Your search keyword '"CALCIUM chloride"' showing total 19,727 results

1. Evaluation of Exchangeable Potassium Concentration in Sri Lankan Rice Paddy Soils with ICP-MS Using CaCl2 Extraction.

Author

Suriyagoda, Lalith, Dandeniya, Warshi S., Kadupitiya, Harsha K., Madushan, Ranga, Senarathne, Sachintha, and Chandrajith, Rohana

Subjects

*FLAME photometry, *AMMONIUM acetate, *SOIL classification, *PADDY fields, *CALCIUM chloride, *INDUCTIVELY coupled plasma mass spectrometry

Abstract

With the advancement of analytical techniques, multi-element extraction and detection have been developed. Universal extractans like CaCl2 and detection technologies like inductively coupled plasma-mass spectrometry (ICP-MS) could facilitate simultaneous analysis of multiple-elements, and would be useful in commercial scale soil analytical laboratories. The type of extractant and detection method could influence the concentration of exchangeable potassium (ex-K) determined in different soils. This study evaluated the effectiveness of 0.01 M CaCl2 as a multi-element extractant (CC) and ICP-MS and flame photometry (FP) as detection technologies when determining ex-K in soils. The widely used protocol for Sri Lankan soils, i.e. 1 M ammonium acetate (AA) as an extractant and FP as detection method, was used as the control for comparison of results. Altogether, 1,250 soil samples representing rice-growing regions in Sri Lanka were used. Soils were grouped under 16 categories based on soil type. Ex-K varied widely (26 to 1376 mg kg−1 from AA-FP method). Ex-K determined using three methods were in the order of AA-FP>CC-FP >CC-ICP-MS. On average, the values obtained from CC-FP and CC-ICP-MS methods were 53% and 24%, respectively, of those from AA-FP. Soil type-dependent variation in the detection of K using three methods was evident. In the 16 soil categories, coefficient of determination (R2) ranged from 0.23 to 0.86 for AA-FP and CC-ICP-MS, and from 0.05 to 0.70 for AA-FP and CC-FP. As a result, soil ex-K determined using CC-FP and CC-ICP-MS methods cannot be related to the results generated through AA-FP method across different soil types. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparison of nano-zinc oxide or calcium chloride incorporated polyvinyl alcohol/chitosan/anthocyanin films for active and intelligent packaging.

Author

Qi, Yangyang and Li, Yana

Abstract

Polyvinyl alcohol (PVA) and chitosan (CS) were mixed with purple tomato anthocyanins (PTA), and then nano zinc oxide (nano-ZnO) or calcium chloride (CaCl2) were added to prepare PVA/CS/PTA/ nano-ZnO (PCP-ZnO) or PVA/CS/PTA/CaCl2 (PCP-CaCl2) films. The effects of nano-ZnO and CaCl2 on the morphology, pH response, color stability, color reversibility, antibacterial activity, antioxidant activity, mechanical properties, water vapor permeability and UV absorption characteristics of films were studied. In addition, its application in intelligent packaging to monitor the freshness of pork was also studied. It was found that both nano-ZnO and CaCl2 can reduce the transmittance of the film in the visible light region, and the film with addition of nano-ZnO was more sensitive to pH. During the 14 day storage period, the film modified with CaCl2 exhibited better color stability. SEM images indicate that the addition of nano-ZnO or CaCl2 alters the microstructure of the film. The mechanical, antibacterial and antioxidant properties and also the application as freshness indicator of PCP-CaCl2 film were superior to those of PCP-ZnO film. Those indicated that the prepared PCP-CaCl2 film is a potential candidate for active and intelligent packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of soybean insoluble dietary fiber and CaCl2 on the structure and properties of low‐moisture extruded products.

Author

Lian, Wentao, Gao, Yang, Zhang, Haojia, Zhang, Tian, Qu, Min, Zhu, Ying, Huang, Yuyang, and Zhu, Xiuqing

Subjects

*DIETARY fiber, *GLUTELINS, *INTERMOLECULAR forces, *HYDROGEN bonding interactions, *HYDROPHOBIC interactions

Abstract

BACKGROUND RESULTS CONCLUSION Texturized vegetable protein is currently a leading alternative to animal meat. This study examined the effects of soybean insoluble dietary fiber (SIDF) (0% to 20%) and CaCl2 (0% to 1%) on the structure and properties of extruded products made from a soybean protein isolate‐wheat gluten (SPI‐WG) composite.The study showed that SIDF (4% to 8%) increased the viscosity of extruded products, enhanced their specific mechanical energy, and improved their rehydration rate and tensile strength compared with a control group. The rehydration rate of the extruded products reached a maximum value of 331.67% in the 8% SIDF, 0.5% CaCl2 groups. The addition of excess SIDF prevented the cross‐linking of protein molecules to form a loose network structure. Analysis of the infrared spectrum and intermolecular forces showed that physical interactions between fibers and proteins were the dominant forces, with hydrophobic interactions and hydrogen bonds primarily maintaining the structure of the extruded products. The addition of CaCl2 (0.5%) led to protein aggregation and further improved the rehydration and tensile strength of extruded products.Soybean insoluble dietary fiber can improve the rehydration rate and quality of extruded products. The addition of CaCl2 mitigated the weakening of the protein structure caused by excess SIDF. These results provide a basis for the improvement of the quality of low‐moisture‐extruded texturized vegetable protein products with a high dietary fiber concentration and a high rehydration rate. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

4. 离子预腌制技术对贮藏期卤蛋品质的 提升作用.

Author

刘静波, 韩璐, 吕思雯, Metta Cita Andriani, 曹梦瑶, 袁苓茹, 徐梦蕾, 于一丁, 张婷, and 赵颂宁

Subjects

CALCIUM chloride, EGG storage, EGG quality, EGG whites, PROBLEM solving, EGG yolk

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Density of pure and mixed NaCl and CaCl2 aqueous solutions at 293 K to 353 K and 0.1 MPa: an integrated comparison of analytical and numerical data.

Author

Hoffert, Ulrike, André, Laurent, Blöcher, Guido, Guignot, Sylvain, Lassin, Arnault, Milsch, Harald, and Sass, Ingo

Subjects

GEOTHERMAL resources, EQUATIONS of state, CALCIUM chloride, SALT, AQUEOUS solutions

Abstract

This study reports on newly acquired density data of synthetically prepared pure and mixed NaCl and CaCl2 aqueous solutions that span a wide range of geothermally encountered concentrations and mixing ratios. The analytical data are provided for the temperature range of 293–353 K at ambient pressure. For the reproduction of that data, PHREESCALE was used. The predictive potential of this numerical tool regarding the density of geothermal fluids of known composition was the major target herein. As a result, the measured data are in good agreement with previous analytical studies found in the literature. Possible sources of errors are discussed in this paper. Density data of the mixed solutions at temperatures other than ambient are unique and close existing data gaps. The numerical model reproduces the newly measured and already existing density data within an error band of approximately 1%. For further use in geothermal applications, this can be considered an excellent agreement. Moreover, the model yields a direct calculation of density without the need to establish complex empirical equations of state and mixing rules. Finally, sensitivity calculations performed with a thermal–hydraulic (TH) numerical reservoir model demonstrate the required accuracy of fluid density for reliably predicting the long-term performance of deep geothermal energy systems. In terms of the productivity index and the timing of thermal breakthrough it shows that the present analytical and numerical uncertainty in density is small enough to reliably state both reservoir parameters. [ABSTRACT FROM AUTHOR]

Published

2024

6. New Thermochemical Salt Hydrate System for Energy Storage in Buildings.

Author

Galazutdinova, Yana, Clark, Ruby-Jean, Al-Hallaj, Said, Kaur, Sumanjeet, and Farid, Mohammed

Abstract

This paper introduces an innovative design for an "inorganic salt-expanded graphite" composite thermochemical system. The storage unit is made of a perforated, compressed, expanded graphite block impregnated with molten CaCl2∙6H2O; the humid air passes through the holes that allow the moisture to diffuse and react with the salt. The prepared block underwent 90 hydration-dehydration cycles. Although most of the performed cycles were carried out with salt overhydration and deliquescence, the treated samples have remained mechanically and thermally stable with no drop in energy density. The volumetric energy density of the composite ranged from 135.5 to 277.6 kWh/m3, depending on airflow rate and absolute humidity. To ensure composite material cycling stability, the energy density of the block was measured during hydration at similar conditions of absolute humidity, inlet temperature, and airflow rate (0.01 kgwater/kgair, 20 °C, 400 l/min). The average energy density at these conditions was sustained at 219 kWh/m3. The block integrity was monitored by visual inspection after removing it from the reactor chamber every few cycles. Both the composite material and its manufacturing process are simple and easy to scale up for future commercialization. [ABSTRACT FROM AUTHOR]

Published

2024

7. 酸适应过程中添加牛至精油和氯化钙对沙门氏菌 诱导耐酸及其并发的多重抗逆性的影响.

Author

高 旭, 刘 扬, 罗 欣, 朱立贤, 毛衍伟, 杨啸吟, 韩广星, 张一敏, and 董鹏程

Subjects

ESSENTIAL oils, HEAT of formation, CALCIUM chloride, BEEF industry, HYDROCHLORIC acid, ORGANIC acids

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Curcumin‐Loaded Co‐Axial Electrospun Chitosan/Polyvinyl Alcohol/Calcium Chloride Nanofibrous Membranes for Wound Healing Enhancement.

