Elements Calcium Research Articles

Optimization, Characterisation and Evaluation of Biochar Obtained from Biomass of Invasive Weed Crotalaria burhia

Invasive weed plants are unwanted and hazardous waste biomass; and have extraordinary potential to serve as raw materials for biochar production. To evaluate the potentiality of invasive weed for bioenergy production in the form of biochar, Crotolaria burhia was investigated. The response surface modeling and optimization of the biochar parameters were conducted using the experimental design expert 13.0. The optimum value of the desirability function was obtained at a pyrolysis temperature of 450°C and a particle size of 50-100 mm. The model represents a p-value less than 0.0500 and a high F value, which denotes its reliable and accurate prediction of experimental data. A strong correlation was observed between actual and predicted values for biochar composites fixed carbon, carbon, surface area, pore size, and pore volume. In the present study, C. burhia biochar production was carried out by slow pyrolysis at 450°C under vacuum conditions. Biochar was found to be alkaline, with a 33.23% yield. Proximate analysis of C. burhia revealed 3.35% moisture content, 8.48% volatile matter, 81.24% fixed carbon and 6.94% ash content. The elemental analysis shows major concentrations of carbon, hydrogen, and oxygen as 57.77%, 6.123%, and 27.60%, respectively. Low H/C and O/C molar ratios were quantified as 0.10% and 0.47%, respectively. It possesses a honeycomb structure having mesoporous surface porosity with a surface area of 155.19m²/g and the presence of a remarkable concentration of mineral elements calcium and potassium. Biochar rich in hydroxyl, carboxylic, and alkene functional groups enhances its applicability areas. These findings make C. burhia a potential feedstock for the production of good-quality biochar.

Concentrations and inter‐element correlations of seven essential elements in wild plants of Japan

AbstractWe assessed the effects of soil type on the concentrations of seven elements (calcium, potassium, sulfur, phosphorus, iron, manganese, zinc) in plants using x‐ray fluorescence (XRF) analysis and plant specimens collected from calcareous and ultramafic soil areas, and ‘general soils’ (other types of soil represented by Brown Forest soils and Andosols) of Japan. Compared with the plants from other types of soils, the means of these seven elements were lower in plants originating from ultramafic soils, especially in phosphorus. Plants from calcareous soil areas had high iron and zinc concentrations on average, but this tendency was biased by plants collected on Mt. Fujiwara, which had extremely high average values of these elements. Calcium concentration in plants had a negative correlation with zinc or iron from calcareous or general soils, respectively, and iron showed positive correlations with zinc, manganese, and sulfur in plants from calcareous, ultramafic, and general soils, respectively. These correlations were not found in plants from general soils, suggesting that these relationships reflect the chemical characteristics of soil types. On the contrary, plants from all soil types showed a positive correlation between sulfur and phosphorus, whereas a positive correlation between potassium and phosphorus was found in plants from calcareous and general soils, but not in ultramafic plants, which instead showed a weak, but statistically significant correlation between potassium and sulfur. Statistically, iron and sulfur concentrations were positively correlated in all soil types, but manganese showed a low correlation with the other elements.

Essential mineral elements in roe deer: Associations with parasites and immune phenotypes in two contrasting populations

AbstractLow levels of essential mineral elements such as cobalt, copper, and iron, in organisms reduce immune function, increasing the chances of parasitic infection. This phenomenon has been demonstrated widely in domestic animals but rarely in wildlife. In this study, we used data from 7‐ to 9‐month‐old roe deer (Capreolus capreolus), living in two different populations facing contrasting environmental conditions (Trois‐Fontaines and Chizé), to investigate whether the parasitic and immunological statuses could be related to essential element status. Between 2016 and 2019, we collected feces to measure parasite burdens (gastrointestinal and pulmonary nematodes), blood to measure immunological parameters (globulins and white blood cells), and hair to assess the concentration of 11 essential elements (calcium [Ca], chromium [Cr], cobalt [Co], copper [Cu], iron [Fe], magnesium [Mg], manganese [Mn], potassium [K], molybdenum [Mo], selenium [Se], and zinc [Zn]). The results showed first heterogeneity in the individual phenotypes of the two populations. Roe deer with low body mass had high concentrations of all the essential elements (in particular, Ca, Fe, Cu, K, and Mn), a high parasitic burden, and high concentrations of globulins. An association between high concentrations of essential elements and a high parasite burden was found at the two study sites despite markedly different environmental conditions. A relationship between essential element concentrations and immune parameters was also detected, with more basophils and globulins being associated with high concentrations of essential trace elements (i.e., Ca, Fe, Cu, and, to a lesser extent, Se, Cr, and Zn). These results suggest that young individuals with low body mass and high parasitism may select feeding resources rich in mineral elements, which may improve their ability to control the infestation and/or mitigate the negative consequences of parasites by maintaining immune system functions.

