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Effects of gradient high-field static magnetic fields on diabetic mice 被引量:5
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作者 Biao Yu Chao Song +11 位作者 Chuan-Lin Feng Jing Zhang Ying Wang Yi-Ming Zhu Lei Zhang Xin-Miao Ji Xiao-Fei Tian Guo-Feng Cheng Wei-Li Chen Vitalii Zablotskii Hua Wang Xin Zhang 《Zoological Research》 SCIE CAS CSCD 2023年第2期249-258,共10页
Although 9.4 T magnetic resonance imaging(MRI) has been tested in healthy volunteers,its safety in diabetic patients is unclear.Furthermore,the effects of high static magnetic fields(SMFs),especially gradient vs.unifo... Although 9.4 T magnetic resonance imaging(MRI) has been tested in healthy volunteers,its safety in diabetic patients is unclear.Furthermore,the effects of high static magnetic fields(SMFs),especially gradient vs.uniform fields,have not been investigated in diabetics.Here,we investigated the consequences of exposure to 1.0-9.4 T high SMFs of different gradients(>10 T/m vs.0-10 T/m)on type 1 diabetic(T1D) and type 2 diabetic(T2D) mice.We found that 14 h of prolonged treatment of gradient(as high as 55.5 T/m) high SMFs(1.0-8.6 T) had negative effects on T1D and T2D mice,including spleen,hepatic,and renal tissue impairment and elevated glycosylated serum protein,blood glucose,inflammation,and anxiety,while 9.4 T quasi-uniform SMFs at 0-10 T/m did not induce the same effects.In regular T1D mice(blood glucose>16.7 mmol/L),the>10 T/m gradient high SMFs increased malondialdehyde(P<0.01) and decreased superoxide dismutase(P<0.05).However,in the severe T1D mice(blood glucose≥30.0 mmol/L),the>10 T/m gradient high SMFs significantly increased tissue damage and reduced survival rate.In vitro cellular studies showed that gradient high SMFs increased cellular reactive oxygen species and apoptosis and reduced MS-1 cell number and proliferation.Therefore,this study showed that prolonged exposure to high-field(1.0-8.6 T)>10 T/m gradient SMFs(35-1 380 times higher than that of current clinical MRI)can have negative effects on diabetic mice,especially mice with severe T1D,whereas 9.4 T high SMFs at 0-10T/m did not produce the same effects,providing important information for the future development and clinical application of SMFs,especially high-field MRI. 展开更多
关键词 Type 2 diabetes Type 1 diabetes magnetic resonance imaging(MRI) Gradient static magnetic field Quasi-uniform static magnetic field
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Effects of static magnetic fields on melt flow in detached solidification 被引量:3
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作者 彭岚 龚欢 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第3期936-943,共8页
A series of three-dimensional numerical computations were conducted to understand the effects of different static magnetic fields on thermal fluctuation and melt flow during the detached solidification of CdZnTe. Nume... A series of three-dimensional numerical computations were conducted to understand the effects of different static magnetic fields on thermal fluctuation and melt flow during the detached solidification of CdZnTe. Numerical calculations were carried out by three different configurations of magnetic field: without magnetic field, with an axial magnetic field (AMF) and with a cusp-shaped magnetic field (CMF). The results reveal that the magnetic fields can effectively suppress the melt flow and thermal fluctuation and the suppression effect of the AMF is stronger than that of the CMF. Besides, the physical mechanism of thermocapillary?buoyancy convection instability was discussed and the effects of magnetic field on the critical Marangoni number were also obtained. 展开更多
关键词 detached solidification static magnetic field thermocapillary-buoyancy convection numerical simulation CDZNTE
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Effects of 13 T Static Magnetic Fields (SMF) in the Cell Cycle Distribution and Cell Viability in Immortalized Hamster Cells and Human Primary Fibroblasts Cells 被引量:2
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作者 赵国平 陈少鹏 +8 位作者 赵烨 朱玲燕 黄佩 鲍凌志 王军 王磊 吴李君 吴跃进 许安 《Plasma Science and Technology》 SCIE EI CAS CSCD 2010年第1期123-128,共6页
