomentarius. Full article

Avocado is a rich source of numerous nutrients, such as micro- and macroelements, essential unsaturated fatty acids, and vitamins essential for the correct functioning of the body. Consequently, its consumption has significantly increased in recent years. The primary edible part of the fruit is the flesh, while the seed is still considered biowaste. Currently, various methods for utilization of this biowaste are being explored, prompting the authors of this work to investigate the catalytic properties of ground avocado seeds. Dried, ground avocado seeds were used as the catalyst in the environmentally friendly oxidation of limonene with oxygen. The process was carried out in mild conditions, without the use of any solvent and at atmospheric pressure. The studies examined the influence of temperature (70–110 °C), the amount of the catalyst (0.5–5.0 wt%), and the reaction time (15–360 min). The analyses of the post-reaction mixtures were performed using the gas chromatography method (GC). The maximum value of the conversion of limonene obtained during the tests was 36 mol%. The main products of this process were as follows: 1,2-epoxylimonene, carveol, and perillyl alcohol. Also, the following compounds were determined in the post-reaction mixtures: carvone and 1,2-epoxylimonene diol. The studied process is interesting, taking into account both the management of waste in the form of avocado seeds and possible wide applications of limonene transformation products in medicine, cosmetics and the food industry. Given that limonene is now increasingly being extracted from waste orange peels, this is also a good way to manage the future naturally derived limonene and reduce the amount of waste orange peels. The presented studies fit perfectly with the goals of sustainable development and circular economy and may be the basis for the future development of “green technology” for obtaining value-added oxygenated derivatives of limonene. These studies show the use of waste biomass in the form of avocado seeds to obtain a green catalyst. In this context, our research presents an effective way of waste valorization. Full article

Background: More and more women are following a vegan and vegetarian diet. For some, the use of a vegan diet during lactation is controversial. Purpose: The aim of the study was to comparatively analyze the concentration of selected hormones, micro- and macronutrients, vitamins, and the basic composition and antioxidant status of the milk of vegan women, compared to the milk of omnivorous women. Methods: The study included 17 breastfeeding vegan women and 27 omnivorous women. The basic composition of human milk was analyzed using the MIRIS HMATM analyzer (Uppsala, Sweden) The levels of hormones and vitamins were determined by the enzyme-linked immunosorbent method. In order to determine the antioxidant activity and micro- and macroelements, spectrophotometric methods were used. Results: The vegan group was characterized by a lower average age, lower BMI, and lower WHR index compared to the control group. The milk of vegan women showed significantly higher cortisol concentrations and lower iron, vitamin B6, and antioxidant status than the milk of omnivorous women. Conclusions: A vegan diet helps maintain a healthy body weight and is more popular among younger women, under 30 years of age. Higher levels of milk cortisol in vegan women may indicate a high level of anxiety and stress experienced by breastfeeding women, which may have negative consequences not only for breastfeeding mothers but also for the development of their children. Lack of appropriate supplementation in women who do not consume meat and animal products may cause a deficiency of micro- and macroelements in breast milk. Full article

The aim of this study was to examine cold-pressed oils available on the Polish market derived from different plants and manufacturers in the context of their biological activity, including micro- and macroelements, antioxidant properties, antimicrobial activity, and selected effects on eukaryotic cells. In total, 76 oil samples of 34 selected oil types from nine Polish companies (five commercial and four amateur) were tested. The content of macro- and micronutrients was assessed using ICP-OES, the level of fatty acid unsaturation was examined using Fourier transform infrared spectroscopy (FTIR), and total antioxidant potential (TAP) was assessed using the DPPH method. The antimicrobial activity of the selected oils against Gram-positive and Gram-negative bacteria, as well as fungi, representing both pathogens and human microbiota, was tested using the broth microdilution method. The MTT reduction assay was used to exclude the cytotoxic effect of the oils on the human fibroblast line HFF-1. It has been concluded that the composition of cold-pressed oils varied significantly depending on the plant used and the manufacturer. The total content of the elements tested ranged from 172.91 mg/kg in Helianthus annuus oil to 1580.73 mg/kg in Silybum marianum oil. The iron concentration limits were exceeded in 10 oils, the copper concentration limits were exceeded in 34 oils, and the lead concentration limits were exceeded in 18 oils. At least one of these elements was exceeded in 40 oils (53% of the tested samples), which is why testing the concentration of elements should be a standard procedure for assessing the quality of cold-pressed oils. There was no statistically significant correlation between the content of any macro- and microelements and TAP. While TAP was strongly correlated with the spectral unsaturation index of the oils, this relationship can be used to develop a simple and rapid assessment of oils quality. The strongest antioxidant activity (over 90%) was observed for Nigella sativa oils. Interestingly, among all the tested oils, only these from Nigella sativa L., whatever the producer, possessed also strong antimicrobial activity. None of the tested oils showed cytotoxicity against eukaryotic cells, so the cold-pressed oils can be considered safe. Full article

This study investigates the content of some metals and metalloids in the flowers of three Aesculus cultivars (AHP, Aesculus hippocastanum pure species, with white flowers; AHH, Aesculus hippocastanum hybrid species, with pink flowers; and AXC, Aesculus × carnea, with red flowers) over a four-year period (2016–2019) using inductively coupled plasma optical emission spectrometry (ICP OES) and principal component analysis (PCA). The research focuses on assessing macro- and micro-elemental compositions, identifying variations in mineral uptake, and exploring potential correlations with soil composition. Results highlight significant differences in elemental profiles among the three species, despite similar total ash content. Potassium and phosphorus emerged as dominant macroelements, with AXC showing lower magnesium levels compared to AHP and AHH. Particularly intriguing was the detection of antimony in all cultivars, raising questions about its role and bioaccumulation pathways in floral tissues. Iron and aluminum concentrations varied significantly across species, indicating species-specific metal transport mechanisms. Nickel content showed temporal fluctuations, potentially influenced by climatic conditions and soil properties. PCA revealed distinct clustering patterns, linking elemental concentrations to specific species and years. This comprehensive analysis enhances understanding of metal absorption and distribution in ornamental plants, providing insights into their metabolic processes and potential implications for environmental monitoring and phytoremediation strategies. Full article