Author

Cao‐Luu, Ngoc‐Hanh, Luong, Huynh‐Vu‐Thanh, Nguyen, Tuong‐Vy, Nguyen‐Thi, Bich‐Thuyen, Pham, Duy Toan, Pham, Nhut‐Cuong, and Ho, Minh‐Hung

Subjects

*POLYVINYL alcohol, *FICK'S laws of diffusion, *CALCIUM chloride, *WOUND healing, *PSEUDOMONAS aeruginosa

Abstract

Nanofibrous membranes were developed by combining chitosan (CS), polyvinyl alcohol (PVA), and calcium chloride (CC) to incorporate curcumin (CCM) through a co‐axial electro‐spinning method to improve CCM bioavailability. The optimal parameters were PVA/CS ratio of 7:3 v/v, PVA/CCM ratio of 8:2 v/v, CC amount of 0.5 g, fiber collection distance of 15 cm, voltage value of 18 kV, and injection flow of 0.1 mL/h (both core and shell layer). The prepared PVA/CCM@CS/PVA/CC nanofiber showed smooth surfaces and uniform bead‐free morphology with core‐shell structure. The average fiber diameter was 301.55 ± 76.77 nm with a narrow distribution. Using the Korsmeyer‐Peppas kinetic release model, the nanofiber membrane effectively released ∼85% CCM at pH 7.4 over 96 h via Fickian diffusion transport mechanism. In vitro antibacterial tests demonstrated that the membrane was efficient against both Gram‐positive (Staphylococcus aureus) and Gram‐negative (Pseudomonas aeruginosa) bacteria. When compared to free CCM, the membrane improved cell survival due to its nontoxic and cytobiocompatible features. In vivo tests found that the membrane significantly improved healing in incised‐wound rats, reducing inflammation, fibroblast proliferation, and collagen deposition. These findings indicate that the novel PVA/CCM@CS/PVA/CC nanofiber membrane, which has numerous biological functions, could be a promising candidate for wound dressing therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effects of exogenous calcium and calcium inhibitor on physiological characteristics of winter turnip rape (Brassica rapa) under low temperature stress.

Author

Junyan, Wu, Qiaowen, Pan, Fahim, Abbas Muhammad, Lulu, Zhang, Hui, Gong, Lijun, Liu, Gang, Yang, Wangtian, Wang, Yuanyuan, Pu, Yan, Fang, Li, Ma, and Wancang, Sun

Abstract

Low temperature is one of the environmental factors that restrict the growth and geographical distribution of Brassica. To investigate the effects of exogenous calcium and calcium inhibitor on the ability of winter turnip rapeseed (Brassica rapa L.) to withstand low temperatures (4℃), we used a strong cold-resistant variety Longyou 7 (L7) and a weak cold-resistant variety Longyou 99 (L99) as the materials. The seedlings were treated with CaCl2 (20 mmol·L-1) and calcium inhibitor LaCl3 (10 mmol·L-1) at 0 h (CK), 6 h, 12 h, 24 h and 48 h after 4℃ treatments. Physiological characteristics, Ca2+ flux and Ca2+ concentration in roots after treatments were analyzed. Results illustrated that under 4℃ treatment, activities of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT) increased by both CK and exogenous CaCl2 treatments. Contents of soluble protein (SP) and proline (Pro) increased, while contents of malondialdehyde (MDA) decreased, resulting in reduced membrane lipid peroxidation. But enzyme activity decreased and MDA content increased following treatment with exogenous LaCl3. The rate of Ca2+ flow showed a higher uptake in L7 roots compared with L99. L99 showed Ca2+ efflux with a rate of 30.21 pmol‧cm-2‧s-1, whereas L7 showed short efflux then returned to influx. Calcium ion content in roots decreased in both cultivars after CaCl2 treatment. Results of RNA-seq revealed that genes were differentially expressed in response to low temperatures, hormones, photosystem II, chloroplasts, DNA replication, ribosomal RNA processing, and translation. This study found significant expression genes related to cellular signal transduction (MAPK signaling pathway) and material metabolism (nitrogen metabolism, glycerol ester metabolism).It was also analyzed by WGCNA that two modules had the strongest correlation with physiological indicators. Eight candidate genes were identified among MAPK signaling pathway and the two modules. [ABSTRACT FROM AUTHOR]

Published

2024

10. Reducing non-cohesive soil erodibility through enzyme-induced carbonate precipitation.

Author

Zhou, Yingzheng, Guan, Dawei, Cheng, Liang, Chiew, Yee-Meng, and Zheng, Jinhai

Subjects

*SEDIMENT transport, *SOIL cement, *CALCIUM carbonate, *CALCIUM chloride, *EROSION

Abstract

Enzyme-induced carbonate precipitation (EICP), which precipitates calcium carbonate within the soil matrix to cement the granular grains, presents a promising bio-mediated approach for scour countermeasures. This study explores the erosion performance of bio-cemented sand in a closed-conduit flume system, investigating the effectiveness of EICP in mitigating scour and reducing erodibility. Various parameters such as curing duration, cementation degrees and urease activities are examined to understand their influence on erosion behaviors. Furthermore, the study incorporates the analysis of calcium carbonate content and crystal microstructure to provide a better understanding on the EICP mechanism in scour mitigation. These results highlight the critical role of the interaction between calcium carbonate content and crystal features in determining the effectiveness of erodibility reduction. As the precipitated amount increases, the cemented soil exhibits enhanced hydraulic erosion resistance, with the erosion mode shifting from particle erosion and aggregated detachment to chunk fracture. In other words, the mode of sediment transport essentially is affected by the variations in crystal size, crystal quantities and deposited morphology. Two predictive formulas for threshold Shields parameter and erosion rate are also developed. Notably, the cemented soil could maintain its stability under an elevated flow of 4 m/s under an EICP treatment with 1 M of urea and calcium chloride, and a curing duration of 24 h. These findings are anticipated to serve as a valuable theoretical foundation for engineering applications. [ABSTRACT FROM AUTHOR]

Published

2024

11. Seawater-based soybean urease for calcareous sand biomineralization.

Author

Cui, Ming-Juan, Zhou, Jia-Ni, Lai, Han-Jiang, Zheng, Jun-Jie, Huang, Ming, and Zhang, Zhi-Chao

Subjects

*CALCIUM ions, *UREASE, *MICROSCOPY, *CONSTRUCTION materials, *CALCIUM chloride, *TURBIDITY

Abstract

In tropical islands, calcareous sand with poor engineering properties usually needs to be treated before it can be used as building materials. Considering the scarcity of freshwater in these areas, this study proposes seawater-based enzyme induced carbonate precipitation (EICP) technology to enhance the properties of calcareous sand. It is to induce calcium carbonate crystals to bond calcareous sand particles together using the seawater-based crude soybean enzyme and cementation solution (i.e., urea and calcium chloride). In this study, the crude soybean urease extraction test was firstly carried out using seawater and it was also investigated what components of seawater had a greater effect on the soybean urease extraction. Afterwards, the solution test was conducted to explore the ability of the extracted urease in inducing calcium carbonate through analyzing the variation of concentration of calcium ions and pH of the solution. Finally, the biocementation effect of EICP treated calcareous sand using the seawater extracted urease solution was evaluated by the unconfined compressive strength (quc) and microscopic analysis. Test results show that the turbidity of the seawater-extracted soybean urease solution can be reduced by 66.7% compared to that of deionised water extracted urease, with only a slight reduction in urease activity. Among all the components of seawater, NaCl, MgCl2, CaCl2, NaHCO3 and KBr can significantly reduce the turbidity of soybean urease solution. The lower turbidity can effectively avoid bioclogging and contribute to the homogeneity of the EICP-treated calcareous sands, and thus improve the biomineralization efficiency and strength enhancement. Seawater-based EICP treatment will be a great promising technology in freshwater-scarce tropical islands, because it can directly use seawater for biomineralization treatment of calcareous sand, and meanwhile effectively avoid local clogging of biocementation. [ABSTRACT FROM AUTHOR]

Published

2024

12. Ratios of calcium to citrate administration in blood transfusion for traumatic hemorrhage: A retrospective cohort study.

Author

Alghanem, Husam, Liu, Nathan Chi‐Ping, Gupta, Atul, Liao, Chuanhong, Wool, Geoffrey David, Rubin, Daniel Steven, and Carll, Timothy

Subjects

*RED blood cell transfusion, *RECEIVER operating characteristic curves, *BLOOD transfusion, *BLOOD products, *CALCIUM chloride

Abstract

Background Study Design and Methods Results Discussion Massive transfusion with citrated blood products causes hypocalcemia, which is associated with mortality. Recognition of this problem has led to increased calcium administration; however, the optimal dosing is still unknown.This retrospective, single‐center study included level 1 trauma patients in 2019 and 2020 who underwent an operation within 12 h of arrival and received a transfusion. Preoperative and intraoperative administrations were totaled to calculate the ratio of administered calcium to the number of blood transfusions for each patient. The citrate content of each blood component was estimated to calculate a second ratio, the ratio of administered calcium to administered citrate. Receiver Operating Characteristic (ROC) curves were performed on both ratios to determine the optimal cutoff values for predicting severe hypocalcemia (ionized calcium <0.9 mmol/L) and hypercalcemia (>1.35 mmol/L) at the end of the intraoperative period.A total of 506 trauma activations were included, receiving a mean of 17.4 citrated blood products and 16.3 mmol of calcium (equivalent to 2400 mg of calcium chloride). No ratio was statistically significant in differentiating severely hypocalcemic patients from the rest. A calcium to blood ratio of 0.903 mmol of administered calcium per citrated blood product differentiated hypercalcemic patients from the rest.Quantifying received calcium and citrated blood products was insufficient to predict severe hypocalcemia, suggesting other contributions to hypocalcemia. We demonstrated an upper‐limit ratio for calcium administration in traumatic hemorrhage; however, further studies are required to determine what calcium dosing regimen results in the best outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Local calcium chloride infusion after pulsed field ablation enhances acute efficacy of cardiac electroporation.

Author

Koya, Taro, Otsuka, Naoto, Tri, Jason A., Sauer, William H., Asirvatham, Samuel J., and Nguyen, Duy T.

