Your search keyword '"Static magnetic field"' showing total 1,517 results

1. EMS型高速磁浮列车轨道间隙静磁 暴露乘客安全评估.

Author

潘强强 and 逯迈

Abstract

Copyright of Journal of Railway Science & Engineering is the property of Journal of Railway Science & Engineering 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

2. Examination of Slit Defect Inspection Method for Steel Bars Using Only DC Magnetic Field with the Velocity Effect.

Author

Masafumi Kuromizu and Yuji Gotoh

Subjects

MAGNETIC field effects, STEEL bars, FERROMAGNETIC materials, AUTOMOBILE springs & suspension, MAGNETIC fields

Abstract

C45, a ferromagnetic material, can be strengthened by heat treatment such as quenching and is widely used as a material for general mechanical parts such as springs in automobiles. However, the presence of defects or flaws can cause cracking during the quenching stage, and a high-speed inspection method for detecting defects is required. In this study, we proposed and examined an inspection method for detecting defects using only a DC magnetic field by moving a round steel bar material at a high speed of 1 m/s inside a ring-shaped permanent magnet and generating eddy currents due to the velocity effect. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effect of static magnetic field on gene expression of human umbilical cord mesenchymal stem cells by transcriptome analysis.

Author

Fang, Fang, Liu, Chunyan, Huang, Qi, Dong, Chao, Zhang, Guirong, Jiang, Jinhe, and Lu, Shi

Subjects

*GENE expression, *MESENCHYMAL stem cells, *CELL morphology, *MAGNETIC field effects, *NF-kappa B

Abstract

Static magnetic fields (SMFs) induce various biological reactions and have been applied in the biological therapy of diseases, especially in combination with mesenchymal stem cells (MSCs) and tissue engineering. However, the underlying influence of SMFs on MSCs gene expression remains largely unclear. In this study, we aim to investigate the effects of SMFs on gene expression of human MSCs. We exposed human MSCs to two different intensities (0.35 ​T and 1.0 ​T) of SMFs and observed the effects of SMFs on cell morphology. Subsequently, RNA-sequencing was performed to explore the gene expression changes. Compared with control group cells, no significant differences in cell morphology were observed under a phase contrast inverted microscope, but the transcriptome of SMF-exposed MSCs were significantly changed in both 0.35 ​T and 1.0 ​T groups and the differential expressed genes are involved in multiple pathways, such as ubiquitin mediated proteolysis, TNF signaling pathway, NF-kappa B signaling pathway, TGF-beta signaling pathway, metabolic pathways, and apoptosis, which regulate the biological functions of MSCs. SMFs stimulation could affect the gene expression of human MSCs and the biological effects vary by the different intensities of SMFs. These data offer the molecular foundation for future application of SMFs in stem cell technology as well as tissue engineering medicine. [ABSTRACT FROM AUTHOR]

Published

2024

4. Influence of external magnetic field on electromagnetically induced grating in a degenerate two-level atomic medium.

Author

Bang, Nguyen Huy, Nga, Luong Thi Yen, Quang, Ho Hai, Van Ai, Nguyen, Van Thuan, Phan, Hien, Nguyen Thi Thu, Dong, Hoang Minh, and Van Doai, Le

Subjects

*MAGNETIC flux density, *PHASE modulation, *MAGNETIC fields, *AMPLITUDE modulation, *DIFFRACTION gratings

Abstract

In this work, the external magnetic field is employed as a "knob" to transfer the light energy from the zero-order diffraction to the high-order diffractions of electromagnetically induced grating in a degenerate two-level atomic medium. Under a standing-wave coupling field, the diffraction of the probe beam is created with the diffraction pattern including zero-, first- and second-order diffractions. When the magnetic field is not applied, the absorption grating is formed based on amplitude modulation of the transmission function; most of the probe light energy is focused on the zero-order diffraction (about 70%) and only about 6% of the first-order diffraction. However, when the external magnetic field is applied, the phase grating is formed based on the phase modulation of transmission function; the probe light energy is transferred from zero-order diffraction to first- and second-order diffractions, in which the first-order diffraction efficiency can be obtained about 32% with proper magnetic field strength. Moreover, the probe light energy can also be transferred from zero-order diffraction to first- and second-order diffractions by adjusting the frequency and/or the intensity of the coupling and probe fields in the presence of external magnetic field. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of static magnetic fields freezing on starch-based prepared fried rice as staple foods.

Author

Long, Yanzhen, Zhang, Min, Mujumdar, Arun S., and Lin, Jiacong

Subjects

*MAGNETIC field effects, *MAGNETIC flux density, *FREEZING, *RICE, *MAGNETIC fields

Abstract

• Exploring the influence of static magnetic field induction intensity on the freezing effect. • Static magnetic field shortens the maximum ice crystal formation region and the freezing process. • Static magnetic field has a delaying effect on the retrogradation of starch in fried rice. • Static magnetic field freezing further improved the quality of freezing-thaw fried rice. Magnetic fields are a new food-processing technology, with application in freezing, refrigeration, thawing, and preservation. In this work, the effects of static magnetic field (SMF) on freeze-thaw behavior, water distribution, retrogradation, and quality of fried rice are investigated. Results from the freezing curve show freezing time of fried rice during 2 mT treatment is the shortest, followed by 5 mT. Over a number of freeze-thaw cycles (FTC), the retrogradation enthalpy, relative crystallinity, and short-range ordered degree increased, while the application of the SMF can alleviate these processes. Changes in texture properties of samples treated by SMF are the significantly delayed in comparison with 0 mT, especially the adhesiveness index. The color and flavor of fried rice also show a delay downward trend. Therefore SMF can improve the quality of fried rice. The static magnetic field freezing method is appropriate for the actual production of frozen fried rice. [ABSTRACT FROM AUTHOR]

Published

2024

6. Experimental and numerical study on single ice crystal growth of deionized water and 0.9 % NaCl solution under static magnetic field.

Author

Leng, Dongmei, Li, Peiru, Kong, Fanchen, Zhang, Hainan, Yang, Tianyang, Tang, Mingsheng, Zou, Huiming, and Tian, Changqing

Abstract

Ice crystal growth of water and its aqueous solution is the key phenomenon in food freezing. In this research, the effect of static magnetic field (SMF) on single ice crystal growth was investigated combing experiment and simulation. The ice crystal growth of water and NaCl-water solution under 0 - 15 mT SMF intensities were studied. The UV absorbance of water after SMF treatment was measured. Phase field model was adopted to simulate the ice crystal growth. The results show that SMF significantly inhibited the growth rate, while had little effect on the morphology and growth direction of ice crystals. SMF had a certain enhancement effect on the UV absorbance of deionized water. The proposed model could well simulate the ice crystal growth under different SMF intensities. Combining experimental and simulation results, it can be inferred that SMF inhibits ice crystal growth by enhancing original hydrogen bonds and reducing free energy. [ABSTRACT FROM AUTHOR]

Published

2024

7. Static magnetic field-modulated mesenchymal stem cell-derived mitochondria-containing microvesicles for enhanced intervertebral disc degeneration therapy

Author

Pengzhi Shi, Haiyang Gao, Zhangrong Cheng, Kangcheng Zhao, Yuhang Chen, Xianglong Chen, Weikang Gan, Anran Zhang, Cao Yang, and Yukun Zhang

Subjects

Mesenchymal stem cell, Mitochondrial, Microvesicle, Intervertebral disc degeneration, Static magnetic field, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Intervertebral disc degeneration (IVDD) is characterized by the senescence and declining vitality of nucleus pulposus cells (NPCs), often driven by mitochondrial dysfunction. This study elucidates that mesenchymal stem cells (MSCs) play a crucial role in attenuating NPC senescence by secreting mitochondria-containing microvesicles (mitoMVs). Moreover, it demonstrates that static magnetic fields (SMF) enhance the secretion of mitoMVs by MSCs. By distinguishing mitoMV generation from exosomes, this study shifts focus to understanding the molecular mechanisms of SMF intervention, emphasizing cargo transport and plasma membrane budding processes, with RNA sequencing indicating the potential involvement of the microtubule-based transport protein Kif5b. The study further confirms the interaction between Rab22a and Kif5b, revealing Rab22a’s role in sorting mitoMVs into microvesicles (MVs) and potentially mediating subsequent plasma membrane budding. Subsequent construction of a gelatin methacrylate (GelMA) hydrogel delivery system further addresses the challenges of in vivo application and verifies the substantial potential of mitoMVs in delaying IVDD. This research not only sheds light on the molecular intricacies of SMF-enhanced mitoMV secretion but also provides innovative perspectives for future IVDD therapeutic strategies.