Magnetic resonance image (MRI) systems with a much higher magnetic flux density were developed and applied for potential use in medical diagnostic. Recently, much attention has been paid to the biological effects of... Magnetic resonance image (MRI) systems with a much higher magnetic flux density were developed and applied for potential use in medical diagnostic. Recently, much attention has been paid to the biological effects of static, strong magnetic fields (SMF). With the 13 T SMF facility in the Institute of Plasma Physics, Chinese Academy of Sciences, the present study focused on the cellular effects of the SMF with 13 T on the cell viability and the cell cycle distribution in immortalized hamster cells, such as human-hamster hybrid (AL) cells, Chinese hamster ovary (CHO) cells, DNA double-strand break repair deficient mutant (XRS-5) cells, and human primary skin fibroblasts (AG1522) cells. It was found that the exposure of 13 T SMF had less effect on the colony formation in either nonsynchronized or synchronized AL cells. Moreover, as compared to non-exposed groups, there were slight differences in the cell cycle distribution no matter in either synchronized or nonsynchronized immortalized hamster ceils after exposure to 13 T SMF. However, it should be noted that the percentage of exposed AG1522 cells at G0/G1 phase was decreased by 10% as compared to the controls. Our data indicated that although 13 T SMF had minimal effects in immortalized hamster cells, the cell cycle distribution was slightly modified by SMF in human primary fibroblasts. 展开更多
关键词 static magnetic fields immortalized hamster cells human primary fibroblasts cells
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Genotoxic Effects of Superconducting Static Magnetic Fields(SMFs)on Wheat(Triticum aestivum)Pollen Mother Cells(PMCs)
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作者 张萍萍 尹若春 +2 位作者 陈治友 吴丽芳 余增亮 《Plasma Science and Technology》 SCIE EI CAS CSCD 2007年第2期241-247,共7页
The effects of superconducting static magnetic fields (SMFs) on the pollen mother cells (PMCs) of wheat were investigated in order to evaluate the possible genotoxic effect of such non-ionizing radiation. The seed... The effects of superconducting static magnetic fields (SMFs) on the pollen mother cells (PMCs) of wheat were investigated in order to evaluate the possible genotoxic effect of such non-ionizing radiation. The seeds of wheat were exposed to static magnetic fields with either different magnetic flux densities (0, 1, 3, 5 and 7 Tesla) for 5 h or different durations (1, 3 and 5 h) at a magnetic flux density of 7 Tesla. The seeds were germinated at 23℃ after exposure and the seedlings were transplanted into the field. The PMCs from young wheat ears were taken and slides were made following the conventional method. The genotoxic effect was evaluated in terms of micronucleus (MN), chromosomal bridge, lagging chromosome and fragments in PMCs. Although the exposed groups of a low field intensity (below 5 Tesla) showed no statistically significant difference in the aberration frequency compared with the unexposed control groups and sham exposed groups, a significant increase in the chromosomal bridge, lagging chromosome, triple-polar segregation or micronucleus was observed at a field strength of 5 Tesla or 7 Tesla, respectively. The analysis of dose-effect relationships indicated that the increased frequency of meiotic abnormal cells correlated with the flux density of the magnetic field and duration, but no linear relationship was observed. Such statistically significant differences indicated a potential genotoxic effect of high static magnetic fields above 5 T. 展开更多
关键词 chromosomal aberration MICRONUCLEUS superconducting static magnetic fields pollen mother cells
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Experimental study of repair effects of moderate-intensity static magnetic fields on type 2 diabetic soft tissue wound healing
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作者 Dan Liu Tian-Ci Wang +1 位作者 Da Jing Shu-Hua Ge 《Journal of Hainan Medical University》 2019年第19期1-6,共6页
Objective: To systematically explore the effects of moderate-intensity static magnetic fields (SMF) on type 2 diabetic wound healing and preliminarily explore the possible mechanism, and hence to lay a foundation for ... Objective: To systematically explore the effects of moderate-intensity static magnetic fields (SMF) on type 2 diabetic wound healing and preliminarily explore the possible mechanism, and hence to lay a foundation for its scientific and extensive clinical application. Methods:Round-shape wound of soft tissues with 1-cm diameter was constructed on the dorsum of thirty-two 3-month-old male type 2 diabetic db/db mice and sixteen wild-type mice with the same gene background, followed by covered with transparent film wound dressing. The experiment was divided into the control group (control), db/db mice group (db/db), and db/db mice exposed to SMF group (db/db+SMF) with sixteen mice in each group. Four mice in each group were killed post 5, 12 and 19 days of the wound model establishment, respectively. The mice in the db/db+SMF group were subjected to systemic SMF exposure (4 mT peak intensity) with 2 h per day. The wound closure rate, overall wound healing