Impact of Toxoplasma gondii on Serum Protein Levels and Mineral Content in Sheep and Goats at a Small Dairy Farm in White Nile State, Sudan

Aim: This study aims to investigate the effects of Toxoplasma gondii infection on the serum proteins and macro elements (Sodium, Potassium, Calcium, Magnesium and Phosphate) for sheep and goat. Introduction: In sheep and goats, Toxoplasma infection is a major cause of abortion and stillbirth. Subclinical infections are also quite common in adult animals of affected flocks and herds. Serum proteins and macro elements plays an essential role in animal metabolism. Materials and Methods: Serological survey of T. gondii was conducted using Latex Agglutination Test (LAT) for 20 sera collected from sheep and goats (8 and12 respectively) in white Nile State, Sudan. Results: Out of twelve goats’ serum and eight sheep serum samples, seven samples were found to be positive for Toxoplasma (58.33%) in goats and four samples were found to be positive for Toxoplasma (50%) in sheep, the remaining samples were negative. It was observed that serum Total protein (Tp) level was increased significantly (p<0.05) in both species, and albumin (Alb) level decreased significantly (p<0.05) in goats, while Globulin (Glob) was significantly (p<0.05) low in sheep compared with control animals. The results showed that some minerals (Na and K) concentrations in the serum were higher in both sheep and goats compared to the controls. Conclusion: In conclusion infestation of goats with Toxoplama gondii increases the total protein, globulins and significantly decreases the albumin concentrations. For sheep the infestation increases the total protein, albumin and significantly decreases the globulin concentrations. Sheep and goats infected with Toxoplasma gondii showed increased serum sodium, potassium and magnesium levels affecting most of the enzyme systems.

Trace element partitioning controls on cave drip water compositions through prior calcite and aragonite precipitation

Speleothem trace element records can provide seasonal resolution climate reconstructions, but the interpretation can be challenging. Aragonite samples are understudied compared to calcite samples, despite that aragonite has 10x higher uranium concentrations and thus provide excellent dating precision. Here we present a high-resolution dataset of drip water trace elements (calcium, magnesium, strontium, barium, uranium) that are commonly affected by prior carbonate (calcite / aragonite) precipitation, a process often driven by effective rainfall. Our data suggest that prior calcite and aragonite precipitation can occur at the same drip site complicating the interpretation of strontium and uranium concentrations in aragonite speleothems. However, both processes can be distinguished with the “Sinclair test” through the trendline analysis of logarithmic relationships. Furthermore, our data show that aragonite speleothems slowly growing under relatively constant conditions are ideal to record variations in prior carbonate precipitation with its barium concentrations, independent from the prior carbonate precipitation mode.

Relation between complete feeding and blood biochemical indicators in housing of service dogs in a kennel

The purpose of the research was to analyze the relation between the complete feeding and biochemical parameters of blood in service dogs when housing in a kennel in the Tyumen region. The objectives of the research included issues on the assessment and adjustment of the existing diet, the study of the physiological state of dogs and the determination of the economic effi ciency of the proposed diet. The article reveals the problems of non-compliance of the existing diet with the feeding standards for service dogs, especially in terms of vitamin and mineral nutrition. In order to increase the missing indicators such as the content of protein, calcium and phosphorus to the recommended norm, we proposed to include meat and bone meal in the diet in the amount of 15 g, based on 1 kg of live weight of the dog. The ratio of trace elements calcium and phosphorus will be 1.1:1, which corresponds to the norm of 0.8–1.5: 1. The study of the biochemical composition of the blood showed a change in the enzymatic indicators of the serum to the downside, which may be a symptom of vitamin defi ciency in the diet, especially B vitamins (B6, B1). It is necessary to take into account that these indicators increase with physical activity and intensive use of animals. It was found on the based analysis that the cost of a diet with added vitamins and meat and bone meal would be increased by 2 rubles compared to the existing one, but the diet would be balanced in nutrients. When using traditional feed, it is necessary to include balancing additives in the diet, which requires additional costs. At the same time, we can talk about the feasibility of transferring animals from a traditional diet to feeding dry complete feed.