Published

2024

8. The Effect of Static Magnetic Fields of Different Strengths and Polarities on Cytokine Production by Human Lymphocytes In Vitro.

Author

Turuntaš, Vladimir, de Luka, Silvio, Ristić-Djurovic, Jasna L., Ćirković, Saša, Djordjevich, Drago, Ristić, Siniša, Lalović, Nenad, Marić, Veljko, Lazić, Bratislav, Joksimović, Bojan, Stanojevic, Ivan, Vasilijić, Saša, and Trbovich, Alexander M.

Subjects

*MAGNETIC field effects, *T cells, *MAGNETIC flux density, *LYMPHOCYTES, *CYTOKINES, *MAGNETIC pole, *CELL culture

Abstract

In contrast to electromagnetic fields, static magnetic fields (SMFs) have not been extensively studied in terms of their potential health consequences. Although upward- and downward-oriented magnetic poles may cause various biological effects, only the pole with the upward orientation has been mainly investigated. Considering that the interaction of antigen-presenting cells (APCs) and T lymphocytes is crucial to trigger an immune response, we assessed the effect of long-term exposure of human T lymphocytes and dendritic cells (DCs) to moderate strength SMFs of different orientations focusing on the cytokine profile of activated T cells. Cultures of allogenic T lymphocytes and DCs (immature and matured by TLR3 and TLR7 agonists) were continuously exposed to four SMFs. The intensity of the applied field was 1 militesla (mT) or 56 mT of the upward- and downward-oriented pole of the SMF. Cell culture supernatants were assayed for IFN-γ, IL-4, IL-17, TNF-α, TNF-β, IL-1 β, IL-6, IL-8, and IL-10 by ELISA or flow cytometry. The upward-oriented 56 mT SMF significantly increased the release of IFN-γ and TNF-β (both p < 0.05) in the cell culture supernatants of T cells and immature DCs. In contrast, the same cultures exposed to the upward-oriented 1 mT SMF showed significantly elevated levels of IL-17 (p < 0.05). The levels of IL-4, TNF-α, IL-1 β, IL-6, IL-8, and IL-10 were not affected by the upward-oriented SMF. The downward-oriented 56 mT SMF increased TNF-α release when T cells were stimulated with mature DCs. The production of other cytokines was unchanged by the downward-oriented SMF. These findings demonstrate for the first time different in vitro biological effects of upward- and downward-oriented static magnetic fields on the cytokine production of T cells activated by DCs, helping to better understand SMF effects on the immune system and suggesting that the selective SMF effect on the immune response could have potential therapeutic effects in different immune-mediated disorders. [ABSTRACT FROM AUTHOR]

Published

2024

9. Study on chemical constituents and biological activities of Sanghuangporus vaninii under static magnetic field.

Author

LIU Xuwen, ZHOU Jie, YE Dongyan, LI Qianhui, YIN Shuren, ZHANG Suyi, and BAI Helong

Subjects

MAGNETIC fields, LIQUID chromatography, PETROLEUM, ULTRASONICS, ETHERS

Abstract

Copyright of Journal of Molecular Science is the property of Journal of Molecular Science 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

10. Physical Insight into the Synergistic Enhancement of CAP Therapy Using Static Magnetic Field.

Author

Mehrabifard, Ramin, Kabarkouhi, Zeinab, Rezaei, Fatemeh, Hajisharifi, Kamal, and Mehdian, Hassan

Abstract

In the last decades, to improve the CAP treatment efficiency, its biological effects in combination with other physical modalities have widely investigated. However, the physical insight into most of supposed synergistic effects remained elusive. In this regard, the synergetic effect of cold plasma and magnetic field has been used for different applications, especially due to considerable synergistic in biological media reactivity. In the present paper, using a 420 mT N42 magnet, the effect of the perpendicular external static magnetic field (SMF) on the cold atmospheric pressure plasma (CAP) characteristics, such as electron temperature and density, is investigated based on the optical emission spectroscopy, utilizing the Boltzmann plot method, Saha-Boltzmann equation, and Specair software simulation. Results showed that the rotational and electronic excitational temperatures experienced 100 K and 550 K increases in the presence of SMF, respectively. In contrast, the vibrational and translational temperatures remained constant. Moreover, electron temperature was estimated as 1.04 eV in the absence of SMF and increased up to 1.24 eV in the presence of SMF. In addition, the Saha-Boltzmann equation illustrated that the electron density increased in the presence of the additional SMF. The results of the present study indicated that the magnetic field could be an assistant to the cold plasma effect, beneficial in medical applications due to modifications in plasma temperature and electron density. [ABSTRACT FROM AUTHOR]

Published

2024

11. Static magnetic field-modulated mesenchymal stem cell-derived mitochondria-containing microvesicles for enhanced intervertebral disc degeneration therapy.

Author

Shi, Pengzhi, Gao, Haiyang, Cheng, Zhangrong, Zhao, Kangcheng, Chen, Yuhang, Chen, Xianglong, Gan, Weikang, Zhang, Anran, Yang, Cao, and Zhang, Yukun

Abstract

Intervertebral disc degeneration (IVDD) is characterized by the senescence and declining vitality of nucleus pulposus cells (NPCs), often driven by mitochondrial dysfunction. This study elucidates that mesenchymal stem cells (MSCs) play a crucial role in attenuating NPC senescence by secreting mitochondria-containing microvesicles (mitoMVs). Moreover, it demonstrates that static magnetic fields (SMF) enhance the secretion of mitoMVs by MSCs. By distinguishing mitoMV generation from exosomes, this study shifts focus to understanding the molecular mechanisms of SMF intervention, emphasizing cargo transport and plasma membrane budding processes, with RNA sequencing indicating the potential involvement of the microtubule-based transport protein Kif5b. The study further confirms the interaction between Rab22a and Kif5b, revealing Rab22a's role in sorting mitoMVs into microvesicles (MVs) and potentially mediating subsequent plasma membrane budding. Subsequent construction of a gelatin methacrylate (GelMA) hydrogel delivery system further addresses the challenges of in vivo application and verifies the substantial potential of mitoMVs in delaying IVDD. This research not only sheds light on the molecular intricacies of SMF-enhanced mitoMV secretion but also provides innovative perspectives for future IVDD therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparative transcriptomic analysis revealed important processes underlying the static magnetic field effects on Arabidopsis.

Author

Xiujuan Zhou, Lin Zhang, Peng Zhang, Hang Xu, Jialei Song, Yafei Chang, Tiantian Cai, and Can Xie

Subjects

MAGNETIC field effects, SYNTHETIC biology, IRON in the body, BIOENGINEERING, ARABIDOPSIS, PLANT growth, ARABIDOPSIS thaliana

Abstract

Static magnetic field (SMF) plays important roles in various biological processes of many organisms including plants, though the molecular mechanism remains largely unclear. Here in this study, we evaluated different magnetic setups to test their effects on growth and development on Arabidopsis (Arabidopsis thaliana), and discovered that plant growth was significantly enhanced by inhomogeneous SMF generated by a regular triangular prism magnet perpendicular to the direction of gravity. Comparative transcriptomic analysis revealed that auxin synthesis and signal transduction genes were upregulated by SMF exposure. SMF also facilitated plants to maintain the iron homeostasis. The expression of iron metabolism-related genes was downregulated by SMF, however, the iron content in plant tissues remains relatively unchanged. Furthermore, SMF exposure also helped the plants to reduce ROS level and synergistically maintain the oxidant balance by enhanced activity of antioxidant enzymes and accumulation of nicotinamide. Taken together, our data suggested that SMF is involved in regulating the growth and development of Arabidopsis thaliana through maintaining iron homeostasis and balancing oxidative stress, which could be beneficial for plant survival and growth. The work presented here would extend our understanding of the mechanism and the regulatory network of how magnetic field affects the plant growth, which would provide insights into the development of novel plant synthetic biology technologies to engineer stress-resistant and high-yielding crops. [ABSTRACT FROM AUTHOR]