period, tensile strength, and histopathological morphology in each group were determined and analyzed. The interleukin-1β (IL-1β), tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6) and vascular endothelial growth factor (VEGF) gene expression were also measured and analyzed. Results: SMF significantly increased the wound closure rate (P<0.05), decreased the overall healing period (P<0.05), increased the tensile strength of wound tissues (P<0.05), decreased the number of inflammatory cells, and inhibited the expression of inflammatory cytokines (IL-1β, TNF-αand IL-6) in db/db mice at 5, 12 and 19 days post-surgery (P<0.05), whereas SMF had no significant effect on the VEGF expression. Conclusion: Moderate-intensity systemic SMF exposure exhibits positive therapeutic effects on accelerating type 2 diabetic soft tissue wound repair, and the positive effects are closely related to its significant anti-inflammatory response. 展开更多
关键词 static magnetic fields Type 2 diabetes mellitus Soft tissue wound Inflammatory cytokines Tensile strength
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Acetaminophen overdose-induced acute liver injury can be alleviated by static magnetic field
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作者 Han-Xiao Chen Xin-Yu Wang +11 位作者 Biao Yu Chuan-Lin Feng Guo-Feng Cheng Lei Zhang Jun-Jun Wang Ying Wang Ruo-Wen Guo Xin-Miao Ji Wen-Jing Xie Wei-Li Chen Chao Song Xin Zhang 《Zoological Research》 SCIE CSCD 2024年第3期478-490,共13页
Acetaminophen(APAP),the most frequently used mild analgesic and antipyretic drug worldwide,is implicated in causing 46%of all acute liver failures in the USA and between 40%and 70%in Europe.The predominant pharmacolog... Acetaminophen(APAP),the most frequently used mild analgesic and antipyretic drug worldwide,is implicated in causing 46%of all acute liver failures in the USA and between 40%and 70%in Europe.The predominant pharmacological intervention approved for mitigating such overdose is the antioxidant N-acetylcysteine(NAC);however,its efficacy is limited in cases of advanced liver injury or when administered at a late stage.In the current study,we discovered that treatment with a moderate intensity static magnetic field(SMF)notably reduced the mortality rate in mice subjected to high-dose APAP from 40%to 0%,proving effective at both the initial liver injury stage and the subsequent recovery stage.During the early phase of liver injury,SMF markedly reduced APAPinduced oxidative stress,free radicals,and liver damage,resulting in a reduction in multiple oxidative stress markers and an increase in the antioxidant glutathione(GSH).During the later stage of liver recovery,application of vertically downward SMF increased DNA synthesis and hepatocyte proliferation.Moreover,the combination of NAC and SMF significantly mitigated liver damage induced by high-dose APAP and increased liver recovery,even 24 h post overdose,when the effectiveness of NAC alone substantially declines.Overall,this study provides a noninvasive non-pharmaceutical tool that offers dual benefits in the injury and repair stages following APAP overdose.Of note,this tool can work as an alternative to or in combination with NAC to prevent or minimize liver damage induced by APAP,and potentially other toxic overdoses. 展开更多
关键词 ACETAMINOPHEN Acute liver injury static magnetic fields Oxidative stress DNA synthesis
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Targeted inductive heating of nanomagnets by a com- bination of alternating current (AC) and static magnetic fields 被引量:3
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作者 Ming Ma Yu Zhang Xuli Shen Jun Xie Yan Li Ning Gu 《Nano Research》 SCIE EI CAS CSCD 2015年第2期600-610,共11页
The conversion of electromagnetic energy into heat by nanomagnets has the potential to be a powerful, non-invasive technique for cancer therapy by hyperthermia and hyperthermia-based drug release, while temperature co... The conversion of electromagnetic energy into heat by nanomagnets has the potential to be a powerful, non-invasive technique for cancer therapy by hyperthermia and hyperthermia-based drug release, while temperature controllability and targeted heating are challenges to developing applications of such magnetic inductive hyperthermia. This study was designed to control the hyperthermia position and area using a combination of alternating current (AC) and a static magnetic field. MnZn ferrite (MZF) nanoparticles which exhibited excellent hyperthermia properties were first prepared and characterized as an inductive heating mediator. We built model static magnetic fields simply using a pair of permanent magnets and studied the static magnetic field distributions by measurements and numerical simulations. The influence