Content of Biogenic Elements in Sheep Wool by the Regions of Slovakia.

The quality of nutrition and environmental pollution are crucial chemical indicators influencing animal health, reflected in element concentrations in animal tissues and coats. This study investigates the concentrations of biogenic elements (calcium, potassium, magnesium, sodium, copper, and iron) in sheep wool from various regions of Slovakia to compare concentrations and identify possible correlations between individual elements. Samples were collected from six different regions, and concentrations of elements were measured using flame atomic absorption spectrometry. Statistical analysis revealed significant differences in element levels among the examined regions. Calcium concentrations ranged from 729.2 to 4065ppm, with the highest concentrations in the Kysuce region and the lowest in the Šariš region. Potassium concentrations ranged from 2315 to 3282ppm, with the lowest values in the Zemplín region and the highest in the Liptov region. Magnesium, sodium, copper, and iron also exhibited varying concentrations across the regions. Correlation analysis identified significant associations between several elements. The findings suggest that regional environmental differences influence element concentrations in sheep wool, highlighting the importance of monitoring biogenic elements for assessing environmental pollution and animal health. Further research is warranted to explore the underlying mechanisms driving element accumulation in wool and its implications for animal welfare and environmental management.

Aqueous Multivalent Metal-ion Batteries: Toward 3D-printed Architectures.

Energy storage has become increasingly crucial, necessitating alternatives to lithium-ion batteries due to critical supply constraints. Aqueous multivalent metal-ion batteries (AMVIBs) offer significant potential for large-scale energy storage, leveraging the high abundance and environmentally benign nature of elements like zinc, magnesium, calcium, and aluminum in the Earth's crust. However, the slow ion diffusion kinetics and stability issues of cathode materials pose significant technical challenges, raising concerns about the future viability of AMVIB technologies. Recent research has focused on nanoengineering cathodes to address these issues, but practical implementation is limited by low mass-loading. Therefore, developing effective engineering strategies for cathode materials is essential. This review introduces the 3D printing-enabled structural design of cathodes as a transformative strategy for advancing AMVIBs. It begins by summarizing recent developments and common challenges in cathode materials for AMVIBs and then illustrates various 3D-printed cathode structural designs aimed at overcoming the limitations of conventional cathode materials, highlighting pioneering work in this field. Finally, the review discusses the necessary technological advancements in 3D printing processes to further develop advanced 3D-printed AMVIBs. The reader will receive new fresh perspective on multivalent metal-ion batteries and the potential of additive technologies in this field.

Placental Element Content Assessed via Synchrotron-Based X-ray Fluorescence Microscopy Identifies Low Molybdenum Concentrations in Foetal Growth Restriction, Postdate Delivery and Stillbirth.

Placental health and foetal development are dependent upon element homeostasis. Analytical techniques such as mass spectroscopy can provide quantitative data on element concentrations in placental tissue but do not show spatial distribution or co-localisation of elements that may affect placental function. The present study used synchrotron-based X-ray fluorescence microscopy to elucidate element content and distribution in healthy and pathological placental tissue. The X-ray fluorescence microscopy (XFM) beamline at the Australian Synchrotron was used to image trace metal content of 19 placental sections from healthy term (n = 5, 37-39 weeks), foetal growth-restricted (n = 3, <32 weeks, birth weight <3rd centile), postdate (n = 7, >41 completed weeks), and stillbirth-complicated pregnancies (n = 4, 37-40 weeks). Samples were cryo-sectioned and freeze-dried. The concentration and distribution of fourteen elements were detected in all samples: arsenic, bromine, calcium, chlorine, copper, iron, molybdenum, phosphorous, potassium, rubidium, selenium, strontium, sulphur, and zinc. The elements zinc, calcium, phosphorous, and strontium were significantly increased in stillbirth placental tissue in comparison to healthy-term controls. Strontium, zinc, and calcium were found to co-localise in stillbirth tissue samples, and calcium and strontium concentrations were correlated in all placental groups. Molybdenum was significantly decreased in stillbirth, foetal growth-restricted, and postdate placental tissue in comparison to healthy-term samples (p < 0.0001). Synchrotron-based XFM reveals elemental distribution within biological samples such as the placenta, allowing for the co-localisation of metal deposits that may have a pathological role. Our pilot study further indicates low concentrations of placental molybdenum in pregnancies complicated by foetal growth restriction, postdate delivery, and stillbirth.