Published

2024

13. Physiological efficiency during the vegetative stage of tomato crops developed from magnetically treated seeds

Author

Javier Torres-Osorio, Elisabed Villa-Carmona, and Carolina Zamorano-Montanez

Subjects

Chlorophyll, Leaf area, Leaf number, Magnetic seed treatment, Solanum lycopersicum L., Static magnetic field, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The study of the effects of magnetic seed treatment (MST) has garnered significant attention from scientists due to its positive results in seed germination and seedling establishment. Few studies have comprehensively evaluated developmental parameters during the plant's vegetative stage. This study aimed to analyze tomato plants developed from magnetically treated seeds during the vegetative stage in terms of i) physiological responses, ii) growth dynamics, iii) correlation between physiological variables, and iv) the contribution of the technique compared with the performance of a highly commercial cultivar. There were 225 experimental units and three experimental groups with 75 plants each. Treatment one (T1) included plants developed from magnetically treated low-cost seeds; control 1 (C1) included plants developed from the same low-cost seeds without magnetic treatment (MT), and a secondary control (C2) was included with plants developed from high-cost seeds without MT to contrast the effect of MT on a low-cost seed with the performance of a high-cost one. Each plant was measured twice a week for leaf area, stem diameter, height, number of leaves, and chlorophyll content. A longitudinal study, using a repeated-measures design over time, was complemented by a correlational cross-sectional study through principal component analysis. A longitudinal study showed that magnetic treatment continuously modified the structure and biomass accumulation of plants throughout the vegetative stage. Plant height, stem diameter, and leaf number were directly and independently correlated with time, whereas chlorophyll content and leaf area were time-dependent. The effect of MST persists and improves the physiological responses of tomato plants up to the vegetative development stage. MST changes the growth dynamics of T1 compared to C1. Lastly, the physiological performance of plants generated from magnetically treated low-cost seeds was superior to that of plants generated from seeds without MST, and it closely followed the trend of the highly commercial cultivar, C2. To ensure the viability of MST as a biotechnological tool applicable to agriculture, future work should include the analysis of the subsequent phenological stages of the plants and determination of crop yield.

Published

2024

14. Static Magnetic Field-Assisted Water Pre-cooling Technology: Analysis and Evaluation of Cherries Postharvest Quality

Author

Zhao, Songsong, Jiang, Hong, Wang, Hongyu, Li, Shuangqing, Han, Xinyi, Yu, Jinze, Liu, Bin, Zhang, Hua, and Guan, Wenqiang

Published

2024

15. Quality Enhancement of Shrimp Surimi by Static Magnetic Field Treatment at 4 ºC

Author

Liu, Siyang, Zhao, Jingxu, Yuan, Chunhong, Jia, Ru, Yang, Wenge, Qiao, Zhaohui, Tsukagoshi, Hideharu, Ou, Changrong, and Wei, Huamao

Published

2024

16. Effects of microalloying and magnetic annealing on microstructures and properties of magnetic immiscible copper matrix alloys

Author

Tianxiang Zheng, Sulin Chen, Hao Li, Ziyang Chen, Wenhao Lin, Hao Cai, Bangfei Zhou, Chunmei Liu, Yunbo Zhong, and Qiuliang Wang

Subjects

Immiscible Cu–Fe alloys, Static magnetic field, Annealing, Precipitations, Mining engineering. Metallurgy, TN1-997

Abstract

The magnetic immiscible copper matrix alloys are extensively industrial applications due to their comprehensive properties such as high strength, high conductivity, high thermal conductivity and excellent magnetic permeability. Here, we investigated the effects of the addition of Co and Al elements on the microstructural evolution of magnetic Cu–Fe alloys (CFAs) and comprehensive properties after annealing under the static magnetic field (SMF). The results show that the microalloying was effective in enhancing the mechanical and magnetic properties but negative for the electric conductivity. The addition of Co element significantly suppressed the grains recrystallization of CFAs during the annealing process and improved the thermal stability of CFAs. Al elements homogeneously dispersed in the sample. SMF facilitated the nucleation and precipitation processes of the secondary precipitated particles in the Cu-rich matrix through the introducing the extra magnetic Gibbs free energy and also promoted the structural transformation of the secondary precipitated particles from FCC to BCC. This work indicates that SMF can be effectively used to modify the magnetic materials with exceptional comprehensive properties during the solid state phase transformation process. It also provides valuable guidance for the development of novel materials with superior comprehensive performance.

Published

2024

17. Static magnetic field-induced IL-6 secretion in periodontal ligament stem cells accelerates orthodontic tooth movement

Author

Shitong Luo, Zhilian Li, Lizhiyi Liu, Juan Zhao, Wenbin Ge, Kun Zhang, Zhi Zhou, and Yali Liu

Subjects

Tooth movement, Static magnetic field, IL-6, Osteoclast, Acceleration, Medicine, Science

Abstract

Abstract Static magnetic field (SMF) promoting bone tissue remodeling is a potential non-invasive therapy technique to accelerate orthodontic tooth movement (OTM). The periodontal ligament stem cells (PDLSCs), which are mechanosensitive cells, are essential for force-induced bone remodeling and OTM. However, whether and how the PDLSCs influence the process of inflammatory bone remodeling under mechanical force stimuli in the presence of SMFs remains unclear. In this study, we found that local SMF stimulation significantly enhanced the OTM distance and induced osteoclastogenesis on the compression side of a rat model of OTM. Further experiments with macrophages cultured with supernatants from force-loaded PDLSCs exposed to an SMF showed enhanced osteoclast formation. RNA-seq analysis showed that interleukin-6 (IL-6) was elevated in force-loaded PDLSCs exposed to SMFs. IL-6 expression was also elevated on the pressure side of a rat OTM model with an SMF. The OTM distance induced by an SMF was significantly decreased after injection of the IL-6 inhibitor tocilizumab. These results imply that SMF promotes osteoclastogenesis by inducing force-loaded PDLSCs to secrete the inflammatory cytokine IL-6, which accelerates OTM. This will help to reveal the mechanism of SMF accelerates tooth movement and should be evaluated for application in periodontitis patients.

Published

2024

18. Effect of Static Magnetic Field on the Structure and Physicochemical Properties of Fermentation Products of Armillaria mellea

Author

GAO Fei, ZHAO Yunan, ZHANG Xin, ZHANG Silin, CAI Dan, LIU Jingsheng

Subjects

armillaria mellea, zein, static magnetic field, structure, physicochemical properties, Food processing and manufacture, TP368-456

Abstract

The effect of Armillaria mellea fermentation alone and combined with static magnetic field on the structure and physicochemical properties of zein was explored. Fourier transform infrared (FTIR) spectral analysis showed that static magnetic field treatment changed the secondary structure of the protein during the fermentation process. The analysis of ultraviolet (UV) absorption spectra and intrinsic fluorescence spectra showed that static magnetic field treatment resulted in protein unfolding and group exposure. The results of scanning electron microscopy (SEM) showed that after static magnetic field treatment, the surface of the protein became rougher with obvious pores and increased specific surface area. The results of thermodynamic analysis showed that static magnetic field treatment obviously increased the denaturation temperature of the protein, decreased the particle size, increased the absolute value of the zeta potential, and resulted in increased content of free sulfhydryl groups and decreased content of disulfide bonds. In addition, the physical and chemical properties of the protein were significantly changed by static magnetic field-assisted fermentation. The water and oil retention capacities, emulsification properties, foaming capacity and foam stability were increased significantly, reaching maximum values of 3.86 g/g, 4.22 g/g, 26.83 m2/g, 37.67% and 58.12%, respectively on the 7th day of fermentation. The emulsion stability was decreased significantly, reaching a minimum level of 34.10% on the 7th day. In summary, static magnetic field-assisted fermentation of zein by A. mellea can change its structure of and effectively improve its physical and chemical properties, thereby improving the added value and utilization rate of zein.