of the transverse static magnetic fields on hyperthermia properties was then investigated on MZF magnetic fluid, gel phantoms and SMMC-7721 cells in vitro. The results showed a static magnetic field can inhibit the temperature rise of MZF nanoparticles in an AC magnetic field. But in the uneven static magnetic field formed by a magnet pair with repelling poles face-to-face, the heating area can be restricted in a central low static field; meanwhile the side effects of hyperthermia can be reduced by a surrounding high static field. As a result we can position the hyperthermia area, protect the non-therapeutic area, and reduce the side effects lust by using a well-designed combination of AC and static field. 展开更多
关键词 HYPERTHERMIA magnetic nanoparticles static magnetic field alternating magnetic field MnZn ferrite
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Design Optimization for Generating a High Static Magnetic Field
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作者 Hussien A. Elharati Salma Ahmed Alharati +1 位作者 Ziad Omar Wareg Mohamed Amro Waregh 《World Journal of Engineering and Technology》 2023年第4期793-806,共14页
This paper details the creation of a device capable of generating a powerful and consistent static magnetic field. This apparatus serves the purpose of quantifying the magnetostrictive strain found in materials like a... This paper details the creation of a device capable of generating a powerful and consistent static magnetic field. This apparatus serves the purpose of quantifying the magnetostrictive strain found in materials like annealed cobalt ferrite and Terfenol-D, specifically those shaped as cylindrical rods. In our investigation, the use of static magnetic fields proves most advantageous. This choice is made to mitigate the generation of eddy currents, which would inevitably occur if the magnetic field intensity were varied. The fundamental idea behind this design involves employing a C-shaped iron core constructed from low-carbon mild steel. On this core, three coils are mounted, each capable of producing one-third of the required 9000 Oersted (Oe) magnetic field strength. The test specimen is situated within the “jaws” of the C-shaped core, thus completing the magnetic circuit. To manage the heat generated by each coil, a cooling system consisting of copper tubes is employed. These tubes facilitate the flow of air to dissipate the heat. To model and predict the magnetic field strength produced by the coils, finite element analysis (FEMM) software is utilized, and the results align closely with the anticipated outcomes. This design effectively generates a robust and unchanging magnetic field measuring a stable 9000 Oe in total. Consequently, this equipment finds utility in characterizing the magnetic properties of specific materials. 展开更多
关键词 static magnetic Field Magnetostrictive Strain Eddy Currents magnetic Field Strength Finite Element Method magnetics (FEMM)
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Directional growth behavior of a(Al) dendrites during concentration-gradientcontrolled solidification process in static magnetic field 被引量:2
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作者 李磊 徐博 +6 位作者 佟伟平 何立子 班春燕 张辉 左玉波 朱庆丰 崔建忠 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第7期2438-2445,共8页
The large and small sized Cu(solid)/Al(liquid) couples were prepared to investigate the directional growth behavior of primary a(Al) phase during a concentration-gradient-controlled solidification process under ... The large and small sized Cu(solid)/Al(liquid) couples were prepared to investigate the directional growth behavior of primary a(Al) phase during a concentration-gradient-controlled solidification process under various static magnetic fields(SMFs).The results show that in the large couples,the α(Al) dendrites reveal a directional growth character whether without or with the SMF.However,the 12 T magnetic field induces regular growth,consistent deflection and the decrease of secondary arm spacing of the dendrites.In the small couples,the α(Al) dendrites still reveal a directional growth character to some extent with a SMF of ≤5 T.However,an 8.8 T SMF destroys the directional growth and induces severe random deflections of the dendrites.When the SMF increases to 12 T,the a(Al) dendrites become quite regular despite of the consistent deflection.The directional growth arises from the continuous long-range concentration gradient field built in the melt.The morphological modification is mainly related to the suppression of natural convections and the induction of thermoelectric magnetic convection by the SMF. 展开更多
关键词 α(Al) dendrite diffusion couple concentration gradient field static magnetic field directional growth thermoelectric magnetic convection