Subjects

*ENERGY levels (Quantum mechanics), *CALCIUM chloride, *ARRHYTHMIA, *ATRIUMS (Architecture), *CALCIUM, *ELECTROPORATION

Abstract

Introduction Methods Results Conclusion Pulsed field ablation (PFA) has emerged as an innovative therapy for cardiac arrhythmias. Drawing parallels with PFA's application in solid tumors, calcium chloride (CaCl2) as an adjuvant therapy, known as calcium electroporation, may amplify PFA's apoptotic effects. We propose that PFA in the atrium could enhance calcium uptake through PFA‐created pores, thereby increasing ablation efficacy even at reduced power levels by exploiting PFA's permeabilization effects.We conducted in vivo ablations on the atria of seven pigs using low PFA power (250 V, 20 μs for 50 pulses at 200 ms intervals). Post‐PFA, we randomly administered an infusion of either 200 mg/2 ml CaCl2 (calcium group) or saline (control) directly to the ablation site via the catheter tip. We evaluated reduction in electrogram voltage amplitude, electrocardiography (ECG) parameters, ablation lesion parameters, and histology after PFA.Nineteen lesions from control and calcium groups were examined. Control lesions showed no voltage decrease post‐PFA, whereas calcium‐treated lesions exhibited a significant voltage reduction. Gross pathology indicated marked differences in maximum lesion surface diameter, depth, and volume between the lesion groups. Histologically, calcium group lesions were characterized by a more severe acute PFA response with contraction band necrosis, myocytolysis and nuclear pyknosis in adjacent myocardium, in addition to microhemorrhages.Infusing calcium chloride locally after PFA markedly improves the immediate efficacy of electroporation in porcine atria. This study suggests that calcium electroporation could bolster PFA outcomes without higher energy levels, potentially diminishing associated risks. These preliminary findings warrant further research into the long‐term efficacy and potential clinical application of calcium electroporation in PFA. [ABSTRACT FROM AUTHOR]

Published

2024

14. Taking a Breather From Pulmonary Aspiration and a Multidrug Ingestion.

Author

Carmona Jr, Carlos A. and Miller Ferguson, Nikki

Subjects

*DRUG overdose, *PHYSICAL diagnosis, *ADULT respiratory distress syndrome, *BLOOD testing, *MULTIPLE organ failure, *COMPUTED tomography, *ADRENALINE, *HEMODIALYSIS, *ELECTROCARDIOGRAPHY, *CALCIUM chloride, *ARTIFICIAL respiration, *DIPHENHYDRAMINE, *CARDIOPULMONARY resuscitation, *IBUPROFEN

Abstract

The article focuses on a teenage male who was admitted to the pediatric intensive care unit (PICU) after a mixed overdose, presenting with severe symptoms including low Glasgow Coma Scale (GCS), fixed dilated pupils, and metabolic and respiratory acidosis. Topics include the patient's clinical presentation and initial lab findings, the management of his overdose with intubation and supportive care, and the subsequent monitoring of his vital signs and neurological status in the PICU.

Published

2024

15. Microencapsulation of betacyanins accumulated calli, short-term cold storage, and retrieval of callus in Selenicereus undatus (Haw.) D.R. Hunt.

Author

Manokari, Mani, Faisal, Mohammad, Alatar, Abdulrahman A., and Shekhawat, Mahipal S.

Subjects

*PITAHAYAS, *FRUIT skins, *CALCIUM chloride, *SODIUM alginate, *COLD storage

Abstract

• The red color of the dragon fruit pulp and peel is due to the accumulation of betacyanins. • The betacyanin accumulated calli were encapsulated using sodium alginate and calcium chloride. • The synseeds were cold stored for 6 months at 4.0 °C temperature. • The synseeds were germinated and calli formed on nutrient media. • The betacyanin-loaded synseeds could be stored, transported, and directly used as inoculum for cell cultures to produce betacyanin. The red color of dragon fruit pulp and peel is due to the accumulation of betacyanins. In the present study, callus cultures were established using in vitro germinated seedlings of the white dragon fruit plant (Selenicereus undatus). Murashige and Skoog (MS) medium with 6-benzylaminopurine (BAP) at 2.0 mg/L was used to induce red-colored friable callus (92.0 % response). The betacyanin accumulated calli were harvested and encapsulated using sodium alginate (NaC 6 H 7 O 6) and calcium chloride (CaCl 2). These synseeds were cold stored for 6 months at 4.0 °C temperature. The stored synseeds were germinated on 2.0 mg/L BAP in the medium. The highest germination rate (88 %) of synseeds was achieved with 3 % sodium alginate polymerized with 75 mM calcium chloride, resulting in firm, uniform, and round synseeds. The betacyanin-loaded synseeds could be stored, transported, and directly used as inoculums for the extensive proliferation of calli and cell cultures for the commercial production of betacyanin. [ABSTRACT FROM AUTHOR]

Published

2024

16. 烫漂结合氯化钙对大头菜预处理工艺研究.

Author

周莺茹, 袁先铃, 杜冬梅, and 林洪斌

Abstract

Copyright of China Condiment is the property of China Condiment and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

17. Developing a novel calcium silver zeolite for caries management.

Author

Li, Laura Jiaxuan, Lung, Christie Ying-Kei, Ge, Kelsey Xingyun, Song, Ke, Chu, Chun-Hung, and Yu, Ollie Yiru

Subjects

ELECTRON microscopy, GINGIVA, STREPTOCOCCUS mutans, SILVER nitrate, BIOMEDICAL materials, ANTI-infective agents, FIBROBLASTS, CANDIDA albicans, CALCIUM chloride, ALUMINUM silicates, SCANNING electron microscopy, LACTOBACILLUS acidophilus, DENTAL caries, MICROSCOPY

Abstract

Objective: To develop a novel calcium silver zeolite (Ca-Ag-Zeo) and assess its biocompatibility, physiochemical properties and antimicrobial effects. Methods: Ca-Ag-Zeo was synthesized using ion-exchange method with calcium chloride, silver nitrate and Zeolite X (Zeo). Silver zeolite X (Ag-Zeo) and Zeo were set as control. The chemical structure, morphology, crystal structure and elemental composition of Ca-Ag-Zeo was characterized by X-ray diffraction spectrum, scanning electron microscopy, transmission electron microscopy and energy dispersive spectroscopy, respectively. Its biocompatibility on the human gingival fibroblasts was assessed by cell counting kit-8 assay. Its physiochemical properties were determined by the released calcium and silver ion using Inductive Coupled Plasma Emission Spectrometry for up to 12 weeks. The antimicrobial properties on Streptococcus mutans, Lactobacillus acidophilus, Lactobacillus casei, and Candida albicans were assessed by minimum bactericidal concentration (MBC) or minimum fungicidal concentration (MFC) assay. Results: Ca-Ag-Zeo with a hexagonal cage structure was synthesized. As for biocompatibility, the half-maximal inhibitory concentration (± SD in mg/mL) of Ca-Ag-Zeo, Ag-Zeo and Zeo in human gingival fibroblasts were 0.52 ± 0.05, 0.15 ± 0.01 and 3.35 ± 0.58, respectively (Zeo > Ca-Ag-Zeo > Ag-Zeo; p < 0.05). As for physiochemical properties, the accumulated ion release (± SD in mg) of Ca-Ag-Zeo, Ag-Zeo and Zeo were 0.011 ± 0.003, 0 and 0 for calcium ion, respectively (Ca-Ag-Zeo > Ag-Zeo, Zeo; p < 0.001), and 0.213 ± 0.032, 0.209 ± 0.019 and 0 for silver ion, respectively (Ca-Ag-Zeo, Ag-Zeo > Zeo; p < 0.001). As for anti-microbial ability, the MBC/MFC (mg/mL) of Ca-Ag-Zeo, Ag-Zeo and Zeo were 32, 16 and > 256 against Streptococcus mutans; 32, 16, > 256 against Lactobacillus acidophilus; 16, 16, and 256 against Lactobacillus casei; 0.25, 0.125; and 2, 1, > 256 against Candida albicans, respectively. Conclusion: A novel Ca-Ag-Zeo was developed. It presented better biocompatibility compared to Ag-Zeo. It released calcium and silver ions sustainably, and it could inhibit the growth of common cariogenic microorganisms. [ABSTRACT FROM AUTHOR]

Published

2024

18. pH-sensitive nanoformulation of acetyl-11-keto-beta-boswellic acid (AKBA) as a potential antiproliferative agent in colon adenocarcinoma (in vitro and in vivo).

Author

Ale-Ahmad, Atiyeh, Kazemi, Sohrab, Daraei, Abdolreza, Sepidarkish, Mahdi, Moghadamnia, Ali Akbar, and Parsian, Hadi

Subjects

*DRUG delivery systems, *CONTROLLED release drugs, *GUMS & resins, *COLORECTAL cancer, *TREATMENT effectiveness

Abstract

Background: Developing a drug delivery system that can transport a higher concentration to the target cells can improve therapeutic efficacy. This study aimed to develop a novel delivery system for acetyl-11-keto-beta-boswellic Acid (AKBA) using chitosan-sodium alginate–calcium chloride (CS-SA-CaCl2) nanoparticles. The objectives were to evaluate the antiproliferative activity of these nanoparticles against colorectal cancer (CRC) cells and to improve the bioavailability and therapeutic efficacy of AKBA. Results: With an extraction efficiency of 12.64%, AKBA was successfully extracted from the gum resin of B. serrata. The nanoparticle delivery system exhibited superior cytotoxicity against HT29 cells compared to free AKBA, AKBA extract (BA-Ex), and 5-FU. Furthermore, the nanoformulation (nano-BA-Ex) induced apoptosis in HT29 cells more effectively than the other treatments. In vivo results showed that nanoformulation inhibited chemically induced colon tumorigenesis in mice and significantly reduced the number of aberrant crypt foci (ACFs). Conclusions: The developed CS-SA-CaCl2 nanoparticles loaded with AKBA extract exhibit potential as a potent drug delivery mechanism for the colorectal cancer model. Nano-BA-Ex is a promising strategy for enhancing the solubility, bioavailability, and therapeutic efficacy of BA derivatives. With its multiple effects on cancer cells and controlled drug release through nanocapsules, nano-BA-Ex stands out as a compelling candidate for further preclinical and clinical evaluation in CRC therapy. [ABSTRACT FROM AUTHOR]

Published

2024

19. Features of Thermodynamic Conditions of the Formation and the Gas Composition in Natural Gas Hydrates Obtained in a Dispersed Medium with Aqueous Calcium Chloride.

Author

Portnyagin, A. S., Ivanova, I. K., Kalacheva, L. P., Ivanov, V. K., and Portnyagina, V. V.