Published

2024

19. Static magnetic field reduces cisplatin resistance via increasing apoptosis pathways and genotoxicity in cancer cell lines

Author

Jaber Zafari, Nima Rastegar-Pouyani, Fatemeh Javani Jouni, Nabaa Najjar, Seyedeh Zohreh Azarshin, Emad Jafarzadeh, Parviz Abdolmaleki, and Farshad Hoseini Shirazi

Subjects

Cisplatin, Static magnetic field, Ovarian epithelial cancer, Apoptosis, Medicine, Science

Abstract

Abstract Cisplatin is a chemotherapy drug widely used in cancer treatment. Alongside its clinical benefits, however, it may inflict intolerable toxicity and other adverse effects on healthy tissues. Due to the limitation of administering a high dose of cisplatin as well as cancer drug resistance, it is necessary to utilize new methods optimizing treatment modalities through both higher therapeutic efficacy and reduced administered doses of radiation and drugs. In this study, sensitive (A2780) and resistant (A2780CP) ovarian carcinoma cells underwent treatment with cisplatin + static magnetic field (SMF). First, the levels of genotoxicity after treatment were evaluated by Comet assay. Then, cell cycle analysis and apoptosis assay were conducted by a flow cytometer. Lastly, the expression levels of genes involved in apoptosis and cellular drug uptake were investigated by PCR. After treating different groups of cells for 24, 48, and 96 h, the co-treatment of SMF and cisplatin as a combination managed to increase the amount of DNA damage in both sensitive and resistant cell lines. A considerable increase in mortality of cells was also observed mostly in the form of apoptosis, which was caused by inhibition of the cell cycle. The combination also increased the expression levels of apoptotic genes, namely P53 and P21; however, it did not have much effect on the expression levels of BCL2. Besides, the levels of CTR1 gene expression increased significantly in the groups receiving the aforementioned combination. Our study suggests that the combination of cisplatin + SMF might have clinical potential which needs further investigations through future studies.

Published

2024

20. Magnetic scaffold constructing by micro-injection for bone tissue engineering under static magnetic field

Author

Zhengyi Xu, Yujie Zhang, Lang Zheng, He Cai, Xiangjun Yang, Yiyuan Xue, Qianbing Wan, Junyu Chen, and Yijun Li

Subjects

Magnetic scaffold, Microinjection molding, Static magnetic field, Bone tissue engineering, Mining engineering. Metallurgy, TN1-997

Abstract

The utilization of static magnetic fields in conjunction with tissue engineering scaffolds has demonstrated significant potential in the restoration of bone defects. However, previous techniques used for fabricating magnetic tissue engineering scaffolds have shown certain shortcomings that require further investigation. In this study, a series of scaffolds made from a combination of polylactic acid (PLA), polycaprolactone (PCL), and iron tetraoxide (Fe3O4) nanoparticles were designed and prepared using the microinjection molding technique. The composite scaffolds, which were doped with nanoparticles and fabricated through microinjection, exhibited exceptional physicochemical properties and biocompatibility. Additionally, the PLA/PCL/Fe3O4 scaffolds were found to promote the proliferation and adhesion of bone marrow cells (BMSCs) under relatively low magnetic fields (25–30 mT). These findings suggest that PLA/PCL/Fe3O4 scaffolds hold great potential for use in bone tissue engineering applications.

Published

2024

21. Laser powder bed fusion of GH4099 Ni-based superalloy under a static magnetic field with tailored microstructure and enhanced mechanical performance

Author

Chaoyue Chen, Keqing Zhang, Ruixin Zhao, Songzhe Xu, Tao Hu, Xia Li, Xiaopeng Li, Linda Ke, Jiang Wang, and Zhongming Ren

Subjects

Laser powder bed fusion, static magnetic field, GH4099 superalloy, heat-treatment, mechanical properties, Science, Manufactures, TS1-2301

Abstract

In the present work, the static magnetic field (SMF) was applied in the L-PBF process of a typical γʹ strengthening Ni-based superalloy of GH4099 concerning the as-built and heat-treated conditions. The SMF during the L-PBF process can effectively refine the cellular str ucture, refine the grain size, promote the columnar to equiaxed transition (CET), and reduce the dislocation density. After the solution-aging procedure, the SMF samples exhibited a refined grain structure, suggesting that the tailored microstructure is inherited after the solution-aging treatment. The tensile test results show that by applying the SMF during the L-PBF process, the ductility can be notably improved on both building planes under the as-built and heat-treatment conditions, and the anisotropy along different directions can be reduced. It reveals that the SMF in L-PBF can be an effective method to modulate the microstructure and improve the comprehensive mechanical properties for γʹ strengthening Ni-based superalloys.

Published

2024

22. Electromagnetic fields regulate iron metabolism in living organisms: A review of effects and mechanism.

Author

Zhen, Chenxiao, Zhang, Gejing, Wang, Shenghang, Wang, Jianping, Fang, Yanwen, and Shang, Peng

Subjects

*ELECTROMAGNETIC fields, *IRON metabolism, *MAGNETIC flux density, *GEOMAGNETISM, *ELECTROMAGNETIC forces

Abstract

The emergence, evolution, and spread of life on Earth have all occurred in the geomagnetic field, and its extensive biological effects on living organisms have been documented. The charged characteristics of metal ions in biological fluids determine that they are affected by electromagnetic field forces, thus affecting life activities. Iron metabolism, as one of the important metal metabolic pathways, keeps iron absorption and excretion in a relatively balanced state, and this process is precisely and completely controlled. It is worth paying attention to how the iron metabolism process of living organisms is changed when exposed to electromagnetic fields. In this paper, the processes of iron absorption, storage and excretion in animals (mammals, fish, arthropods), plants and microorganisms exposed to electromagnetic field were summarized in detail as far as possible, in order to discover the regulation of iron metabolism by electromagnetic field. Studies and data on the effects of electromagnetic field exposure on iron metabolism in organisms show that exposure profiles vary widely across species and cell lines. This process involves a variety of factors, and the complexity of the results is not only related to the magnetic flux density/operating frequency/exposure time and the heterogeneity of the observed object. A systematic review of the biological regulation of iron metabolism by electromagnetic field exposure will not only contributes to a more comprehensive understanding of its biological effects and mechanism, but also is necessary to improve human awareness of the health related risks of electromagnetic field exposure. [ABSTRACT FROM AUTHOR]

Published

2024

23. Static magnetic field-induced IL-6 secretion in periodontal ligament stem cells accelerates orthodontic tooth movement.

Author

Luo, Shitong, Li, Zhilian, Liu, Lizhiyi, Zhao, Juan, Ge, Wenbin, Zhang, Kun, Zhou, Zhi, and Liu, Yali

Subjects

*CORRECTIVE orthodontics, *PERIODONTAL ligament, *STEM cells, *INTERLEUKIN-6, *SECRETION, *ALVEOLAR process, *GUIDED tissue regeneration

Abstract

Static magnetic field (SMF) promoting bone tissue remodeling is a potential non-invasive therapy technique to accelerate orthodontic tooth movement (OTM). The periodontal ligament stem cells (PDLSCs), which are mechanosensitive cells, are essential for force-induced bone remodeling and OTM. However, whether and how the PDLSCs influence the process of inflammatory bone remodeling under mechanical force stimuli in the presence of SMFs remains unclear. In this study, we found that local SMF stimulation significantly enhanced the OTM distance and induced osteoclastogenesis on the compression side of a rat model of OTM. Further experiments with macrophages cultured with supernatants from force-loaded PDLSCs exposed to an SMF showed enhanced osteoclast formation. RNA-seq analysis showed that interleukin-6 (IL-6) was elevated in force-loaded PDLSCs exposed to SMFs. IL-6 expression was also elevated on the pressure side of a rat OTM model with an SMF. The OTM distance induced by an SMF was significantly decreased after injection of the IL-6 inhibitor tocilizumab. These results imply that SMF promotes osteoclastogenesis by inducing force-loaded PDLSCs to secrete the inflammatory cytokine IL-6, which accelerates OTM. This will help to reveal the mechanism of SMF accelerates tooth movement and should be evaluated for application in periodontitis patients. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effect of Static Magnetic Field on the Quality of Pork during Super-Chilling Storage.