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Direct Generation of Intense Compression Waves in Molten Metals by Using a High Static Magnetic Field and Their Application 被引量:5
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作者 QiangWANG SATORUKAWAI 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2003年第1期5-9,共5页
Compression waves propagating through molten metals are contributed to degassing, accelerating reaction rate,removing exclusions from molten metals and refining solidification structures during metallurgical processin... Compression waves propagating through molten metals are contributed to degassing, accelerating reaction rate,removing exclusions from molten metals and refining solidification structures during metallurgical processing of materials. In the present study, two electromagnetic methods are proposed to generate intense compression wavesdirectly in liquid metals. One is the simultaneous imposition of a high frequency electrical current field and a staticmagnetic field; the other is that of a high frequency magnetic field and a static magnetic field. A mathematical modelbased on compressible fluid dynamics and electromagnetic fields theory has been developed to derive pressure distributions of the generated waves in a metal. It shows that the intensity of compression waves is proportional to thatof the high frequency electromagnetic force. And the frequency is the same as that of the imposed electromagneticforce. On the basis of theoretical analyses, pressure change in liquid gallium was examined by a pressure transducerunder various conditions. The observed results approximately agreed with the predictions derived from the theoreticalanalyses and calculations. Moreover, the effect of the generated waves on improvement of solidification structureswas also examined. It shows that the generated compression waves can refine solidification structures when they wereapplied to solidification process of Sn-Pb alloy. This study indicates a new method to generate compression wavesby imposing high frequency electromagnetic force locally on molten metals and this kind of compression waves canprobably overcome the difficulties when waves are excited by mechanical vibration in high temperature environments. 展开更多
关键词 High static magnetic field Compression wave Electromagnetic processing of materials Maeneto-hvdrodvnamics. Solidification process
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Effects of static magnetic field on human umbilical vessel endothelial cell 被引量:5
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作者 李飞 徐可为 +4 位作者 王海昌 郭文怡 憨勇 刘兵 张荣庆 《Journal of Medical Colleges of PLA(China)》 CAS 2007年第2期106-110,共5页
Objective: To investigate the effects of static magnetic field(SMF) on the viability, adhesion molecule expression of human umbilical vessel endothelial cell. Methods: Magnetic flux intensity was 0. 1 mT, 1 mT, 10 mT.... Objective: To investigate the effects of static magnetic field(SMF) on the viability, adhesion molecule expression of human umbilical vessel endothelial cell. Methods: Magnetic flux intensity was 0. 1 mT, 1 mT, 10 mT. Cell viability and proliferation were measured with 3H-TdR and MTT methods; and apoptosis of human umbilical vein endothelial cell (HUVEC) was studied by flow cytometry and transmission electric microscopy. ELISA was used to measure the expression of ICAM-1 and VCAM-1 on endothelium. Results: 0. 1 mT SMF had no effects on the growth of HUVEC. however,SMF of 1 mT, 10 mT attenuated growth of HUVEC. 10 mT static magnetic field could induce apoptosis and necrosis of HUVEC. 10 mT SMF enhanced the expression of ICAM-1 and VCAM-1 on endothelium. Conclusion: The effect of SMF depends on the intensity of SMF. 10 mT SMF has adverse effects on human umbilical vessel endothelial cell. 展开更多
关键词 static magnetic field ENDOTHELIUM PROLIFERATION APOPTOSIS adhesion molecule
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Research on electromagnetic relay's dynamic characteristics disturbed by uniform static magnetic field 被引量:3
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作者 Guo-fu ZHAI Qi-ya WANG Wan-bin REN 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2008年第4期577-582,共6页