Subjects

*GAS hydrates, *POLYMER blends, *POLYMER solutions, *BIOPOLYMERS, *CALCIUM chloride, *METHANE hydrates, *NATURAL gas

Abstract

Results are given for a study of the thermodynamic conditions of the natural gas hydrates formation in a dispersed medium saturated with water, polymer solutions and their mixtures with aqueous CaCl2 as well as the gas composition in the resultant hydrates. Natural gas in all studied systems is found to form a mixture of hydrates of methane (first-stage hydrates with cubic structure I) and of natural gas (second-stage hydrates with cubic structure II). The equilibrium conditions of the second-stage hydrates formation are shifted toward higher temperatures by 0.5-1°C relative to the calculated equilibrium curve, this is probably caused by the concentration of C2-C4 hydrocarbons in the hydrate. The presence of CaCl2 leads to a shift of the equilibrium conditions of the second-stage hydrates formation in comparison to the calculated curves toward higher temperatures and lower pressures with an increase of C2-C4 components in the hydrates. No specific effect was found for CaCl2 on the thermodynamic conditions of natural gas hydrate formation in a dispersed medium in a mixture with polymer solutions since these data obtained for the equilibrium conditions of the natural gas hydrates formation are identical with the data obtained upon hydrate formation in solutions of CaCl2 and water. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effect of Calcium on the Setting Time and Mechanical Property of a Red Mud–Blast Furnace Slag-Based Geopolymer.

Author

Chen, Yuxiang, Wu, Shengping, Huang, Hanhui, Rao, Feng, and Yang, Lang

Subjects

*X-ray photoelectron spectroscopy, *CALCIUM compounds, *LIME (Minerals), *SCANNING electron microscopes, *CALCIUM chloride

Abstract

This study aims to compare the effects of three calcium compounds on the workability, setting time and mechanical properties of red mud (RM)–blast furnace slag (BFS)-based geopolymers. The crystalline phase, hydration process and microstructure of RM-BFS-based geopolymers were characterized by X-ray diffraction (XRD), heat evolution, X-ray photoelectron spectroscopy (XPS), and scanning electron microscope (SEM) tests. The results showed that an appropriate amount of calcium compounds can improve the flowability and compressive strength of the geopolymers, but the excessiveness causes a decrease in strength due to rapid hardening. Other than calcium carbonate, both calcium oxide and calcium chloride played important roles in accelerating the setting times of RM-BFS-based geopolymers. The acceleration in the setting times of geopolymers could be attributed to the calcium hydroxide produced by the dissolution of the calcium compounds, which also provides nucleation sites for the geopolymerization reaction. This study gives new insights into the effect of calcium on the setting times and mechanical properties of geopolymers in the geopolymerization process. [ABSTRACT FROM AUTHOR]

Published

2024

21. The empty code cart: Drug shortages over time.

Author

Gentile, Tyler, Snee, Isabel, Heinrichs, Dorothy, Hockstein, Max A, Mazer-Amirshahi, Maryann, and Fox, Erin R

Subjects

*GLUCOSE, *PATIENT safety, *MEDICAL quality control, *CRASH carts (Emergency medicine), *DRUG storage, *INVENTORY shortages, *DESCRIPTIVE statistics, *TIME series analysis, *PATIENT care, *MEDICAL supplies, *SUPPLY chains, *PHARMACY information services, *PHARMACEUTICAL industry, *CALCIUM chloride, *ATROPINE, *MANUFACTURING industries, *DRUGS, *TIME

Abstract

Purpose In high-acuity situations such as cardiac arrest, clinicians rely on prepared medications stocked in code carts to provide timely and accurate pharmacotherapy. We examined shortage trends for medications commonly used in code carts. Methods Drug shortage data from 2001 to 2022 were retrieved from the University of Utah Drug Information Service (UUDIS) to characterize shortages reported for commonly used code cart medications. Data extracted included the number of shortages, shortage duration, drug characteristics, and reason for the shortage. Results From 2001 to 2022, 71 drug shortages for code cart medications were reported. The number of new shortages peaked in 2010, and the number of total shortages peaked in 2010. At the end of the study period, 61 (84.7%) shortages had been resolved. For resolved shortages, the mean shortage duration was 18.2 months. The drug with the greatest number of reported shortages was dextrose (10 total), the drug with the longest resolved shortage was calcium chloride injection (116 months), and the drug with the longest active shortage was atropine injection (165 months at the end of the study period). Throughout the entire study period, only 2 suppliers provided commercially available prefilled syringes of dextrose for stocking on code carts. The most common reason for shortages, when reported, was manufacturing delays. Conclusion Medications commonly used in code carts were frequently impacted by drug shortages, which have the potential to impact patient care. Institutional protocols for mitigation and larger efforts to promote a more resilient drug supply chain are critical to ensure patient safety and quality care. [ABSTRACT FROM AUTHOR]

Published

2024

22. Deciphering the Effects of Different Calcium Sources on the Plant Growth, Yield, Quality, and Postharvest Quality Parameters of 'Tomato'.

Author

Haider, Sakeena Tul-Ain, Anjum, Muhammad Akbar, Shah, Muhammad Nadeem, Hassan, Adeeb Ul, Parveen, Maqsooda, Danish, Subhan, Alharbi, Sulaiman Ali, and Alfarraj, Saleh

Subjects

VITAMIN A, VITAMIN K, CALCIUM sulfate, SUPEROXIDE dismutase, FRUIT storage, CALCIUM chloride, 1-Methylcyclopropene, TOMATOES

Abstract

Tomatoes are one of the most important vegetables in every home, especially in South Asian countries, used as a vegetable, ketchup, and condiment in many kitchen recipes. It is a good source of calcium, potassium, folate, vitamin A, vitamin K, and lycopene, which are beneficial for the human body and protect it against different diseases. Nutrient management is a key factor for the best quality production of tomato fruit. The present study was conducted to compare the efficiency of different calcium salts (calcium sulphate, calcium carbonate, calcium nitrate, and calcium chloride) in improving the growth, yield, and other quality-related parameters of tomatoes. A single field experiment was conducted and laid out according to the Randomized Complete Block Design (RCBD) with a single factor in the field and a Complete Randomized Design (CRD)) for postharvest fruit storage. The results obtained from this experiment suggest that plants treated with 2% calcium chloride solution exhibited the greatest plant height (85.27 cm), number of leaves (221), yield per plant (2.3 kg), ascorbate peroxidase (290.75 m mol s−1 kg−1), superoxide dismutase (7.13 m mol s−1 kg−1), catalase (18.74 m mol s−1 kg−1), total phenolics (2.44 mg g−1), and β carotene (0.48 µg g−1). During postharvest storage, the maximum shelf life (18 days), minimum disease incidence (4.78%), weight loss (6.61%), and ethylene production (119.6 µL C2H4 kg−1h−1) rate were also observed in calcium-treated fruits. [ABSTRACT FROM AUTHOR]

Published

2024

23. Improving Cuticle Thickness and Quality Traits in Table Grape cv. 'Italia' Using Pre-Harvest Treatments.

Author

La Spada, Paolo, Continella, Alberto, Dominguez, Eva, Heredia, Antonio, and Gentile, Alessandra

Subjects

TABLE grapes, GRAPE growing, ASCOPHYLLUM nodosum, CALCIUM chloride, SALICYLIC acid

Abstract

Table grape viticulture, due to the impact of climate change, will have to face many challenges in the coming decades, including resistance to pathogens and physiological disorders. Our attention was focused on fruit cracking due to its ubiquitous presence in several species. This study explores the effects of three different treatments on the epidermis and cuticle of table grape berries by evaluating the impact of the girdling technique on various fruit quality parameters, including cuticle thickness, sugar content, acidity, color, bunch weight, and rheological properties. The treatments were (1) calcium chloride (CaCl2), (2) calcium chloride + salicylic acid (CaCl2 + SA), and (3) calcium chloride + Ascophyllum nodosum (CaCl2 + AN), with and without girdling, plus an untreated control. This research was conducted over the 2021–2022 growing season in a commercial vineyard in Licodia Eubea, Sicily, Italy. The results indicate significant variations in cuticle thickness and other qualitative traits throughout the growth and ripening phases, with notable differences depending on the treatment used. This study's findings suggest that specific treatments can influence the structural integrity of the grape cuticle, potentially impacting the fruit's susceptibility to cracking and overall marketability. The findings provide valuable insights into the role of chemical treatments and cultural techniques in enhancing fruit quality and resistance to environmental stresses in table grape cultivation. [ABSTRACT FROM AUTHOR]

Published

2024

24. Chitosan/Sodium Alginate Hydrogel for the Release of Berberine as an Algae Suppressant: RSM Optimization and Analysis of Sustained Release Characteristics.

Author

Wang, Yingjun, Wu, Mengting, Tang, Panyang, and Jiang, Dongmei

Subjects

CYANOBACTERIAL blooms, RESPONSE surfaces (Statistics), FLOWERING time, MICROCYSTIS aeruginosa, CALCIUM chloride, SODIUM alginate, BERBERINE, CYANOBACTERIAL toxins

Abstract

In this study, we used chitosan/sodium alginate hydrogel as a carrier to prepare berberine sustained-release capsule materials that can inhibit algae for a long time and safely. The preparation conditions of the material were optimized by the response surface method, and the optimized capsule material was characterized and the sustained release characteristics were analyzed to study the change of the algae inhibition effect of the material within 30 days. The results showed that the optimum preparation parameters of the material were 0.54% chitosan content, 2.46% sodium alginate content and 1.09% anhydrous calcium chloride content by response surface optimization design, which was consistent with the parameters set by each factor at the central point. The algae inhibition rate of the material under this preparation condition was 93.75 ± 1.01%, which was similar to the predicted value. The release characteristics analysis showed that the material continuously released up to 90% of berberine within 24 days, and its release characteristics were sustained release after burst release, with good sustained release effect. The results of material characterization showed that chitosan/sodium alginate hydrogel could effectively load berberine and was beneficial to the loading and release of berberine. The results of algae inhibition experiments showed that low concentration materials could control the outbreak of cyanobacterial blooms in a short time, while under high concentration conditions, the materials could inhibit Microcystis aeruginosa efficiently and for a long time. [ABSTRACT FROM AUTHOR]

Published

2024

25. Density of pure and mixed NaCl and CaCl2 aqueous solutions at 293 K to 353 K and 0.1 MPa: an integrated comparison of analytical and numerical data

Author

Ulrike Hoffert, Laurent André, Guido Blöcher, Sylvain Guignot, Arnault Lassin, Harald Milsch, and Ingo Sass

Subjects

Density, Geothermal fluid, Sodium chloride, Calcium chloride, Geothermal energy, Renewable energy sources, TJ807-830, Geology, QE1-996.5

Abstract

Abstract This study reports on newly acquired density data of synthetically prepared pure and mixed NaCl and CaCl2 aqueous solutions that span a wide range of geothermally encountered concentrations and mixing ratios. The analytical data are provided for the temperature range of 293–353 K at ambient pressure. For the reproduction of that data, PHREESCALE was used. The predictive potential of this numerical tool regarding the density of geothermal fluids of known composition was the major target herein. As a result, the measured data are in good agreement with previous analytical studies found in the literature. Possible sources of errors are discussed in this paper. Density data of the mixed solutions at temperatures other than ambient are unique and close existing data gaps. The numerical model reproduces the newly measured and already existing density data within an error band of approximately 1%. For further use in geothermal applications, this can be considered an excellent agreement. Moreover, the model yields a direct calculation of density without the need to establish complex empirical equations of state and mixing rules. Finally, sensitivity calculations performed with a thermal–hydraulic (TH) numerical reservoir model demonstrate the required accuracy of fluid density for reliably predicting the long-term performance of deep geothermal energy systems. In terms of the productivity index and the timing of thermal breakthrough it shows that the present analytical and numerical uncertainty in density is small enough to reliably state both reservoir parameters.