Identification of Mineral Absorption in the Meat of Freshwater Kijing (Pilsbryoconcha exilis Lea) Using X-Ray Fluorescence (XRF)

The filtration ability of freshwater mussels is used as an indicator of biofiltration and has the potential to accumulate various minerals and heavy metals. This study aims to identify minerals resulting from absorption in the meat of freshwater kijing (Pilsbryoconcha exilis Lea) using the X-Ray Fluorescence (XRF) technique. Meat freshwater kijing sliced thinly and carried out the drying process below ray sun direct in 3 days with objective lower water content. Samples already dry smoothed with method pounded using mortar until smooth and filtered for get sample form flour meat tombstone. Method of quantitative identification of absorbed minerals in samples was carried out using the X-Ray Fluorescence method (ED-XRF type) Rigaku NexCG type. The XRF testing procedure is carried out in several steps. The results of the research show that qualitatively, in the XRF test, freshwater kijing meat contains 29 metal elements with the top 10 elements consisting of calcium oxide (CaO), calcium (Ca), phosphorus pentoxide (P2O5), phosphorus (P), manganese oxide. (MnO), sulfur trioxide (SO3), manganese (Mn), silicon dioxide (SiO2), aluminum oxide (AlO), magnesium oxide (MgO). Meanwhile, quantitative analysis shows that the five most abundant metal elements are CaO 48.70%, Ca 34.80%, P2O5 30.90%, P 13.50%, and MnO 4.9%. These results show that the main mineral compiler meat freshwater kijing is calcium and phosphorus. Element calcium and phosphorus lots utilized freshwater kijing for preparation shell.

Electrical impedance spectroscopy for potassium content analysis and botanical origin identification of honey

Minerals are reported to dominate the electrical properties of honey and indicate its botanical and geographical origins. In this study, Electrochemical Impedance Spectroscopy (EIS) was used to assess the relation between mineral elements, electrical properties and botanical origin using three honey varieties - Citrus sp., Eucalyptus sp., and Erica sp. These varieties are identified through pollen analysis and market labelling. Flame atomic absorption and emission spectroscopies were used to quantify the concentrations of eight elements (potassium, sodium, calcium, magnesium, manganese, zinc, copper, and iron). Among all the mineral elements, potassium showed a consistent correlation with impedance. The potassium estimation in honey and standard solutions (calibration curve) had similar sensitivities of 153.43 nF/mM and 132.68 nF/mM, respectively. Additionally, the analysis revealed that potassium dominates the mineral composition, with the other species present in minimal quantities. The EIS technique showed high sensitivity to potassium and other ionisable species, making it possible to classify the botanical origin of these three honey types. The EIS technique proved to be both time and cost effective, yielding a classification rate higher than that achieved by analysing mineral composition.

Calcium deficiency is associated with malnutrition risk in patients with inflammatory bowel disease