Author

Wang, Ting, Jin, Yamei, Zhang, Xiao, Yang, Na, and Xu, Xueming

Subjects

MAGNETIC field effects, COLOR of meat, MEAT storage, DENATURATION of proteins, PORK, PORK products

Abstract

Fresh pork tenderloin was stored at −3 °C under different static magnetic fields (SMF) of 0, 4, and 10 mT (control, MF-4, and MF-10) to investigate their physicochemical properties changes during storage of 8 days. The initial equilibrium temperature of the samples stored with 4 mT MF was found to be −2.3 °C, which was slightly lower (0.3 °C) than that the control value. The super-chilling phenomenon on the pork was then observed, as the samples stored under the magnetic field did not freeze throughout storage period, but the control experienced a sudden change in temperature after 138 h and then froze. The preservation effect of MF-4 on meat quality was the best in all treatment groups. MF-4 achieved a higher water-retention rate, with drip and cook losses of 6.5% and 29.0% lower than the control, respectively. Meanwhile, the MF-4 effectively delayed the color change in the meat during the storage and the texture hardening after cooking, and effectively controlled the growth of the total volatile saline nitrogen content on the samples. In addition, MF-4 delayed the reduction in myofibrillar protein solubility, sulfhydryl content, and emulsification capacity, indicating that this field inhibited the denaturation of myofibrillar protein. This study can be considered as an application reference of magnetic fields during meat storage at a super-chilled temperature. [ABSTRACT FROM AUTHOR]

Published

2024

25. Static Magnetic Field Reduces the Anticancer Effect of Hinokitiol on Melanoma Malignant Cells—Gene Expression and Redox Homeostasis Studies.

Author

Synowiec-Wojtarowicz, Agnieszka, Krawczyk, Agata, and Kimsa-Dudek, Magdalena

Subjects

*MELANOMA, *CANCER cells, *MAGNETIC fields, *ANTINEOPLASTIC agents, *GENE expression, *BRAF genes

Abstract

Background: Melanoma malignant is characterized by a high mortality rate, accounting for as much as 65% of deaths caused by skin cancer. A potential strategy in cancer treatment may be the use of natural compounds, which include hinokitiol (β-Thujaplicin), a phenolic component of essential oils extracted from cypress trees. Many studies confirm that a high-induction SMF (static magnetic field) has anticancer effects and can be used as a non-invasive anticancer therapy in combination with or without drugs. Aim: The aim of this experiment was to evaluate the effect of a static magnetic field on melanoma cell cultures (C32 and COLO 829) treated with hinokitiol. Methods and Results: Melanoma cells were exposed to a static magnetic field of moderate induction and hinokitiol. The research included determining the activity of the antioxidant enzymes (SOD, GPx, and CAT) and MDA concentration as well as the gene expression profile. Conclusion: Hinokitiol disturbs the redox homeostasis of C32 and COLO 829 melanoma malignant cells. Moreover, a static magnetic field has a protective effect on melanoma malignant cells and abolishes the anticancer effect of hinokitiol. [ABSTRACT FROM AUTHOR]

Published

2024

26. Static magnetic field reduces cisplatin resistance via increasing apoptosis pathways and genotoxicity in cancer cell lines.

Author

Zafari, Jaber, Rastegar-Pouyani, Nima, Javani Jouni, Fatemeh, Najjar, Nabaa, Azarshin, Seyedeh Zohreh, Jafarzadeh, Emad, Abdolmaleki, Parviz, and Hoseini Shirazi, Farshad

Subjects

*CISPLATIN, *CANCER cells, *MAGNETIC fields, *DRUG resistance in cancer cells, *GENETIC toxicology, *GENE expression

Abstract

Cisplatin is a chemotherapy drug widely used in cancer treatment. Alongside its clinical benefits, however, it may inflict intolerable toxicity and other adverse effects on healthy tissues. Due to the limitation of administering a high dose of cisplatin as well as cancer drug resistance, it is necessary to utilize new methods optimizing treatment modalities through both higher therapeutic efficacy and reduced administered doses of radiation and drugs. In this study, sensitive (A2780) and resistant (A2780CP) ovarian carcinoma cells underwent treatment with cisplatin + static magnetic field (SMF). First, the levels of genotoxicity after treatment were evaluated by Comet assay. Then, cell cycle analysis and apoptosis assay were conducted by a flow cytometer. Lastly, the expression levels of genes involved in apoptosis and cellular drug uptake were investigated by PCR. After treating different groups of cells for 24, 48, and 96 h, the co-treatment of SMF and cisplatin as a combination managed to increase the amount of DNA damage in both sensitive and resistant cell lines. A considerable increase in mortality of cells was also observed mostly in the form of apoptosis, which was caused by inhibition of the cell cycle. The combination also increased the expression levels of apoptotic genes, namely P53 and P21; however, it did not have much effect on the expression levels of BCL2. Besides, the levels of CTR1 gene expression increased significantly in the groups receiving the aforementioned combination. Our study suggests that the combination of cisplatin + SMF might have clinical potential which needs further investigations through future studies. [ABSTRACT FROM AUTHOR]

Published

2024

27. 静磁场对蜜环菌发酵产物结构和理化特性的影响.

Author

高 飞, 赵宇楠, 张 鑫, 张思琳, 蔡 丹, and 刘景圣

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

28. Effects of magnetic field pretreatment and chloride salt stress on physio-biochemical changes and γ-aminobutyric acid accumulation in germinated brown rice

Author

Ying Zhu, Shengqi Tan, Chong Xie, Dandan Li, Pei Wang, and Runqiang Yang

Subjects

germination, brown rice, γ-aminobutyric acid, chloride salt, static magnetic field, Food processing and manufacture, TP368-456

Abstract

Germinated brown rice is a staple food with high nutritional value and market prospects. Gamma-Aminobutyric Acid (GABA), abundantly present in germinated brown rice, has attracted significant attention due to its multiple active functions on the human body. This study aimed to enrich GABA in germinated brown rice by using static magnetic field pretreatment and NaCl, CaCl2 and KCl stress. After selecting Nanjing9108, which had the highest GABA content among the nine cultivars, a single-factor experiment was conducted and optimized the pretreatment condition as 10 mT static magnetic field for 40 min. Under this condition, the GABA content in brown rice germinated for 36 h was 66.35 mg/100 g, which was 13.88% higher than the control group. Simultaneously, the germination rate and early growth of germinated brown rice were also promoted. The optimal combination of culture medium for GABA enrichment obtained by response surface experimental design was NaCl 37.23 mmol/L, CaCl2 4.71 mmol/L, and KCl 5.75 mmol/L, with a GABA content of 69.783 mg/100 g. Under this condition, the changes in nutrients and the expression of glutamic acid decarboxylase (GAD) and GABA transaminase (GABA-T) related genes during the 0-48 h germination process of brown rice were studied. The relative expression of GAD was promoted and the relative expression of GABA-T was inhibited, resulting in the accumulation of GABA. This indicates that the combination of static magnetic field and salt treatment is an effective method to increase the GABA content in germinated brown rice.

Published

2024

29. Assessment of Exposure to Spatially Varying Magnetic Fields in MRI Environments: Modeling Analysis for Simulation Tools

Author

Valentina Hartwig, Marianna Cianfaglione, Francesco Campanella, Maria Antonietta D'avanzo, Carlo Sansotta, and Giuseppe Acri

Subjects

MRI safety, occupational exposure, static magnetic field, time-varying magnetic field, induced electric field, human movements, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Magnetic resonance imaging (MRI) is a non-invasive diagnostic technique widely used in medicine with more than 60 million exams per year performed worldwide. MRI personnel are always exposed to static and spatially heterogeneous magnetic fields (fringe or stray fields) and motion-induced time-varying magnetic fields during the working day. This kind of exposure can evoke vertigo and other sensory perceptions such as nausea, visual sensations, and a metallic taste which are not considered hazardous per se, but can be disturbing and may impair working ability. Up to now, no standardized procedures have been available in the literature for the assessment of occupational exposure in an MRI environment. The goal of this paper is to give some indications about the analytical models underlying the development of digital tools for occupational exposure assessment in MRI environments, to have easy but interactive educational tools, for educating MRI staff to avoid higher-risk conditions, and to draw up the best practices. Analysis of the models for the estimation of the magnetic field spatial distribution and the representation of the workers’ movements is described and finally, some recommendations for an accurate methodology to use in simulation tools for exposure assessment are given.