Published

2024

26. Effects of exogenous calcium and calcium inhibitor on physiological characteristics of winter turnip rape (Brassica rapa) under low temperature stress

Author

Wu Junyan, Pan Qiaowen, Abbas Muhammad Fahim, Zhang Lulu, Gong Hui, Liu Lijun, Yang Gang, Wang Wangtian, Pu Yuanyuan, Fang Yan, Ma Li, and Sun Wancang

Subjects

Winter turnip rapeseed, Low temperature, Calcium chloride, Lanthanum chloride, Antioxidant enzyme activity, Botany, QK1-989

Abstract

Abstract Low temperature is one of the environmental factors that restrict the growth and geographical distribution of Brassica. To investigate the effects of exogenous calcium and calcium inhibitor on the ability of winter turnip rapeseed (Brassica rapa L.) to withstand low temperatures (4℃), we used a strong cold-resistant variety Longyou 7 (L7) and a weak cold-resistant variety Longyou 99 (L99) as the materials. The seedlings were treated with CaCl2 (20 mmol·L-1) and calcium inhibitor LaCl3 (10 mmol·L-1) at 0 h (CK), 6 h, 12 h, 24 h and 48 h after 4℃ treatments. Physiological characteristics, Ca2+ flux and Ca2+ concentration in roots after treatments were analyzed. Results illustrated that under 4℃ treatment, activities of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT) increased by both CK and exogenous CaCl2 treatments. Contents of soluble protein (SP) and proline (Pro) increased, while contents of malondialdehyde (MDA) decreased, resulting in reduced membrane lipid peroxidation. But enzyme activity decreased and MDA content increased following treatment with exogenous LaCl3. The rate of Ca2+ flow showed a higher uptake in L7 roots compared with L99. L99 showed Ca2+ efflux with a rate of 30.21 pmol‧cm-2‧s-1, whereas L7 showed short efflux then returned to influx. Calcium ion content in roots decreased in both cultivars after CaCl2 treatment. Results of RNA-seq revealed that genes were differentially expressed in response to low temperatures, hormones, photosystem II, chloroplasts, DNA replication, ribosomal RNA processing, and translation. This study found significant expression genes related to cellular signal transduction (MAPK signaling pathway) and material metabolism (nitrogen metabolism, glycerol ester metabolism).It was also analyzed by WGCNA that two modules had the strongest correlation with physiological indicators. Eight candidate genes were identified among MAPK signaling pathway and the two modules.

Published

2024

27. Treatment effects on the quality and shelf life of the cape gooseberry (Physalis peruviana L.) Corpoica Andina

Author

María Cristina García-Muñoz, Martha Patricia Tarazona Diaz, and Andrea Carolina Duarte Morales

Subjects

sodium hypochlorite, calcium chloride, quality physicochemical properties, refrigeration, Agriculture (General), S1-972, Food processing and manufacture, TP368-456

Abstract

The Cape gooseberry (Physalis peruviana L.) is renowned for its distinctive appearance and functional properties. Colombia has emerged as the world's leading producer and exporter of Cape gooseberries, with annual export growth of 1.2%, predominantly to countries such as the USA and the Netherlands. Traditionally sold with its calyx intact to minimize water loss and deterioration, recent interest in selling Cape gooseberries without the calyx to reduce volume has raised concerns regarding shelf life. Consequently, research has pivoted toward post-harvest management to extend shelf life. An experiment was conducted to explore various treatments and temperatures (5, 10, and 18 ℃), meticulously monitoring fruit quality over time. Findings underscore that calcium chloride and refrigerated storage at 10 ℃ preserve the quality of the Cape gooseberry fruit for up to 20 days. Moreover, temperature and time exerted a significant influence on fruit quality and physicochemical properties, with interactions impacting conservation methods. The application of calcium chloride as a barrier method yielded optimal preservation outcomes, safeguarding key fruit properties. Conversely, sodium hypochlorite treatment at 18 ℃ accelerated fruit ripening owing to heightened respiratory intensity. This study not only sheds light on effective preservation strategies for Cape gooseberries but also underscores the intricate interplay between environmental factors and post-harvest management techniques. By enhancing our understanding of these dynamics, the study catalyzes advancements in fruit preservation practices, thereby fortifying the agricultural and economic sectors, both domestically and internationally.

Published

2024

28. Fly ash degree of reaction in hypersaline NaCl and CaCl2 brines: Effects of calcium-based additives

Author

Collin, Marie, Song, Yu, Prentice, Dale P, Arnold, Ross A, Ellison, Kirk, Simonetti, Dante A, Bauchy, Mathieu, and Sant, Gaurav N

Subjects

Civil Engineering, Engineering, Built Environment and Design, Building, Coal Ash, Refuse Disposal, Calcium, Sodium Chloride, Calcium Chloride, Fly ash, Hypersaline brine, Solidification and stabilization, Thermodynamic modeling, Chemical reactivity, Environmental Engineering, Environmental Sciences, Chemical engineering, Environmental management

Abstract

The pozzolanic reaction of fly ashes with calcium-based additives can be effectively used to solidify and chemically stabilize (S&S process) highly concentrated brines inside a cementitious matrix. However, complex interactions between the fly ash, the additive, and the brine typically affect the phases formed at equilibrium, and the resulting solid capacity to successfully encapsulate the brine and its contaminants. Here, the performances of two types of fly ash (a Class C and Class F fly ash) are assessed when combined with different additives (two types of cement, or lime with and without NaAlO2), and two types of brine (NaCl or CaCl2) over a range of concentrations (0 ≤ [Cl-] ≤ 2 M). The best performing matrices - i.e., the matrices with the highest Cl-containing phases content - were identified using XRD and TGA. The experimental results were then combined with thermodynamic modeling to dissociate the contribution of the fly ash from that of the additives. All results were implemented in a machine learning model that showed good accuracy at predicting the fly ash degree of reaction, allowing for the robust prediction of extended systems performance when combined with thermodynamic modeling.

Published

2023

29. Experimental study on soil improvement by electrochemical injection of calcium chloride solutions with time interval

Author

Shaoyang Han, Baotian Wang, Yu Wang, Wenpeng Liu, Chenghao Chen, and Yijiang Zhang

Subjects

Soil improvement, Electrochemical treatment, Time interval, Calcium chloride, Treatment region, Medicine, Science

Abstract

Abstract An improved electroosmotic method is proposed in this paper to enhance the non-uniform effect and efficiency of electroosmotic process. Such method is electroosmotic flow with injection of calcium chloride through the anode, followed by injection through the central tube (a tube at the midpoint between the anode and the cathode) with a suitable time interval between injections. Experimental results indicate that using this method can significantly improve the non-uniform reduction in water content throughout the soil, mitigate the formation of cracks in the anode section, and therefore considerably inhibit the increase in the electric resistance. After treatment, the drained water could be raised to 3.59 times more than that of pure electroosmotic flow, and 1.3 times that of simultaneous injection through both the anode and the central tube with considerably slight increase in power consumption. Moreover, the area of cementation was also expanded, approximately twice larger than that of pure electroosmotic flow and one and a half that of simultaneous injection. It is also worth noting that the proposed method performs better with the same power consumption. The results demonstrate that electroosmotic flow with a suitable time interval between injections could improve the efficiency of electroosmotic process and expand the treatment region in soils, hence can be a promising and economic technique for soil improvement in practical engineering.