ABSTRACT Background and Aim Patients with inflammatory bowel disease (IBD) often have the condition of malnutrition, which can be presented as sarcopenia, micronutrient deficiencies, etc. Trace elements (magnesium, calcium, iron, copper, zinc, plumbum and manganese) belonging to micronutrients, are greatly vital for the assessment of nutritional status in humans. Trace element deficiencies are also the main manifestation of malnutrition. Calcium (Ca) has been proved to play an important part in maintaining body homeostasis and regulating cellular function. However, there are still a lack of studies on the association between malnutrition and Ca deficiency in IBD. This research aimed to investigate the role of Ca for malnutrition in IBD patients. Methods We prospectively collected blood samples from 149 patients and utilized inductively coupled plasma mass spectrometry to examine their venous serum trace element concentrations. Logistic regression analyses were used to investigate the association between Ca and malnutrition. Receiver operating characteristic (ROC) curves were generated to calculate the cutoffs for determination of Ca deficiency. Results Except Ca, the concentrations of the other six trace elements presented no statistical significance between non-malnutrition and malnutrition group. In comparison with the non-malnutrition group, the serum concentration of Ca decreased in the malnutrition group (89.36 vs 87.03 mg/L, p = 0.023). With regard to ROC curve, Ca < 87.21 mg/L showed the best discriminative capability with an area of 0.624 (95% CI: 0.520, 0.727, p = 0.023). Multivariate analyses demonstrated that Ca < 87.21 mg/L (OR = 3.393, 95% CI: 1.524, 7.554, p = 0.003) and age (OR = 0.958, 95% CI: 0.926, 0.990, p = 0.011) were associated with malnutrition risk. Serum Ca levels were significantly lower in the malnutrition group than those in the non-malnutrition group among UC patients, those with severe disease state or the female group. Conclusions In patients with IBD, Ca deficiency is an independent factor for high malnutrition risk.

Estimation of Total Proteins and Minerals Content of Bovine Brucellosis and Anaplasmosis in Some Local Dairy Farms in Kosti, Sudan

Bovine brucellosis, caused by Brucella abortus, is a significant bacterial infectious zoonotic disease not only poses a threat to animal health but also presents economic challenges and public health concerns due to its potential transmission to humans. Humans can contract the disease through direct contact with infected animals or consumption of unpasteurized dairy products. Bovine anaplasmosis is a haemolytic disease of cattle caused by the bacterium Anaplasma marginale which can cause adult mortality, abortion, weight loss, and a reduction in performance. This paper described the results obtained from the effects of brucellosis and anaplasmosis on serum proteins and the level of the macro elements (Calcium, Phosphorus, Potassium, Sodium, and Magnesium). These minerals play an essential role in animal metabolism. Out of fourteen Bovine serum samples, five samples were found to be positive for Brucella (35.72%) and four samples were found to be positive for Anaplasma (28.57%), the remaining samples were negative. Total protein (Tb) and (Alb) levels were significantly increased (P&lt;0.01) in both brucellosis and anaplasmosis cattle compared with controls. On the other hand Globulin (Glob) was significantly decreased (P&lt;0.01) in brucellosis cattle compared to the controls, also the present study showed that, concentration of Na, Ca, and Mg minerals were significantly increased in case of Brucellosis compared to the controls and significantly low (P&lt;0.05) in potassium level, while animals infected with anaplasmosis showed an increased level of Na and K and decreased level in Mg. In summary, comprehension of laboratory medicine parameters is crucial for monitoring animal health and diagnosing diseases like brucellosis and anaplasmosis. These parameters are essential for implementing effective control measures and ensuring livestock well-being. The objective of this study was to estimate the total proteins and minerals content of Bovine Brucellosis and Anaplasmosis in ...

Imaging the elemental distribution within human malignant melanomas using Laser-Induced Breakdown Spectroscopy

The diagnosis of malignant melanoma, often an inconspicuous but highly aggressive tumor, is most commonly done by histological examination, while additional diagnostic methods on the level of elements and molecules are constantly being developed. Several studies confirmed differences in the chemical composition of healthy and tumor tissue. Our study presents the potential of the LIBS (Laser-Induced-Breakdown Spectroscopy) technique as a diagnostic tool in malignant melanoma (MM) based on the quantitative changes in elemental composition in cancerous tissue. Our patient group included 17 samples of various types of malignant melanoma and one sample of healthy skin tissue as a control. To achieve a clear perception of results, we have selected two biogenic elements (calcium and magnesium), which showed a dissimilar distribution in cancerous tissue from its healthy surroundings. Moreover, we observed indications of different concentrations of these elements in different subtypes of malignant melanoma, a hypothesis that requires confirmation in a more extensive sample set. The information provided by the LIBS Imaging method could potentially be helpful not only in the diagnostics of tumor tissue but also be beneficial in broadening the knowledge about the tumor itself.