Electromagnetic relay is a widely used apparatus which usually works in a magnetic disturbance environment. To evaluate its electromagnetic compatibility (EMC) in a static magnetic field, dynamic characteristics of a ... Electromagnetic relay is a widely used apparatus which usually works in a magnetic disturbance environment. To evaluate its electromagnetic compatibility (EMC) in a static magnetic field, dynamic characteristics of a clapper relay in a uniform static magnetic field situation based on the finite element method (FEM) is studied. Influences of the magnetic field on dynamic parameters (delay time, pick-up time, end pressure, and final velocity) as well as a situation in which the relay cannot function normally are analyzed. Simulation reveals that the external magnetic field which weakens the relay’s air-gap field has a greater influence on the relay’s dynamic parameters than the one strengthening the field. The validity of the simulation is verified by measured results of coil current and armature displacement. 展开更多
关键词 Dynamic characteristics Uniform static magnetic field Electromagnetic relay Finite element method (FEM) Electromagnetic compatibility (EMC)
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Experimental study on freezing of liquids under static magnetic field 被引量:5
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作者 Hongxia Zhao Feng Zhang +2 位作者 Hanqing Hu Sheng Liu Jitian Han 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2017年第9期1288-1293,共6页
Freezing processes of several liquids under static magnetic field(SMF) less than 50 mT were investigated. Central temperature of liquid samples held in glass test tubes immersed in a liquid bath was measured and colle... Freezing processes of several liquids under static magnetic field(SMF) less than 50 mT were investigated. Central temperature of liquid samples held in glass test tubes immersed in a liquid bath was measured and collected. Nucleation temperature and phase transition time were obtained from freezing curves. Normality tests were performed for nucleation temperature of these liquids with/without magnetic field and normality distributions were justified. Analysis of variances was carried out for nucleation temperature of these liquids with magnetic field flux density as the influencing factor. Results showed that no significant difference was found for deionized water with or without SMF. However, differences exist in 0.9% NaCl solution and 5% ethylene glycol solution with and without SMF. Nucleation temperature of 0.9% NaCl with SMF is lower than that without SMF, while its phase transition time is shorter than that without SMF. Nucleation temperature of 5% ethylene glycol with SMF is higher than that without SMF, while its phase transition time is not modified with SMF. 展开更多
关键词 Liquid Freezing static magnetic field Nucleation temperature Phase transition time
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Effect of Static Magnetic Field on α-Amylase Activity and Enzymatic Reaction 被引量:1
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作者 贾绍义 刘勇 +1 位作者 吴松海 王志斌 《Transactions of Tianjin University》 EI CAS 2009年第4期272-275,共4页
The effect of magnetic field on a-amylase was studied. Under the experimental conditions, a-amylase solution was treated by 0.15 T, 0.30 T and 0.45 T static magnetic fields for a known period of time, then the activit... The effect of magnetic field on a-amylase was studied. Under the experimental conditions, a-amylase solution was treated by 0.15 T, 0.30 T and 0.45 T static magnetic fields for a known period of time, then the activity, kinetic parameters, and the secondary conformation were investigated. The results showed that there was a considerable effect of the magnetic exposure on the α-amylase. The activity was increased by 27%, 34.1%, 37.8% compared with the control. It was also found that both kinetic parameters Km and Vm could be decreased due to the increasing magnetic field, Km decreased from 2.20×10^2 to 0.87×10^2, whereas Vm decreased from 2.0×10^3 g/min to 1.1 ×10^3 g/min. At the same time, there were some irregular changes in a-amylase secondary conformation. 展开更多
关键词 static magnetic field or-amylase ACTIVITY secondary conformation Michaelis constant
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Effects of 3.7 T-24.5 T high magnetic fields on tumor-bearing mice 被引量:1
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作者 Xiaofei Tian Ze Wang +5 位作者 Lei Zhang Chuanying Xi Li Pi Ziping Qi Qingyou Lu Xin Zhang 《Chinese Physics B》 SCIE EI CAS CSCD 2018年第11期649-658,共10页