Published

2024

30. Optimization of Ultrasound Assisted Tenderizing Agents for Improving the Meat Tenderness of Eliminated Hen and Its Effects on Meat Qualities

Author

Ping WU, Fang YAO, Zhengyun WANG, Xingpu QI, Wei ZHANG, Huanxin ZHANG, Tao YANG, and Jiaxin ZHOU

Subjects

ultrasound, tenderization, chicken breast meat, protease, calcium chloride, myofibrillar protein, amino acid, microstructure, Food processing and manufacture, TP368-456

Abstract

In order to screen for meat tenderization treatment methods targeting a large number of eliminated laying hens in poultry farms, the ultrasound combined with calcium chloride and biological enzyme methods were used to tenderize chicken breast meat. The shear force was chosen as the key indicator, and the optimal ultrasound parameters were selected. The texture, water retention, protein distribution, total thiol and amino acid contents as well as the microstructure changes were mainly analyzed. Results showed that the optimal ultrasound parameters were ultrasound of 240 W, frequency of 22 kHz, water bath temperature of 35 ℃, and treatment time of 10 minutes. Compared to the untreated group, the shear force of chicken breast meat significantly decreased (P

Published

2024

31. Physicochemical and Emulsifying Properties of Melia azedarach Gum.

Author

Asamoa Mensa, Kofi Acheampong, Kuntworbe, Noble, Osei, Yaa Asantewaa, El Boakye-Gyasi, Mariam, Owusu, Frederick William Akuffo, Obeng, Lawrence Michael, Antwi, Osei-Asibey, Adoley, Winifred Naa, Ofori-Kwakye, Kwabena, and Ben Kaab, Sofiene

Subjects

*DRUG delivery systems, *ZETA potential, *GUM arabic, *POTASSIUM chloride, *CALCIUM chloride

Abstract

Naturally occurring hydrophilic colloids are versatile excipients in drug delivery systems. They are often used as coating materials, disintegrating agents, binders, emulsion stabilizers, and other applications. This study sought to investigate the physicochemical and emulsifying properties of gum extracted from Melia azedarach (MA). The gum was harvested, authenticated, and purified using ethanol precipitation. Physicochemical, microbial, and proximate analyses were performed on the purified gum. Oil of olive emulsions containing different amounts (5–15%w/v) of the gum as emulsifiers were prepared by homogenization. The zeta potential, creaming index, and average droplet size of products were assessed. The effects of pH changes, temperature, and monovalent and divalent electrolytes on the stability of the emulsions were also investigated. The yield of the gum after purification was 68.3%w/w. The gum has low moisture content and good swelling properties. Lead, copper, cadmium, and mercury were not detected. Emulsions containing 15%w/v of acacia or MA gum had the smallest average (Z‐average) droplet size (acacia: 1.837 ± 0.420 μm; MA gum: 2.791 ± 0.694 μm) and the highest zeta potential (acacia: −30.45 mV; MA gum: −32.867 mV). Increasing the concentration of the gums increased the emulsion viscosity with MA gum emulsions being more viscous than corresponding acacia emulsions. MA gum emulsions had higher emulsion capacity and stability but lower creaming index relative to acacia gum emulsions of similar concentrations. Potassium chloride (KCl) reduced zeta potential but increased Z‐average for emulsions prepared with either gum. Calcium chloride (CaCl2) produced a similar but more pronounced effect. When the pH was decreased from 10 to 2, the zeta potential of the droplets was reduced, but the droplet size of emulsions prepared from either gum was increased. Increasing temperature from 25 to 90°C produced no significant (p value >0.9999) change in droplet size. These findings suggest that MA gum is a capable emulsifying agent at 15%w/v. [ABSTRACT FROM AUTHOR]

Published

2024

32. Novel Flowable Hemostatic Agent ActiClot: Efficacy and Safety Assessment in Rat and Porcine Models.

Author

Kim, Hee-Jung, Lee, Su-Kyoung, Ko, Yun-Jeh, Jeon, Soo-Hyeon, Kim, Eun-Jin, Kwon, Oh-Hyeong, and Cho, Yang-Hyun

Subjects

*LABORATORY rats, *SURGICAL emergencies, *CALCIUM chloride, *IN vivo studies, *HEMOSTASIS

Abstract

Background/Objectives: This study evaluated the hemostatic performance and safety of ActiClot (ATC), a new flowable hemostatic agent, through in vivo tests. Methods: ATC was compared with the commercially available FLOSEAL®. ATC consists of carboxymethyl starch, thrombin, and sorbitol powders in Syringe I, and a calcium chloride solution in Syringe II. In vivo evaluation used rat liver bleeding and porcine heart bleeding models. Safety was assessed using a rat subcutaneous implantation model. Results: ATC significantly reduced hemostasis time (70.00 ± 7.35 s) compared to gauze control (240.63 ± 32.31 s) in the rat liver model, showing a 70% reduction. There was no significant difference between ATC and FLOSEAL® (58.75 ± 13.42 s). In the porcine heart model, both agents achieved 100% hemostasis within 3 min, with no significant difference in success rates within 2 min (ATC 87.5%, FLOSEAL® 75%). The gauze control group failed in all tests. The rat subcutaneous implantation model showed no visual ATC observation after 48 h, indicating biocompatibility, with no inflammation observed. Conclusions: ATC demonstrated effective hemostatic performance similar to FLOSEAL® in two in vivo models, with faster hemostasis in the rat liver model. It also showed excellent safety and biocompatibility, indicating its potential for surgical and emergency bleeding control. [ABSTRACT FROM AUTHOR]

Published

2024

33. Spontaneous Structuration of Biohydrogels by Membrane‐Free Osmosis.

Author

Guilbert, Emilie, de Loubens, Clément, Vilotte, Alice, Schmitt, Christophe, Gunes, Deniz, and Bodiguel, Hugues

Subjects

*GELATION kinetics, *CHLORIDE ions, *CALCIUM chloride, *CHEMICAL potential, *OSMOSIS, *GELATION, *PECTINS

Abstract

Many bio‐hydrogels are prepared thanks to the addition of divalent ions. These gels usually exhibit partial ionic selectivity, a feature is leveraged to instigate an osmotic flow during the gelation process across a range of bio‐hydrogels. A simple experimental setup consisting a glass capillary filled by the reactant solution is taken as an advantage, brought into contact with a reservoir of calcium chloride. Direct observation allows to characterize the gelation kinetics, the permeability and the selectivity of several gels, including some made of protein aggregates, pectin, and alginate. It is shown that these intrinsic properties, coupled with appropriate gelation kinetics, intricately govern the osmotic flow induced by the chemical potential difference of the calcium chloride ions imposed during gel formation, consistent with the Kedem–Kashalsky equation. The forming gel acts as a semi‐permeable membrane for calcium chloride ions. The consequences of this osmotic flow are of potentially great interest since it triggers an increase of the gel concentration close to its boundary, opening the road to their spontaneous structuration. The formation of this dense shell is well accounted for the combination of a mass balance and a kinetic model. [ABSTRACT FROM AUTHOR]

Published

2024

34. 高粱多酚微胶囊制备及其理化性质相关性.

Author

卢 智, 王春艳, 石宏宇, and 朱俊玲

Subjects

*CALCIUM chloride, *SODIUM alginate, *SORGHUM, *THERMOGRAVIMETRY, *HUMAN body, *POLYPHENOLS, *PLANT polyphenols

Abstract

Sorghum polyphenols, as a natural active ingredient, have many potential health benefits. Through microcapsule embedding technology, the stability and efficacy of sorghum polyphenols can be improved. The study targets sorghum polyphenols as the active ingredient, uses sodium alginate solution to prepare sorghum polyphenol microcapsules, and conducts single factor orthogonal experiments, thermogravimetric analysis, and determination of sorghum polyphenol release rate. Through single factor investigation and orthogonal test combination, it is found that when the mass fraction of calcium chloride is 2. 5%, the mass fraction of sodium alginate is 2. 25%, the mass fraction of sorghum polyphenols is 0. 3%, the embedding time is 0. 5 h, and the mass fraction of chitosan is 1. 5%, the embedding rate of microcapsules could reach 87. 19%. The results show that polyphenols are the most important factor affecting the embedding rate, followed by chitosan, while sodium alginate, calcium chloride, and embedding time has relatively small effect. The microcapsules prepared under the optimal combination conditions have a tighter embedding structure and good embedding effect. The release time of microcapsules in intestinal fluid is shorter and more efficient than in gastric fluid, with a maximum release rate of 83. 16%. This rapid release can effectively prevent changes in sorghum polyphenols during the release process in the body and improve the utilization rate of active substances by the human body. The microencapsulation of sorghum polyphenols can provide scientific basis for the deep processing and subsequent property research of sorghum [ABSTRACT FROM AUTHOR]

Published

2024

35. Growth and Quality of Zinnia elegans L. in Response to Different Growth Stimulants.

Author

Khalid, Nimra, Almas, Munawar Hussain, Fatima, Sameen, Ahsan, Muhammad Salman, Raza, Muhammad, Ali, Sajid, and Shafiq, Muhammad

Subjects

*SALICYLIC acid, *CALCIUM chloride, *CUT flowers, *PLANT roots, *CHLOROPHYLL

Abstract

Zinnia elegans L. is a cut flower, to improve the growth parameters of this flower salicylic acid (SA) and calcium chloride (CaCl2) can act as growth stimulants. The purpose of this study was to assess the effects of pre-harvest SA and CaCl2 treatments in extending the vase life, quality and quantity of cut Zinnia flowers. Therefore, completely randomized design was made with SA at the rate of 0.5 mg/L, 1 mg/L and 1.5 mg/L and CaCl2 at the rate of 0.5 mg/L, 1 mg/L and 1.5 mg/L with 3 replicates in each treatment. Changes in growth morphology (such as shoot length, root length, dry weigh of root and plant, fresh weight of root and plant, total number of flowers and total number of flower cluster per plant), Physiology (chlorophyll content, PPO activity and protein) and phosphorous and potassium concentration were checked. The research study led to following conclusions that the foliar application of calcium chloride @ 1.5 mg/L + salicylic acid @ 0.5 mg/L resulted in highest growth parameters of Zinnia. The quality parameters like chlorophyll, total protein, phosphorous and catalase content also showed maximum value during the course of the study. It can be concluded in nutshell that calcium chloride in combination with salicylic acid results in better growth and quality of zinnia under the agro-climatic conditions of Lahore. These results suggest that SA and CaCl2 could be used as potential growth promoters to improve quantity and quality of Zinnia elegans L. [ABSTRACT FROM AUTHOR]

Published

2024

36. Biopolymeric Insulin Membranes for Antimicrobial, Antioxidant, and Wound Healing Applications.

Author

Aguilar-Vázquez, Rocío, Romero-Montero, Alejandra, Del Prado-Audelo, María L., Cariño-Calvo, Lizbeth, González-Del Carmen, Manuel, Vizcaíno-Dorado, Pablo Adrián, Caballero-Florán, Isaac Hiram, Peña-Corona, Sheila Iraís, Chávez-Corona, Juan Isaac, Bernad-Bernad, María Josefa, Magaña, Jonathan J., Cortés, Hernán, and Leyva-Gómez, Gerardo

Subjects

*XANTHAN gum, *DRUG repositioning, *STABILIZING agents, *WOUND healing, *CALCIUM chloride