Physical and compositional characteristics of drinking water storage tank sediment

AbstractThirty‐one drinking water storage tank sediment samples were collected in 13 states, 17 distribution systems, and 29 tanks over the course of 4 years. Sediment samples were characterized for elemental composition and physical properties, which were found to be inconsistent both between samples of the same distribution system and across geographical regions. Differences between samples from the same tank also indicated spatial differences in sediment composition within storage tanks. Color was found to qualitatively trend toward darker or lighter depending on the concentration of a few elements (iron, aluminum, calcium, and magnesium). Particle shape varied between samples though uniformity increased as the particle size decreased. The average sediment particle density in this study (1.99 g/cm3) was lower than the density of a widely used sediment resuspension model silica sand (2.65 g/cm3), possibly resulting in underestimation of resuspension in models. This study suggests that sediment properties are highly site and storage tank specific, necessitating individual characterization to achieve greatest accuracy in storage tank suspension and draining model inputs.

Ground-based and JWST Observations of SN 2022pul. II. Evidence from Nebular Spectroscopy for a Violent Merger in a Peculiar Type Ia Supernova

We present an analysis of ground-based and JWST observations of SN 2022pul, a peculiar “03fg-like” (or “super-Chandrasekhar”) Type Ia supernova (SN Ia), in the nebular phase at 338 days postexplosion. Our combined spectrum continuously covers 0.4–14 μm and includes the first mid-infrared spectrum of a 03fg-like SN Ia. Compared to normal SN Ia 2021aefx, SN 2022pul exhibits a lower mean ionization state, asymmetric emission-line profiles, stronger emission from the intermediate-mass elements (IMEs) argon and calcium, weaker emission from iron-group elements (IGEs), and the first unambiguous detection of neon in a SN Ia. A strong, broad, centrally peaked [Ne ii] line at 12.81 μm was previously predicted as a hallmark of “violent merger” SN Ia models, where dynamical interaction between two sub-M Ch white dwarfs (WDs) causes disruption of the lower-mass WD and detonation of the other. The violent merger scenario was already a leading hypothesis for 03fg-like SNe Ia; in SN 2022pul it can explain the large-scale ejecta asymmetries seen between the IMEs and IGEs and the central location of narrow oxygen and broad neon. We modify extant models to add clumping of the ejecta to reproduce the optical iron emission better, and add mass in the innermost region (<2000 km s−1) to account for the observed narrow [O i] λ λ6300, 6364 emission. A violent WD–WD merger explains many of the observations of SN 2022pul, and our results favor this model interpretation for the subclass of 03fg-like SNe Ia.

Contribution to the optimization of citrus (Citrus clementina Hort. Ex Tanaka) fruit fertilization using mobile lysimetry in orchards of the Souss-Massa region, Morocco

The growth and development of citrus trees and the quality of their fruits are significantly influenced by the essential role of mineral plant nutrition. This study aimed to improve the productivity of the citrus (Citrus clementina Hort. Ex Tanaka) orchards by optimizing mineral nutrition through well-monitored fertilization and fertigation aspects using lysimetry. The first phase consisted of studying the behavior of the nutrients in the soil solution at the high root concentration level, analysis of the nutritional status of five varieties of clementines (Sidi Aissa, Cadoux, Orogrande, Nules, and Nour), and the variation of leaf composition in major elements (Nitrogen, phosphorus, potassium, magnesium, and calcium) for the five varieties along phenological stages, through the exploitation of the results of analyses carried out for the management of mineral nutrition in 47 plots of citrus fruit in the Souss-Massa region with the use of lysimetry. The results obtained in this first part revealed an important variation of the nutrients in the soil solution (55.24%) in terms of water inputs, fertilizers, and edaphic conditions, as well as a large variation of foliar compositions (62.98%). The second phase, consisting of regular monitoring of the mineral nutrition dynamics targeting the “Nules” variety grafted on “Citrus macrophylla” affirmed the importance of the citrus fertilization approach for determining the availability, distribution, nutrient interactions in soil solution and plant response by regular leaf diagnostics. Thus, mobile lysimetry offered a powerful tool for achieving both productivity and sustainability in citrus fertilization programs.