Since high magnetic field(MF) intensity can improve the image quality and reduce magnetic resonance imaging(MRI) acquisition time, the field intensity of MRIs has continued to increase over the past few decades. A... Since high magnetic field(MF) intensity can improve the image quality and reduce magnetic resonance imaging(MRI) acquisition time, the field intensity of MRIs has continued to increase over the past few decades. Although MRIs in most current hospitals are 0.5 T–3 T, there are preclinical studies have been carried out using 9.4 T MRI, and engineers are also putting efforts on building MRIs with even higher MFs. However, the accompanied safety issue of high-field MRIs is an emergent question to address before their clinical applications. In the meantime, the static magnetic field(SMF) has been shown to inhibit tumor growth in previous studies. Here, we investigated both the safety issue and the anti-tumor potentials of 3.7 T–24.5 T SMFs on GIST-T1 gastrointestinal stromal tumor-bearing nude mice. We followed up the mice three weeks after their exposure to high SMF and found that none of the mice died or had severe organ damage, except for slightly decreased food intake, weight gain, and liver function. Moreover, the tumor growth was inhibited by 3.7 T–24.5 T SMFs(up to ~54%). It is interesting that the effects are more dependent on MF gradient than intensities, and for the same gradient and intensity, mice responded differently to hypogravity and hypergravity conditions. Therefore, our study not only demonstrated the safeness of high SMFs up to 24.5 T on mice but also revealed their anti-tumor potentials in the future. 展开更多
关键词 static magnetic field (SMF) high magnetic field (MF) TUMOR magnetic field gradient
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Characteristics of Transient Outward Potassium Channel Exposed to 3 mT Static Magnetic Field 被引量:1
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作者 李刚 程立君 +3 位作者 乔晓艳 林凌 张璐 李媛媛 《Transactions of Tianjin University》 EI CAS 2009年第5期319-323,共5页
Acutely isolated mouse hippocampal CA3 pyramidal neurons were exposed to 3 mT static magnetic field,and the characteristics of transient outward K+ channel were studied using the whole-cell patch-clamp technique.The e... Acutely isolated mouse hippocampal CA3 pyramidal neurons were exposed to 3 mT static magnetic field,and the characteristics of transient outward K+ channel were studied using the whole-cell patch-clamp technique.The experiment revealed that the amplitude of transient outward potassium channel current was reduced.The maximum activated current densities of control group and exposure group were 163.62±20.68 pA/pF and 98.74±16.57 pA/pF(n=12,P<0.01) respectively.The static magnetic field exposure affected the activation and inactivation process of transient outward potassium channel current.Due to the magnetic field exposure,the half-activation voltage of the activation curves changed from 5.59±1.96 mV to 27.87±7.24 mV(n=12,P<0.05) ,and the slope factor changed from 19.43±2.11 mV to 25.87±4.22 mV(n=12,P<0.05) .The half-inactivation voltage of the inactivation curves also changed from-56.09±0.89 mV to-57.16±1.10 mV(n=12,P>0.05) and the slope factor of the inactivation curves from 8.69±0.80 mV to 10.87±1.02 mV(n=12,P<0.05) .The results show that the static magnetic field can change the characteristics of transient outward K+ channel,and affect the physiological functions of neurons. 展开更多
关键词 transient outward potassium channel current patch-clamp technique static magnetic field biological effect NEURONS
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The effects of a static magnetic field on the microwave absorption of hydrogen plasma in carbon nanotubes: a numerical study 被引量:1
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作者 彭志华 龚学余 +2 位作者 彭延峰 郭燕春 宁艳桃 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第7期541-545,共5页
We theoretically investigate the microwave absorption properties of hydrogen plasma in iron-catalyzed high- pressure disproportionation-grown carbon nanotubes under an external static magnetic field in the frequency r... We theoretically investigate the microwave absorption properties of hydrogen plasma in iron-catalyzed high- pressure disproportionation-grown carbon nanotubes under an external static magnetic field in the frequency range 0.3 GHz to 30 GHz, using the Maxwell equations in conjunction with a general expression for the effective complex permittivity of magnetized plasma known as the Appleton Hartree formula. The effects of the external static magnetic field intensity and the incident microwave propagation direction on the microwave absorption of hydrogen plasma in CNTs are studied in detail. The numerical results indicate that the microwave absorption properties of hydrogen plasma in iron-catalyzed high-pressure disproportionation-grown carbon nanotubes can be obviously improved when the exter- nal static magnetic field is applied to the material. It is found that the specified frequency microwave can be strongly absorbed by the hydrogen plasma in iron-catalyzed high-pressure disproportionation-grown carbon nanotubes over a wide range of incidence angles by adjusting the external magnetic field intensity and the parameters of the hydrogen plasma. 展开更多
关键词 carbon nanotubes hydrogen plasma static magnetic field microwave absorption