Abstract

Delayed wound healing increases the wound's vulnerability to possible infections, which may have lethal outcomes. The treatments available can be effective, but the urgency is not fully encompassed. The drug repositioning strategy proposes effective alternatives for enhancing medical therapies for chronic diseases. Likewise, applying wound dressings as biodegradable membranes is extremely attractive due to their ease of application, therapeutic effectiveness, and feasibility in industrial manufacturing. This article aims to demonstrate the pleiotropic effects during insulin repositioning in wound closure by employing a biopolymeric membrane-type formulation with insulin. We prepared biopolymeric membranes with sodium alginate cross-linked with calcium chloride, supported in a mixture of xanthan gum and guar gum, and plasticized with glycerol and sorbitol. Human insulin was combined with poloxamer 188 as a protein stabilizing agent. Our investigation encompassed physicochemical and mechanical characterization, antioxidant and biological activity through antibacterial tests, cell viability assessments, and scratch assays as an in vitro and in vivo wound model. We demonstrated that our biopolymeric insulin membranes exhibited adequate manipulation and suitable mechanical resistance, transparency, high swelling capability (1100%), and 30% antioxidant activity. Furthermore, they exhibited antibacterial activity (growth inhibition of S. aureus at 85% and P. aeruginosa at 75%, respectively), and insulin promoted wound closure in vitro with a 5.5-fold increase and 72% closure at 24 h. Also, insulin promoted in vivo wound closure with a 3.2-fold increase and 92% closure at 10 days compared with the groups without insulin, and this is the first report that demonstrates this therapeutic effect with two administrations of 0.7 IU. In conclusion, we developed a multifunctional insulin-loaded biopolymeric membrane in this study, with the main activity derived from insulin's role in wound closure and antioxidant activity, augmented by the antimicrobial effect attributed to the polymer poloxamer 188. The synergistic combination of excipients enhances its usefulness and highlights our innovation as a promising material in wound healing materials. [ABSTRACT FROM AUTHOR]

Published

2024

37. Calcium‐dependent HLA‐DQ epitope revealed by EDTA mediated inhibition of antibody reactions in the Luminex single antigen bead assay.

Author

de Marco, Renato, Noronha, Isaú H., Bottino, Luiza Zainotti Miguel Fahur, dos Silva, Alan Andrew Santos, Liwski, Robert, and Gerbase‐DeLima, Maria

Subjects

*ETHYLENEDIAMINETETRAACETIC acid, *KIDNEY transplantation, *COMPLEMENT activation, *CALCIUM chloride, *HISTOCOMPATIBILITY

Abstract

Complement mediated interference with the detection of antibodies targeting HLA is a known limitation of the single antigen bead (SAB) Luminex assay. Ethylenediaminetetraacetic acid (EDTA) is currently the serum treatment of choice in most histocompatibility laboratories to block complement activation by chelating calcium. The purpose of this study was to investigate a serum with an antibody reactivity to HLA‐DQ6, 7, 8 and 9 molecules, in the Luminex SAB assay, that was inhibited by treatment with EDTA. Serum was from a 55‐year‐old highly sensitised female renal transplant candidate that contained, among others, antibodies to an epitope containing the 74EL eplet, shared by HLA‐DQ6, DQ7, DQ8 and DQ9 molecules. Serum samples were treated with EDTA, dithiothreitol (DTT), or heat prior to testing by SAB assay. EDTA‐treated serum was also tested after the addition of calcium chloride (CaCl2). HLA‐DQ‐specific antibodies were isolated by adsorption/elution method using three informative donor cells and were tested in the absence or presence of EDTA. The antibody reactivity against HLA‐DQ6, DQ7, DQ8 and DQ9 in the SAB assay was significantly inhibited by treating serum and eluates with EDTA and was restored by addition of CaCl2. The study represents the first description of a calcium‐dependent epitope in HLA molecules. The relevance of this finding is that the treatment of sera with EDTA could lead to false‐negative reactions in the SAB assay, which may compromise virtual crossmatching. [ABSTRACT FROM AUTHOR]

Published

2024

38. Study of Shoot Tip Necrosis Problems of Fegra Fig (Ficus palmata Forssk.) In Vitro in Saudi Arabia.

Author

Al-Aizari, Ahmed Ali, Dewir, Yaser Hassan, Al-Obeed, Rashid Sultan, Al-Saif, Adel M., Almutairi, Khalid F., Murthy, Hosakatte Niranjana, and Hakiman, Mansor

Subjects

*REGENERATION (Botany), *PHOTOSYNTHETIC pigments, *VITAMIN C, *CALCIUM chloride, *ACTIVATED carbon, *SILVER nitrate

Abstract

This work studied the micropropagation of fegra fig (F. palmata Forssk.) during which we experienced the incidence of shoot-tip necrosis (STN). STN was evident during the shoot elongation stage, which was regenerated on Murashige and Skoog (MS) medium supplemented with 2 mg/L 6-benzylaminopurine. To alleviate SNT, we conducted a series of experiments and supplemented the medium with calcium chloride (40, 80, and 120 mg/L), ascorbic acid (50, 100, and 150 mg/L), silver nitrate (1, 2, and 3 mg/L), and boric acid (9.3, 12.4, and 15.5 mg/L). Results showed that all the treatments controlled STN at varying levels, and supplementation of medium with 3 mg/L silver nitrate reduced the incidence of STN from 80% to 24%. The regenerated shoots were rooted on the same medium with incubation of cultures in the dark for 3 weeks and subsequent 4 weeks of incubation under 16/8-hour light/dark photoperiod. The growth parameters (number of shoots and roots, length of the main shoot and root, fresh and dry weights), photosynthetic pigments (chlorophylls and carotenoids), and relative water content of plantlets were restored with the application of 3 mg/L silver nitrate to the medium. Incubation of cultures initially in the dark followed by 16/8-hour light incubation facilitated axillary shoot elongation. On the basis of our findings, it is recommended to culture the regenerated axillary shoots of fegra fig onto MS medium containing 3% sucrose, 1.5 mg/L activated charcoal, and 3 mg/L silver nitrate to manage STN effectively. [ABSTRACT FROM AUTHOR]

Published

2024

39. Can fertilization of potato (Solanum tuberosum L.) with potassium sulfate cause oxidative stress in the plants?

Author

Hütsch, Birgit W., Heid, Annabelle, Keipp, Katrin, and Schubert, Sven

Subjects

*PLANT shoots, *TUBERS, *POTASSIUM sulfate, *CALCIUM chloride, *PLANT development

Abstract

Background: Potatoes are regarded very prone to chloride toxicity, and the application of sulfate‐based potassium fertilizers is therefore recommended. However, in several studies, no significant differences between KCl and K2SO4 on tuber yield and starch concentration were found. In addition, plant shoots occasionally showed more pronounced stress symptoms after sulfate compared to chloride treatment. Aims: This study aimed to identify reasons for enhanced stress occurrence of potato plants after K2SO4 instead of KCl fertilization. Methods: We conducted a pot experiment with the potato cultivar Marabel, which showed to be chloride‐resistant in our previous study, and applied 1 g K or 2 g K either as K2SO4 or KCl. Plant shoots were analyzed for nutrients, sugars, and antioxidative capacity shortly before start of flowering (intermediate harvest), and tubers were harvested at physiological maturity and their starch concentration and yield were determined. Results: With sulfate‐based K fertilization, the start of flowering and ripening as well as the achievement of physiological maturity occurred earlier than with KCl supply. However, the accelerated development of K2SO4‐treated plants did not affect shoot fresh and dry mass shortly before flowering and at maturity, showing similar values as in the KCl treatment. With 2 g K as K2SO4, the potato plants produced much larger and less than half the number of tubers compared to 2 g K as KCl, resulting in a significantly reduced tuber fresh mass. Tuber starch concentration as well as starch yield per plant were not significantly affected by the kind of K fertilization. In plant shoots shortly before flowering, calcium and magnesium concentrations were significantly decreased, combined with a significant increase in antioxidative capacity after application of 2 g K as K2SO4 compared to KCl. Sugar concentrations and contents in potato shoots at flowering were mostly unaffected by the kind of K fertilizer. Conclusions: Stronger toxicity symptoms and growth inhibition after sulfate compared to chloride application, combined with a significant increase in antioxidative capacity, provide evidence for sulfate‐induced oxidative stress. A higher production of organic anions such as succinate may be involved in the stress reaction. This needs to be investigated in more detail in further studies. [ABSTRACT FROM AUTHOR]

Published

2024

40. Impact of the reduction or replacement of NaCl during production and ripening of raw cured pork and turkey sausages.

Author

Wagner, Mona, Ploetz, Madeleine, and Krischek, Carsten

Subjects

*SAUSAGES, *PORK products, *PORK, *MAGNESIUM chloride, *SALT, *WATER hardness, *POTASSIUM chloride, *HYPERTENSION, *CALCIUM chloride

Abstract

There are health concerns with regard to the consumption of sodium. Excessive consumption of sodium is suspected to cause high blood pressure, among other things. Therefore, sodium should be reduced or replaced during the production of food. In the present study, in the first part, raw fermented sausages from pork and turkey meat, produced with reduced NaCl concentrations, were investigated. In a second part, the salts, potassium chloride, magnesium chloride, and calcium chloride were added to the sausages, replacing 50% of NaCl. To elucidate, if the reduction or replacement influences the quality of the sausages, physicochemical and microbiological parameters of the products were analyzed. The data show that a reduction of sodium chloride partly influences the hardness and water activity results of raw fermented sausages, made from pork and turkey meat, the redness and nitrite content of the pork sausages, and the ripening losses and total viable counts of the turkey products. Raw fermented sausages with potassium, magnesium, and calcium as partial substitutes for sodium had differing water activity, pH, hardness, and microbiological results using pork and differing pH, hardness, and microbiological results using turkey meat. A bactericidal effect was observed in raw fermented sausages with calcium chloride in inoculation tests with Listeria monocytogenes due to the pH reduction due to calcium. The results indicate that reduction and replacement of NaCl can influence the final products. Therefore, the producers should carefully evaluate before alteration the NaCl content, if this change influences the product acceptability. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of CaO/SiO2 ratio and CaCl2 content on the densification, microstructure, and properties of sintered CaO–MgO–Al2O3–SiO2–CaCl2 glass-ceramic.