Published

2024

30. The effect of the static magnetic field on some of the mechanical properties of glass ionomer cements

Author

Zainab I. Alkhayat, Sarmad S. Salih Al Qassar, and Ammar Abdulghani Qasim

Subjects

glass ionomer cement, static magnetic field, polymerization, mechanical properties, Medicine, Dentistry, RK1-715

Abstract

Objective. The objective of this study was to investigate the impact of storing two distinct types of glass ionomer cement (GIC) in a static magnetic field (SMF) on their mechanical characteristics, namely compressive strength, microhardness and degree of conversion. Methods. In the current investigation, 10 samples of each GIC type were utilized for each test. The entire tube of the resin modified type was preserved in a (SMF) for a duration of 48 hours, whereas just the powder of the conventional type was retained in SMF for the same time period. The SMF was calibrated to a value of 225 Gauss. Special identical molds were prepared for each test. All the tests were performed after 24 incubation period at 37 degrees in deionized water. The final data were analyzed using Wilcoxon Rank test (p ≤0.05). Results. The compressive strength of the conventional type and resin modified type that used in this study were significantly increased after exposed to the SMF from 195.33 (29.6) to 209.286 (11.78) 317.29 (55.4) to 523.38 (13.07) MPa respectively. The degree of conversion was also improved significantly after exposed to SMF, as the conventional type increased from 37.03 to 45.00, while the resin modified type from 42.2 to 59.3, the conventional type improved significantly for microhardness test but the resin modified type improved non-significantly. Conclusion. Storing the GIC in a 225 gauss SMF enhances the mechanical characteristics and the degree of conversion of resin modified and conventional GIC.

Published

2023

31. Numerical verification test of positioning and attitude determination of underwater magnetic sensor

Author

Chengbao GUO, Wenjing WANG, and Ziyan TAI

Subjects

static magnetic field, underwater magnetic sensor, electromagnetic coil, calibration, localization, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

ObjectiveThis study proposes a design scheme for an underwater magnetic sensor calibration device. The device is composed of an electromagnetic coil and integrated navigation equipment which can be carried on a mobile platform to sail on the water surface, and realize the high-precision calibration of the position and attitude of the underwater magnetic sensor.MethodsAccording to information on the coil's attitude, orientation and trajectory, and the measured values of the magnetic field generated by the coil at the magnetic sensor, the position and attitude of the underwater magnetic sensor can be calculated using a nonlinear optimization algorithm. The mathematical model of the whole system is established and numerical verification tests are carried out, considering the effects of the measuring accuracy of the coil's position and attitude, the magnetic sensor's noise and measuring error, and geomagnetic interference.ResultsWhen the device is used and the magnetic sensor is at a depth of 30 m underwater, the mean value of position error is not more than 0.06 m, and the mean value of attitude error is not more than 0.20°; the accuracy of the magnetic sensor itself is the main factor affecting the calibration accuracy. ConclusionsThe proposed calibration device can achieve the high-precision calibration of the position and attitude of an underwater magnetic sensor at the same time, giving it great application value. It can be widely used in underwater magnetic target detection, resource exploration, medicine and other fields, especially scenarios involving the attitude deviation of underwater magnetic sensors.

Published

2023

32. Potential risk resulting from the influence of static magnetic field upon living organisms. Numerically-simulated effects of the static magnetic field upon carbohydrates

Author

Ciesielski, Wojciech, Girek, Tomasz, Kołoczek, Henryk, Oszczeda, Zdzislaw, Soroka, Jacek, Tomasik, Piotr, and Pensoft Publishers

Subjects

D-fructose, D-galactose, D-glucose, D-xylose, organisms, static magnetic field

Published

2022

33. Potential risk resulting from the influence of static magnetic field upon living organisms. Numerically simulated effects of the static magnetic field upon simple alkanols

Author

Ciesielski, Wojciech, Girek, Tomasz, Oszczeda, Zdzislaw, Soroka, Jacek, Tomasik, Piotr, and Pensoft Publishers

Subjects

Butanols, ethanol, methanol, organisms, propanols, static magnetic field

Published

2022

34. ESR Essentials: basic physics of MR safety—practice recommendations by the European Society for Magnetic Resonance in Medicine and Biology

Author

Nordin, Love Engström, Åberg, Karin, Kihlberg, Johan, Owman, Titti, Hansson, Boel, Björkman-Burtscher, Isabella M., Petersen, Cecilia, and Lundberg, Peter

Published

2024

35. Impact of silver ions and silver nanoparticles on biochemical parameters and antioxidant enzyme modulations in Saccharomyces cerevisiae under co-exposure to static magnetic field: a comparative investigation

Author

Kthiri, Ameni, Hamimed, Selma, Tahri, Wiem, Landoulsi, Ahmed, O’Sullivan, Siobhan, and Sheehan, David

Published

2024

36. Efficient THz generation through laser and plasma parameter optimization with Sinh-Gaussian beams in magnetized plasma

Author

Singh, Jasveer, Rani, Sunita, Midha, Hitesh Kumar, Sharma, Vivek, and Thakur, Vishal

Published

2024

37. Influence of a static magnetic field on the photosynthetic apparatus, cell division, and biomass composition of a Chlorella microalgae-bacteria consortium.

Author

Silveira Font, Yadira, Ortega Díaz, Yadenis, Cuypers, Ann, Alemán, Elizabeth Isaac, and Vandamme, Dries

Abstract

The main objective of this research was to evaluate the effect of a 47 mT static magnetic field (SMF) applied at different times of the exponential growth phase of a Chlorella microalgae-bacteria consortium. For this, growth parameters, cell division, the photochemical activity of photosystem II (PS II), and the biochemical composition of the microorganisms were studied. Biomass concentration and productivity of cultures exposed to SMF increased concerning control cultures, reaching maximum values when this physical agent was applied in the early exponential phase, 0.89 g L−1 and 0.075 g L−1 d−1, respectively. In addition, SMF application stimulated binary and multiple cell division of cultures exposed during early and late exponential phases. PS II quantum yield was significantly increased over control cultures immediately after applying SMF during early (0.70) and late (0.73) exponential phases. In addition, in cultures exposed to SMF, the quantum yield for electron transport (ϕEo) increased, and the absorption flux per reaction center (ABS/RC) decreased, which was associated with an increase in the active reaction centers of PS II. Extracellular protein, carbohydrate, and polysaccharide content varied when SMF was applied during the early exponential phase. No significant differences were observed regarding the lipid content of the control cultures and those exposed to SMF. It is concluded that SMF increases the formation of radical pairs in photosystem II due to the increase in the number of active reaction centers, which could constitute the mechanism of action of this system. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of ultra-high field MRI environment on cognitive performance in healthy participants.

Author

Wennberg, L., Mårtensson, J., Langensee, L., Sundgren, P.C., Markenroth Bloch, K., and Hansson, B.

Abstract

Ultra-high field MRI (UHF MRI) is rapidly becoming an essential part of our toolbox within health care and research studies; therefore, we need to get a deeper understanding of the physiological effects of ultra-high field. This study aims to investigate the cognitive performance of healthy participants in a 7 T (T) MRI environment in connection with subjectively experienced effects. We measured cognitive performance before and after a 1-h 7T MRI scanning session using a Digit Symbol Substitution Test (DSST) in 42 subjects. Furthermore, a computer-based survey regarding the subjectively experienced effects in connection with the MRI examination was distributed. Similarly, two DSSTs were also performed by a control group of 40 participants. Even though dizziness was the strongest sensory perception in connection to the MRI scanning, we did not find any correlation between dizziness and cognitive performance. Whilst the control group improved (p =<0.001) on their second DSST the MRI group showed no significant difference (p =0.741) in the DSST before and after MRI scanning. Transient effect on cognition after undergoing MRI scanning can't be ruled out as the expected learning effect on the DSST was not observed. Increasing understanding of the possible adverse effects may guide operators in performing UHF MRI in a safe way and with person-centered care. Furthermore, it can guide researchers in setting up research protocols to minimize confounding factors in their fMRI studies due to the transient adverse effects of the UHF environment. [ABSTRACT FROM AUTHOR]

Published

2024

39. The Effect of Static Magnetic Field in Enhancing the Level of BMP-2 and FGF-2 during Early Phase of Osseointegration.