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Rapid air film continuous casting of aluminum alloy using static magnetic field
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作者 Fu QU Huixue JIANG Gaosong WANG Qingfeng ZHU Xiangjie WANG Jianzhong CUI 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2009年第5期339-344,共6页
The influences of the cooling style and static magnetic field on the air film casting process were investigated. Ingots of 6063 aluminum alloy were produced by AIRSOL VEIL casting with double-layer cooling water and s... The influences of the cooling style and static magnetic field on the air film casting process were investigated. Ingots of 6063 aluminum alloy were produced by AIRSOL VEIL casting with double-layer cooling water and static magnetic field. Surface segregation, hot crack and variation of solute content along the radius direction of ingot were examined. The results showed that double-layer cooling water can improve the surface quality and avoid of hot crack, which created conditions to increase the casting speed. The electromagnetic casting process can effectively improve the surface quality in high speed casting process, and static magnetic field has a great influence on solute distribution along the radius direction of ingot. 展开更多
关键词 Air film casting static magnetic field Surface quality Casting speed
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Molecular Mechanism of Disordering the Epidermis Structure under the Effect of Static Magnetic Field
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作者 Liena Yu Vergun (Aktan) Olga A. Zagorodnia Katerina O. Teliman 《Journal of Physical Science and Application》 2013年第5期312-315,共4页
The research deals with the physical mechanisms of molecular restructurings in horny layers caused by effect of constant magnetic field. The structure of dehydrated epidermis and changes in light dispersion in water s... The research deals with the physical mechanisms of molecular restructurings in horny layers caused by effect of constant magnetic field. The structure of dehydrated epidermis and changes in light dispersion in water solution of glucose as the main component of inter-desmosome bridges under influence of constant magnetic field have been experimentally studied. On the basis of the results obtained these bridges are assumed to play key role in disordering the horny layer under the action of constant magnetic field. This assumption agrees with the results of clinical research. 展开更多
关键词 static magnetic field SKIN horny layers.
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A Simulation Study on the Specific Loss Power in Magnetic Hyperthermia in the Presence of a Static Magnetic Field
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作者 Kenya Murase 《Open Journal of Applied Sciences》 2016年第12期839-851,共13页
Our purpose in this study was to present a method for estimating the specific loss power (SLP) in magnetic hyperthermia in the presence of an external static magnetic field (SMF) and to investigate the SLP values esti... Our purpose in this study was to present a method for estimating the specific loss power (SLP) in magnetic hyperthermia in the presence of an external static magnetic field (SMF) and to investigate the SLP values estimated by this method under various diameters (D) of magnetic nanoparticles (MNPs) and amplitudes (H<sub>0</sub>) and frequencies (f) of an alternating magnetic field (AMF). In our method, the SLP was calculated by solving the magnetization relaxation equation of Shliomis numerically, in which the magnetic field strength at time t (H(t)) was assumed to be given by , with H<sub>s</sub> being the strength of the SMF. We also investigated the SLP values in the case when the SMF with a field-free point (FFP) generated by two solenoid coils was used. The SLP value in the quasi steady state (SLP<sub>qss</sub>) decreased with increasing H<sub>s</sub>. The plot of the SLP<sub>qss</sub> values against the position from the FFP became narrow as the gradient strength of the SMF (G<sub>s</sub>) increased. Conversely, it became broad as G<sub>s</sub> decreased. These results suggest that the temperature rise and the area of local heating in magnetic hyperthermia can be controlled by varying the H<sub>s</sub> and G<sub>s</sub> values, respectively. In conclusion, our method will be useful for estimating the SLP in the presence of both the AMF and SMF and for designing an effective local heating system for magnetic hyperthermia in order to reduce the risk of overheating surrounding healthy tissues. 展开更多
关键词 magnetic Hyperthermia magnetic Nanoparticle Specific Loss Power Alternating magnetic Field static magnetic Field Magnetization Relaxation Field-Free Point
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