Author

Wang, Hong-Yang, Jiao, Shu-Qiang, and Zhang, Guo-Hua

Subjects

*VICKERS hardness, *GLASS-ceramics, *BENDING strength, *MICROSTRUCTURE, *BASICITY, *POROSITY

Abstract

The effects of CaO/SiO 2 ratio (basicity) and CaCl 2 addition amount on the properties of CaO–MgO–Al 2 O 3 –SiO 2 –CaCl 2 glass-ceramics (GC) were investigated. When sintered at 825 °C, the increase in basicity from 0.35 to 0.75 reduced the porosity of GCs from 1.1 to 0.8 vol%, but the increase of CaCl 2 addition amount from 5 to 10 wt% increased the porosity from 0.8 to 7.0 vol%. The main crystalline phase of GC changed from augite (Ca(Mg 0 · 7 Al 0.3) (Si 1 · 7 Al 0.3)O 6) to Ca 10 Al 12 Cl 2 Si 5 O 37 by increasing the CaCl 2 addition amount to 7.5 wt%. The increase in CaCl 2 addition had adverse effects on the bending strength and Vickers hardness, while the rise in basicity deteriorated the bending strength but had little impact on the Vickers hardness. This study may have a guiding significance for preparing slag-based GCs and treating CaCl 2 -containing wastes. [ABSTRACT FROM AUTHOR]

Published

2024

42. 氯化钙采前喷施对西梅采后果实活性氧代谢的调节作用.

Author

田全明, 祁华梅, 殷贝贝, 魏佳, 张政, 王曼, 邢世均, 袁宇尧, and 吴斌

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. 烟草源高产淀粉酶菌株的分离鉴定、发酵条件优化及 固体淀粉酶制剂的制备.

Author

孙志康, 李选文, 季嫱, 吴娜, 郑超, 吴晗, 叶长文, 黄阔, and 郝捷

Subjects

MOLECULAR biology, BACILLUS amyloliquefaciens, AMYLASES, CALCIUM chloride, FREEZE-drying

Abstract

Copyright of China Brewing is the property of China Brewing Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

44. Improvement of jelly 3D printing using ultrasound treatment and calcium chloride.

Author

Jeong, Ha Eun, Lee, Chang Joo, and Min, Sea Cheol

Abstract

This study investigated the effects of ultrasound treatment or calcium chloride (CaCl2) addition on the physical properties of jelly formulations. Elastic modulus (G'), loss modulus (G"), tan δ, shear modulus, yield stress (τ0), phase angle (δ), and gel strength were the parameters selected to describe the requirements of jelly printing, such as fidelity, shape retention, and extrudability. Ultrasound treatment of the jelly formulation without pectin increased the G' and shear moduli values, while decreasing the δ and gel strength. The addition of CaCl2 to the jelly formulation with pectin increased the G', G", shear modulus, τ0, and gel strength but lowered the tan δ and δ values. Both ultrasound treatment and CaCl2 addition improved the jelly printing requirements and demonstrated the potential to control the physical properties of jelly formulations for 3D printing using fused deposition modeling. [ABSTRACT FROM AUTHOR]

Published

2024

45. Novel pH‐sensitive gellan gum–ε‐polylysine hydrogel microspheres for sulforaphene delivery.

Author

Qu, Yang, Li, Xiuxia, Chen, Xiaoqiao, Li, Jianrong, Yu, Zhangfu, and Shen, Ronghu

Subjects

*HYDROGELS, *MICROSPHERES, *GELLAN gum, *COLON cancer, *GASTROINTESTINAL system, *ELECTROSTATIC interaction, *CALCIUM chloride

Abstract

BACKGROUND RESULTS CONCLUSION This study aimed to improve the stability and utilization of sulforaphene (SFE) and to enhance the intestinal stability and pH‐sensitive release of SFE in the gastrointestinal tract. To achieve this objective, calcium chloride (CaCl2) was used as a crosslinking agent to fabricate novel SFE‐loaded gellan gum (GG)‐ε‐polylysine (ε‐PL) pH‐sensitive hydrogel microspheres by using the ionic crosslinking technique.The molecular docking results of GG, ε‐PL, and SFE were good and occurred in the natural state. The loading efficiency (LE) of all samples was above 70%. According to the structural characterization results, GG and ε‐PL successfully embedded SFE in a three‐dimensional network structure through electrostatic interaction. The swelling characteristics and in vitro release results revealed that the microspheres were pH‐sensitive, and SFE was mainly retained inside the hydrogel microsphere in the stomach, and subsequently released in the intestine. The result of cytotoxicity assay showed that the hydrogel microspheres were non‐toxic and had an inhibitory effect on human colon cancer Caco‐2 cells.Thus, the hydrogel microspheres could improve SFE stability and utilization and achieve the intestinal targeted delivery of SFE. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

46. Sustainable, Low‐Cost Sorbents Based on Calcium Chloride‐Loaded Polyacrylamide Hydrogels.

Author

Hoogendoorn, Levi, Huertas, Mauricio, Nitz, Phillip, Qi, Naiyu, Baller, Johannes, Prinz, Carsten, and Graeber, Gustav

Subjects

*POLYACRYLAMIDE, *HEAT storage, *RENEWABLE energy transition (Government policy), *SORBENTS, *HYDROGELS, *CALCIUM chloride

Abstract

Sorbents are promising materials for applications in atmospheric water harvesting, thermal energy storage, and passive cooling, thereby addressing central challenges related to water scarcity and the global energy transition. Recently, hygroscopic hydrogel composites have emerged as high‐performance sorbents. However, many of these systems are fabricated with unsustainable and costly sorbent materials, which hinders their wide deployment. Here, the synthesis of high‐performance, cost‐efficient polyacrylamide hydrogels loaded with unprecedented amounts of calcium chloride is demonstrated. To this end, the swelling procedure of polyacrylamide hydrogels in aqueous calcium chloride solutions is optimized. The achievable salt loading in the hydrogel is characterized as a function of temperature, calcium chloride concentration in the swelling solution, and the hydrogel preparation conditions. The obtained hydrogel‐salt composites are shown to be stable under repeated sorption‐desorption cycling and enable water uptakes of 0.92 and 2.38 grams of water per gram of dry materials at 30% and 70% relative humidity, respectively. The resulting cost‐performance ratio substantially exceeds lithium chloride‐based systems. Further, the mechanistic insights on hydrogel salt interactions can guide the design of sustainable and low‐cost sorbent materials for future applications in water and energy. [ABSTRACT FROM AUTHOR]

Published

2024

47. 肉桂醛微胶囊在紫米防霉保鲜中的应用.

Author

马飞桐, 郑海英, 范小平, 黄 苇, and 郑经绍

Subjects

RICE storage, LIQUID surfaces, ACCELERATED life testing, CALCIUM chloride, SODIUM alginate, PLANT extracts, RICE oil

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

48. 不同方法制备的海带褐藻糖胶得率及品质的比较.

Author

钟玉美, 王 雷, 许加超, 高 昕, and 付晓婷

Subjects

PRECIPITATION (Chemistry), URONIC acids, CALCIUM chloride, POLYSACCHARIDES, FREE radicals

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

49. Comparative Study of the Effects of Conventional, Waste, and Alternative Materials on the Geomechanical Properties of Clayey Soil in the Chemical Soil Stabilisation Technique.

Author

Zlatanović, Elefterija, Marinković, Nemanja, Bonić, Zoran, Romić, Nikola, Djorić-Veljković, Snežana, Cvetković, Dušan, and Djordjević, Dragan

Subjects

CLAY soils, FLY ash, SWELLING soils, WASTE products, POTTING soils, CALCIUM chloride

Abstract

This paper presents an extensive comparative analysis of the experimental results of chemical stabilisation of clayey soil in laboratory conditions by comparing the effects of adding conventional stabilisers (lime, cement binder), stabilisers that can be considered as waste material (fly ash, rock flour), as well as alternative chloride-based materials (ferric chloride, calcium chloride, potassium chloride) on the geomechanical properties of the soil. With the aim of determining the stabiliser optimal content in the mixture with the soil, in the first part of the research, the effects of stabilisation of clayey soil of medium plasticity using the considered stabilisers with different percentage share on the change in uniaxial compressive strength (UCS) and pH value of the soil at different time intervals after the treatment were analysed. In the second part of the research, additional tests were conducted on soil samples with optimal content for each of the considered stabilisers by monitoring changes in the physical and mechanical properties of the soil. These include Atterberg's limits (liquid limit and plasticity limit), modulus of compressibility in the oedometer, California bearing ratio (CBR), and swelling potential at different time intervals after the chemical treatment to determine the durability of stabilisation effects. The results of the conducted research reveal that each of the conventional, waste, and alternative materials considered as chemical stabilisers contributes to the improvement of the geomechanical properties of the clayey soil, primarily in terms of increasing the bearing capacity and reducing the swelling of the treated soil. [ABSTRACT FROM AUTHOR]

Published

2024

50. Experimental study on soil improvement by electrochemical injection of calcium chloride solutions with time interval.

Author

Han, Shaoyang, Wang, Baotian, Wang, Yu, Liu, Wenpeng, Chen, Chenghao, and Zhang, Yijiang

Abstract

An improved electroosmotic method is proposed in this paper to enhance the non-uniform effect and efficiency of electroosmotic process. Such method is electroosmotic flow with injection of calcium chloride through the anode, followed by injection through the central tube (a tube at the midpoint between the anode and the cathode) with a suitable time interval between injections. Experimental results indicate that using this method can significantly improve the non-uniform reduction in water content throughout the soil, mitigate the formation of cracks in the anode section, and therefore considerably inhibit the increase in the electric resistance. After treatment, the drained water could be raised to 3.59 times more than that of pure electroosmotic flow, and 1.3 times that of simultaneous injection through both the anode and the central tube with considerably slight increase in power consumption. Moreover, the area of cementation was also expanded, approximately twice larger than that of pure electroosmotic flow and one and a half that of simultaneous injection. It is also worth noting that the proposed method performs better with the same power consumption. The results demonstrate that electroosmotic flow with a suitable time interval between injections could improve the efficiency of electroosmotic process and expand the treatment region in soils, hence can be a promising and economic technique for soil improvement in practical engineering. [ABSTRACT FROM AUTHOR]

Published

2024