A Study of Biochemical Markers in Uterine Cancer Diagnosis with Radiotherpay Treatment In Iraq

Background: Uterine cancer is a prevalent gynecological malignancy, with rising incidence rates globally. Early detection and effective treatment are essential for improving patient outcomes. Biochemical markers play a crucial role in diagnosing and monitoring uterine cancer, yet their comprehensive evaluation remains limited. Methods: This study aimed to assess various biochemical markers in the serum of uterine cancer patients compared to healthy individuals. Serum samples from 30 uterine cancer patients and 40 healthy females were analyzed for urea, creatinine, lactate dehydrogenase (LDH) activity, antioxidants (vitamin C and vitamin E), peroxynitrite, and trace elements (calcium and zinc). Results: The study revealed a significant decrease in urea and creatinine levels in serum of uterine cancer patients compared to healthy individuals (p≤0.05). During radiotherapy, blood urea nitrogen (BUN) exceeded the normal range (7-20 mg/dl), averaging 25.44 ± 9.87 mg/dl before treatment initiation, with no significant decrease during therapy. Serum creatinine levels remained within the normal range. Additionally, a significant reduction in serum vitamin C and vitamin E levels was observed in uterine cancer patients compared to healthy individuals (p≤0.05). Moreover, there was a significant increase in peroxynitrite and lactate dehydrogenase (LDH) activity, along with a rise in serum calcium levels, and a significant decrease in serum zinc levels among uterine cancer patients (p≤0.05). Conclusion: The findings highlight the significance of assessing multiple biochemical markers in uterine cancer diagnosis and monitoring. Elevated LDH, peroxynitrite, and calcium levels, along with reduced vitamin C, vitamin E, and zinc levels, may serve as valuable diagnostic markers for uterine cancer.

Reduction in Placental Metal and Metalloid in Preeclampsia: A Case-Control Study.

Preeclampsia is a primary placental disorder, with impaired placental vascularization leading to uteroplacental hypoperfusion. We aimed to investigate differences in metal and metalloid content between the placentas of women with preeclampsia and healthy controls. This was a case-control study in 63 women with preeclampsia and 113 healthy women. Clinical data were obtained from medical records. Inductively coupled plasma mass spectrometry (ICP-MS) was used to measure the placental metals and metalloids content. Compared with healthy control subjects, preeclampsia was associated with a significantly lower concentration of essential elements (magnesium, calcium, iron, copper, zinc, and selenium) in the placental tissue. After multivariable adjustment, an interquartile range (IQR) increase in selenium concentration was associated with a reduced risk of preeclampsia with an OR of 0.50 (95% CI: 0.33-0.77). The joint effects of multiple selected metals and metalloids were associated with a reduced risk of preeclampsia. The lower placental magnesium, chromium, iron, zinc, and selenium concentrations of preeclampsia cases indicate a potential link to its pathogenesis. It also provides an intriguing avenue for future research in revealing the underlying mechanisms and potential intervention strategies for preeclampsia.

Extraction, phytonutrients, the nutraceutical, and mineral analysis of coconut (Cocos nucifera) oil

Coconut oil is edible oil which is derived from the kernels, meat, and milk of the coconut palm fruit. This study aimed at evaluating the physicochemical properties, mineral elements, phytochemical content of coconut oil and determines the susceptibility pattern of coconut oil against bacteria. The results revealed the average values of the coconut oil contains for alkaloid, tannin, saponins, flavonoid, phenol, steroid, terpenoid, and glycoside were 38.230 mg/100g, 28.124 mg/100g, 16.185 mg/100g, 29.745 mg/100g, 79.167 mg/100g, 0.915 mg/100g, 1.251 mg/100g, and 0.506 mg/100g respectively; which are considered to be responsible for the many benefits attributed to coconut consumption. The mineral elements such sodium (75.350 ppm), calcium (105.400 ppm), potassium (502.55 ppm), magnesium (24.502 ppm), phosphorus (20.372 ppm), and copper, zinc, iron and manganese were present in moderate amounts of 0.442 ppm, 0.393 ppm, 0.772 ppm, 0.629 ppm respectively. The physicochemical analysis reveal the pH level to be neutral, while other parameters such as nitrate, phosphate and ammonia were not detected. The assay of antibacterial activity of standard bacteria organisms showed that Staphylococcus aureus had the highest susceptibility to coconut oil while Pseudomonas aeruginosa had the least. The utilization of coconut oil should be promoted as a functional food in Nigeria and the use of coconut seed flesh in our diets should be encouraged for health supporting functions.