Author

Nelwan, Leonard Christiaan, Nelwan, Sindy Cornelia, Meizarini, Asti, Jayakusuma, Joyceline Eunika, and Nowwarote, Nunthawan

Subjects

MAGNETIC field effects, OSSEOINTEGRATION, BONE resorption, DENTAL implants, MANDIBLE

Abstract

Growth factors have been reported play a significant role in accelerating osseointegration and to increase implant stability, especially bone morphogenetic protein-2 (BMP-2) and fibroblast growth factor-2 (FGF-2) that can stimulate bone formation and remodelling. Static magnetic field (SMF) is known to able to support osseointegration in several studies by advancing bone regeneration. The aim of this study was to evaluate the effects of SMF as healing abutment in accelerating osseointegration and enhancing implant stability, illustrated in the level of BMP-2 and FGF-2. An experimental analytic study with randomized control trial design, single blind, on patients. There were 40 implants installed at mandibular D2 bone and were divided into control group (n=20) and intervention group (n=20). Control group was installed titanium healing abutment, and intervention group used SMF healing abutment. Patients were advised to come on day 3, 10, 30, and 60 for control and sample collecting purposes. Gingival sulcus fluid was taken from peri-implant sulcus using Periopaper and analyzed it with ELISA to get BMP-2 and FGF-2. Statistic used was software R, 4.1 version. The use of SMF healing abutment is able to significantly increase FGF-2 level at day 3 and 10 post implant placement, compared to control group. The level of BMP-2 also increases significantly throughout the monitoring period in intervention group. This may suggest a faster osseointegration process. SMF as a promising healing abutment can increase the level of FGF-2 and BMP-2 in early phase of osseointegration; hence it can reduce the marginal crestal alveolar bone loss after dental implant placement. [ABSTRACT FROM AUTHOR]

Published

2024

40. Effects of static magnetic field on the sulfate metabolic pathway involved in Magnetospirillum magneticum AMB-1 cell growth and magnetosome formation.

Author

Chen, Haitao, Shi, Hongkai, Chen, Changyou, Jiao, Yangkun, Wang, Pingping, Chen, Chuanfang, Li, Jinhua, Wu, Long-Fei, and Song, Tao

Subjects

*MAGNETIC field effects, *CELL growth, *GEOMAGNETISM, *SULFUR metabolism, *MAGNETIC fields, *MICROBIOLOGICAL assay

Abstract

Aims Magnetotactic bacteria (MTB) can use their unique intracellular magnetosome organelles to swim along the Earth's magnetic field. They play important roles in the biogeochemical cycles of iron and sulfur. Previous studies have shown that the applied magnetic fields could affect the magnetosome formation and antioxidant defense systems in MTB. However, the molecular mechanisms by which magnetic fields affect MTB cells remain unclear. We aim to better understand the dark at 28°C–29°C for 20 h, as shownthe interactions between magnetic fields and cells, and the mechanism of MTB adaptation to magnetic field at molecular levels. Methods and results We performed microbiological, transcriptomic, and genetic experiments to analyze the effects of a weak static magnetic field (SMF) exposure on the cell growth and magnetosome formation in the MTB strain Magnetospirillum magneticum AMB-1. The results showed that a 1.5 mT SMF significantly promoted the cell growth but reduced magnetosome formation in AMB-1, compared to the geomagnetic field. Transcriptomic analysis revealed decreased expression of genes primarily involved in the sulfate reduction pathway. Consistently, knockout mutant lacking adenylyl-sulfate kinase CysC did no more react to the SMF and the differences in growth and C mag disappeared. Together with experimental findings of increased reactive oxidative species in the SMF-treated wild-type strain, we proposed that cysC , as a key gene, can participate in the cell growth and mineralization in AMB-1 by SMF regulation. Conclusions This study suggests that the magnetic field exposure can trigger a bacterial oxidative stress response involved in AMB-1 growth and magnetosome mineralization by regulating the sulfur metabolism pathway. CysC may serve as a pivotal enzyme in mediating sulfur metabolism to synchronize the impact of SMF on both growth and magnetization of AMB-1. [ABSTRACT FROM AUTHOR]

Published

2023

41. The Effect of Static Magnetic Fields of Different Strengths and Polarities on Cytokine Production by Human Lymphocytes In Vitro

Author

Vladimir Turuntaš, Silvio de Luka, Jasna L. Ristić-Djurovic, Saša Ćirković, Drago Djordjevich, Siniša Ristić, Nenad Lalović, Veljko Marić, Bratislav Lazić, Bojan Joksimović, Ivan Stanojevic, Saša Vasilijić, and Alexander M. Trbovich

Subjects

static magnetic field, cytokines, lymphocytes, Technology, Biology (General), QH301-705.5

Abstract

In contrast to electromagnetic fields, static magnetic fields (SMFs) have not been extensively studied in terms of their potential health consequences. Although upward- and downward-oriented magnetic poles may cause various biological effects, only the pole with the upward orientation has been mainly investigated. Considering that the interaction of antigen-presenting cells (APCs) and T lymphocytes is crucial to trigger an immune response, we assessed the effect of long-term exposure of human T lymphocytes and dendritic cells (DCs) to moderate strength SMFs of different orientations focusing on the cytokine profile of activated T cells. Cultures of allogenic T lymphocytes and DCs (immature and matured by TLR3 and TLR7 agonists) were continuously exposed to four SMFs. The intensity of the applied field was 1 militesla (mT) or 56 mT of the upward- and downward-oriented pole of the SMF. Cell culture supernatants were assayed for IFN-γ, IL-4, IL-17, TNF-α, TNF-β, IL-1 β, IL-6, IL-8, and IL-10 by ELISA or flow cytometry. The upward-oriented 56 mT SMF significantly increased the release of IFN-γ and TNF-β (both p < 0.05) in the cell culture supernatants of T cells and immature DCs. In contrast, the same cultures exposed to the upward-oriented 1 mT SMF showed significantly elevated levels of IL-17 (p < 0.05). The levels of IL-4, TNF-α, IL-1 β, IL-6, IL-8, and IL-10 were not affected by the upward-oriented SMF. The downward-oriented 56 mT SMF increased TNF-α release when T cells were stimulated with mature DCs. The production of other cytokines was unchanged by the downward-oriented SMF. These findings demonstrate for the first time different in vitro biological effects of upward- and downward-oriented static magnetic fields on the cytokine production of T cells activated by DCs, helping to better understand SMF effects on the immune system and suggesting that the selective SMF effect on the immune response could have potential therapeutic effects in different immune-mediated disorders.

Published

2024

42. Impacts of Static Magnetic Field on Bone Health

Author

Lv, Huanhuan, Yang, Jiancheng, Xue, Yanru, and Zhang, Xin, editor

Published

2023

43. Effects of static magnetic field-assisted preservation on the quality of blueberry

Author

ZHOU Yuyi, YANG Na, MENG Man, WEI Jian, and XU Xueming

Subjects

static magnetic field, preservation, blueberry, quality, active ingredient, Food processing and manufacture, TP368-456

Abstract

Objective: This study aimed to explore a new method to improve the blueberry quality during the preservation. Methods: Blueberries were stored at 4 ℃ for 7 days in 0, 3, 6 and 10 mT static magnetic fields respectively. Meanwhile, the apparent morphology, weight loss rate, decay rate, content of anthocyanidin and total phenol cell membrane permeability, superoxide dismutase activity and content of malondialdehyde of blueberries were analyzed. Results: The physicochemical properties of blueberries improved significantly with the increase of magnetic-field strength. Compared with the control, most of the blueberries treated by 10 mT static magnetic field remained plump during the storage. The weight loss and decay rate of blueberries decreased by 55.63% and 62.14%, respectively. In addition, the loss of anthocyanin and phenolic substances was reduced. Conclusion: The quality of blueberry was significantly improved by static magnetic field-assisted preservation.

Published

2023

44. Comparison of Phase Separation Structures between Undercooled Cu–Fe and Cu–Co Alloys Solidified Under a Static Magnetic Field

Author

Taiki Okuyama, Rikuto Suzuki, Masaki Kubo, Takao Tsukada, Eita Shoji, and Hiroyuki Fukuyama

Subjects

Cu-based alloys, Undercooling solidification, Phase separation, Convection, Static magnetic field, Chemical engineering, TP155-156

Abstract

An electromagnetic levitation technique superimposed with a static magnetic field was used to investigate the effects of the convection and cooling rate of levitated molten Cu80Fe20 alloy on the size and morphology of induced phase separation structures formed during undercooling. The obtained results were compared to our previous works on the Cu80Co20 alloy, in terms of the size and morphology of the phase-separated structures of dispersed Fe-rich phases. It was revealed that the Sauter mean diameter in the two systems followed the same trend, although the Co-rich phases were larger in size than the Fe-rich ones at higher static magnetic fields. Under a larger static magnetic field, the separated Co-rich phases in Cu–Co alloys had an elongated shape along the direction of the static magnetic field, while the Fe-rich phases in Cu–Fe remained almost spherical in shape. This difference in shapes was attributed to physical properties, particularly their magnetic susceptibility.