Background/Objectives: Degenerative lumbo-sacral spinal stenosis is characterized by spinal canal narrowing, often linked to ligamentum flavum hypertrophy. This study evaluated the elemental composition of ligamentum flavum tissue in DLSS patients compared to healthy controls. Methods: This study involved 180 patients diagnosed with degenerative lumbo-sacral spinal stenosis and 102 healthy controls. Ligamentum flavum samples were analyzed for concentrations of magnesium (Mg), calcium (Ca), phosphorus (P), zinc (Zn), copper (Cu), iron (Fe), sodium (Na), potassium (K), manganese (Mn), and lead (Pb) using inductively coupled plasma optical emission spectrometry (ICP-OES). Statistical analyses were conducted using Student’s t-test, ANOVA, and Pearson’s correlation, with a significance threshold of p < 0.05. Results: The study group exhibited significantly elevated levels of Mg (p < 0.001), Ca (p = 0.014), and P (p = 0.006), along with reduced concentrations of Zn (p = 0.021) and Cu (p = 0.038) compared to controls. No statistically significant differences were observed for Na, K, Mn, or Fe (p > 0.05). Elemental imbalances were more pronounced in individuals with higher body mass index (BMI) and varied by gender. Pain intensity demonstrated a significant correlation with Zn (p = 0.012) and Na (p = 0.045), but no consistent associations with Mg, Ca, or P. Conclusions: Altered Mg, Ca, P, and Zn levels in ligamentum flavum suggest their involvement in degenerative lumbo-sacral spinal stenosis pathophysiology. These elements may serve as potential biomarkers and therapeutic targets for mitigating spinal canal narrowing. Full article

Background and aims: Osseointegration (OI) surgery of the appendicular skeleton for repair in amputees is a treatment in which a metal implant is directly fixed to the residual bone and subsequently connected to a prosthetic limb via a transcutaneous connector through a small incision in the skin. Current treatment does not consider nutritional advice for patients undergoing the OI procedure. However, since the group of patients is very heterogeneous, the results may not be always satisfactory for patients and clinicians. Furthermore, in some individuals, incorrect nutrition and diet habits may lead to complications and rejection of the implant. Methods: We created an extensive narrative evaluation by conducting a methodical search. A comprehensive search was conducted across three major databases: PubMed, Embase, and Scopus. The search was carried out in October 2024 with no time limit specified. The approach involved using specific, pre-defined search terms, which were first applied in PubMed, followed by Embase and Scopus to ensure a broad and diverse range of articles was captured. The search process was refined by considering studies published in high-impact journals, as identified based on impact factors and subject relevance. To ensure consistency and rigor, the selection criteria were applied uniformly across all databases, and irrelevant or incomplete articles were excluded. Results: Based on the specific nature of the OI procedure, it is crucial to adapt patients’ diets and nutrition after the process. To translate the findings from the reviewed literature into practical clinical guidance for osseointegration (OI) procedures, we developed dietary recommendations for both patients and clinicians, presented as proposed dietary plans and summarized in tables. These recommendations were informed by evidence from various studies, highlighting findings that were supported by randomized controlled trials (RCTs) as well as areas where the evidence remains inconclusive or unsupported by RCTs. Major vitamins and micro- and macroelements were distinguished and presented as guidelines for clinicians. Conclusions: OI is currently the most promising therapeutic options for amputees. To promote efficient tissue healing and provide energy for rehabilitation, it is recommended to follow a healthy, well-balanced diet that contains all the essential micronutrients, macronutrients, vitamins, and minerals. We also provide suggestions for future studies. Full article

Background: In recent years, the consumption of energy drinks (EDs) by adolescents and young adults has increased significantly, so concerns have been raised about the potential health risks associated with excessive ED consumption. Most analyses on EDs focus on the caffeine content. Research on the content of minerals (essential and toxic) in energy drinks can be considered scarce. Therefore, there is a need for research stating the actual status of heavy metal content in commercially available energy drinks. Methods: This research presents the determination of the total concentrations of macro-elements and trace elements (TEs), such as Na, K, Mg, Ca, Al, Cr, Co, Cu, Fe, Mn, Ni, B, Zn, V, Sr, Ba, Pb, Cd, and As in nine samples of energy drinks using inductively coupled plasma optical emission spectrometry (ICP-OES) and inductively coupled plasma mass spectrometry (ICP-MS) techniques. Results: The order in the content of macro-minerals in the EDs was as follows: Na > K > Mg > Ca. The results showed that ED 1, ED 3, and ED 7 samples had the highest micro-mineral concentrations. All the samples had a hazard quotient and hazard index < 1, indicating no non-carcinogenic risk from exposure to single or multiple heavy metals in both the adolescent and adult age groups. Some samples exceeded the threshold limit of acceptable cancer risk for As, Ni, and Cr in both adolescents and adults. Conclusions: This assessment showed that in addition to health implications based on the caffeine content of EDs, there might be a carcinogenic risk associated with the toxic element content of these beverages. This research also highlights notable differences in the TE levels among various ED brands, which may have important implications for consumer well-being and health. Full article