Published

2023

45. Simultaneously enhanced strength and ductility of AlSi7Mg alloy fabricated by laser powder bed fusion with on-line static magnetic field

Author

Zhenyu Zhang, Jikang Li, Tan Cheng, Qing Teng, Yin Xie, Yu Wei, Wei Li, and Qingsong Wei

Subjects

laser powder bed fusion, static magnetic field, thermoelectric magnetic force, alsi7mg, columnar-to-equiaxed transition, Science, Manufactures, TS1-2301

Abstract

This work studied the effects of an on-line static magnetic field on the defects, microstructures, and mechanical properties of AlSi7Mg samples fabricated by laser powder bed fusion (LPBF). Process experiments were carried out on a self-developed LPBF equipment with an on-line static magnetic field generating system, where magnetic field intensity was adjustable from 0 to 0.3 T. With the action of static magnetic field, the relative density of samples increased from 96.9% to 98.6%. Furthermore, the solidification front of the columnar grain in the mushy zone was broken. With the increase of magnetic field intensity, the crystallographic orientation changed from strong to , and uniform distribution and the average grain was gradually refined from 8.35 to 7.22 μm. Based on the above optimisation, the ultimate tensile strength increased from (326.67 ± 5.31) MPa to (382.00 ± 2.45) MPa. Simultaneously, the elongation at break increased from 8.48% ± 0.20% to 11.78% ± 0.20%. In general, the reduction of pores, the refinement of grains and the increase of Mg2Si precipitates contributed to the simultaneous enhancement of strength and toughness together. This study could provide a new idea for laser additive manufacturing of excellent performance aluminum alloys.

Published

2023

46. 恒稳磁场辅助冷藏保鲜对蓝莓品质的影响.

Author

周宇益, 杨哪, 孟嫚, 魏建, and 徐学明

Abstract

Copyright of Food & Machinery is the property of Food & Machinery 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

2023

47. Passive Electrical Components Based on Cotton Fabric Decorated with Iron Oxides Microfibers: The Influence of Static and Pulsed Magnetic Fields on the Equivalent Electrical Properties.

Author

Bica, Ioan, Anitas, Eugen Mircea, Choi, Hyoung-Jin, and Wang, Shizhao

Subjects

MICROFIBERS, MAGNETIC fields, FERRIC oxide, IRON oxides, PASSIVE components, COTTON textiles

Abstract

In this work, environmentally friendly and low-cost passive electrical components (PECs) are manufactured based on composites consisting of cotton fabrics soaked with solutions of silicone oil and different amounts of iron oxides microfibers (μ Fe). The μ Fe consists of a mixture of three phases: hematite (α -Fe 2 O 3 ), maghemite (γ -Fe 2 O 3 ), and magnetite (Fe 3 O 4 ). The equivalent electrical capacitance ( C p ) and resistance ( R p ) of PECs are measured as a function of magnetic flux density B in a static and pulsed magnetic field superimposed on an alternating electric field of frequency 1 kHz. The relative variation in the hysteresis curves for both C p and R p are obtained by measuring them in the ascending and then the descending mode of B. We show that all these three quantities are sensibly influenced by the volume fractions of μ Fe and by the values of B. The main influence on this behavior is attributed to the semiconductor properties of the α -Fe 2 O 3 and γ -Fe 2 O 3 components of the oxide microfibers. In addition, it is found that at B ≃ 175 mT, the maximum relative variance of the hysteresis curve is about 3.35% for C p and 3.18 % for R p . When a pulsed magnetic field is used, it is shown that C p and R p closely follow the variation in the magnetic field. Thus, the resulting electrical properties of PECs, together with the fast response to the application of pulsed magnetic fields, make them useful in the fabrication of various devices, such as electric, magnetic, and deformation fields, or mechanical stress sensors with applications in protection against electromagnetic smog, healthcare monitoring, or for human–machine interfacing. [ABSTRACT FROM AUTHOR]

Published

2023

48. Application of high-intensity static magnetic field as a strategy to enhance the fertilizing potential of sewage sludge digestate.

Author

Di Costanzo, Nicola, Cesaro, Alessandra, Di Capua, Francesco, Mascolo, Maria Cristina, and Esposito, Giovanni

Subjects

*SEWAGE sludge, *MAGNETIC fields, *ANAEROBIC digestion, *MAGNETICS, *WASTE recycling

Abstract

[Display omitted] • Strong magnetization promotes the fertilizing potential of sewage sludge digestate. • Magnetization enriched the digestate of slow-release nutrient-based precipitates. • Nutrient precipitation in the digestate increases with increasing magnetic exposure. • In-line oxygenation during digestion promoted precipitation more than pre-oxygenation. • The best treatment conditions for struvite formation were identified. Anaerobic digestion (AD) is a sustainable and well-established option to handle sewage sludge (SS), as it generates a methane-rich biogas and a digestate with potential fertilizing properties. In the past, different strategies have been proposed to enhance the valorization of SS. Among these, the application of a static magnetic field (SMF) has been poorly evaluated. This study aims to determine the effects of a high-intensity SMF (1.5 and 2 T) on the chemical composition of SS anaerobic digestate. Several strategies (i.e., number of magnetization cycles, addition of different sources and quantities of magnesium, and digestate aeration) have been applied to evaluate the possible formation of compounds with valuable fertilizing properties in the digestate. Experimental results showed that by combining different strategies promoting digestate exposure to the magnetic field it is possible to favour the reduction in the liquid phase of NH 4 +, NO 3 −, PO 4 3−, SO 4 2− and Mg2+ concentrations up to 28%, 38%, 34%, 39% and 31%, respectively. The XRD analyses conducted on the solid phase of the same magnetized digestate samples showed an increase in crystalline and amorphous phases of nitrogen and phosphorus compounds with fertilizing value, such as struvite. These results highlight that SMF application can increase the fertilizing potential of sewage sludge digestate and promote its valorization in a sustainable and circular perspective. [ABSTRACT FROM AUTHOR]

Published

2023

49. The effect of the static magnetic field on some of the mechanical properties of glass ionomer cements.

Author

Alkhayat, Zainab I., Salih Al Qassar, Sarmad S., and Qasim, Ammar Abdulghani

Subjects

*MAGNETIC field effects, *MICROHARDNESS testing, *CEMENT, *DEIONIZATION of water, *COMPRESSIVE strength

Abstract

Objective. The objective of this study was to investigate the impact of storing two distinct types of glass ionomer cement (GIC) in a static magnetic field (SMF) on their mechanical characteristics, namely compressive strength, microhardness and degree of conversion. Methods. In the current investigation, 10 samples of each GIC type were utilized for each test. The entire tube of the resin modified type was preserved in a (SMF) for a duration of 48 hours, whereas just the powder of the conventional type was retained in SMF for the same time period. The SMF was calibrated to a value of 225 Gauss. Special identical molds were prepared for each test. All the tests were performed after 24 incubation period at 37 degrees in deionized water. The final data were analyzed using Wilcoxon Rank test (p ≤0.05). Results. The compressive strength of the conventional type and resin modified type that used in this study were significantly increased after exposed to the SMF from 195.33 (29.6) to 209.286 (11.78) 317.29 (55.4) to 523.38 (13.07) MPa respectively. The degree of conversion was also improved significantly after exposed to SMF, as the conventional type increased from 37.03 to 45.00, while the resin modified type from 42.2 to 59.3, the conventional type improved significantly for microhardness test but the resin modified type improved non-significantly. Conclusion. Storing the GIC in a 225 gauss SMF enhances the mechanical characteristics and the degree of conversion of resin modified and conventional GIC. [ABSTRACT FROM AUTHOR]

Published

2023

50. PROTOCOLO 3D DO BIOMAGNETISMO MEDICINAL NO TRATAMENTO DA OBESIDADE.

Author

Midding Lazzari, Claudete, da Silva Peplinski, Sandra Pitondo, Mara Rambo, Angela, Oliveira Lima, Márcia Maria, and Viapiana Bossa, Adriane

Subjects

OBESITY treatment, OBESITY, RESEARCH methodology, CROSS-sectional method, MAGNETICS, QUANTITATIVE research, TREATMENT effectiveness, ALTERNATIVE medicine, BODY mass index

Abstract

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Published

2023