Conferences related to Magnetic stimulation

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2021 IEEE Pulsed Power Conference (PPC)

The Pulsed Power Conference is held on a biannual basis and serves as the principal forum forthe exchange of information on pulsed power technology and engineering.


2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science


2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)

The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted papers will be peer reviewed. Accepted high quality papers will be presented in oral and postersessions, will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE


2020 IEEE International Conference on Robotics and Automation (ICRA)

The International Conference on Robotics and Automation (ICRA) is the IEEE Robotics and Automation Society’s biggest conference and one of the leading international forums for robotics researchers to present their work.


2020 IEEE International Magnetic Conference (INTERMAG)

INTERMAG is the premier conference on all aspects of applied magnetism and provides a range of oral and poster presentations, invited talks and symposia, a tutorial session, and exhibits reviewing the latest developments in magnetism.


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Periodicals related to Magnetic stimulation

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Antennas and Wireless Propagation Letters, IEEE

IEEE Antennas and Wireless Propagation Letters (AWP Letters) will be devoted to the rapid electronic publication of short manuscripts in the technical areas of Antennas and Wireless Propagation.


Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Biomedical Circuits and Systems, IEEE Transactions on

The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...


Biomedical Engineering, IEEE Reviews in

The IEEE Reviews in Biomedical Engineering will review the state-of-the-art and trends in the emerging field of biomedical engineering. This includes scholarly works, ranging from historic and modern development in biomedical engineering to the life sciences and medicine enabled by technologies covered by the various IEEE societies.


Biomedical Engineering, IEEE Transactions on

Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.


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Most published Xplore authors for Magnetic stimulation

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Xplore Articles related to Magnetic stimulation

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Mapping of Hand and Face Representations Areas in Cerebral Cortex with Transcranial Magnetic Stimulation

2017 21st National Biomedical Engineering Meeting (BIYOMUT), 2017

Transcranial Magnetic Stimulation is a noninvasive magnetic stimulation of the motor cortex and motor pathways. Responses obtained from the target muscles through TMS can be evaluated electrophysiologically. There are 20 healthy volunteers who use the right hand actively in the study. There are active right hand 20 healthy volunteers in the study. Two sEMG electrodes are placed in the Abductor ...


System Design of Transcranial Electromagnetic Stimulator Combined with tDCS and rTMS

2018 IEEE International Conference on Mechatronics and Automation (ICMA), 2018

Transcranial magnetic stimulation (TES) and transcranial magnetic stimulation (TMS) have been proved to be safe, effective and noninvasive means of functional regulation of the brain.which is widely used in the study of brain function and the rehabilitation therapy of nervous system diseases. There are many electrical stimulator and magnetic stimulation equipments in the market, but their functions are relatively simple. ...


Twin Coil Design Considerations for Depth and Focality in Transcranial Magnetic Stimulation

IEEE Transactions on Magnetics, 2018

This paper conducts a comprehensive analysis on the impact of the coil size and the opening angle of twin coils on the stimulation depth and the focality. The finite-element method is utilized to analyze the head-model-inside distributions of the electric field induced by twin coils with various diameters and opening angles. The depth and focality of the electric field are ...


Technology '89: medical electronics

IEEE Spectrum, 1989

Advances in medical technology during 1988 are highlighted. These include: the demonstration of a SQUID (superconductive quantum interference device)-based system that can localize neural activity to within 3 mm; greatly improved implantable defibrillators; highly realistic 3-D imaging of the body; and a wealth of novel laser applications.<<ETX>>


Alterations in Motor Cortical Excitability Induced by Peripheral Stimulation With Magnetic Stimulation

IEEE Transactions on Magnetics, 2018

The conditioning of cortical excitability by transcranial magnetic stimulation (TMS) has become a valuable technique to promote recovery of motor function after stroke. As TMS is not used in all patients, we investigated the hypothesis that peripheral stimulation may have an adjustment effect on motor cortical excitability. Our experimental paradigm was divided into three phases. In the first phase, TMS ...


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Educational Resources on Magnetic stimulation

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IEEE.tv Videos

IEEE Magnetics Distinguished Lecture - Mitsuteru Inoue
Scientific Discovery & Deep Brain Stimulation: Jerrold Vitek, MD, PhD
A Discussion on Hard Drives
Electrons May Be the New Pharmaceutical Drug
Perpendicular magnetic anisotropy: From ultralow power spintronics to cancer therapy
Magnetic Nanowires: Revolutionizing Hard Drives, RAM, and Cancer Treatment
ISEC 2013 Special Gordon Donaldson Session: Remembering Gordon Donaldson - 6 of 7 - A high sensitive magnetometer system for natural magnetic field measurements
Spin Dynamics in Inhomogeneously Magnetized Systems - Teruo Ono: IEEE Magnetics Society Distinguished Lecture 2016
Magnetic Shield Implementation - EMC Society Demo
IEEE Magnetics 2014 Distinguished Lectures - JONATHAN COKER
Magmites: Wireless Resonant Magnetic Microrobots
35 Years of Magnetic Heterostructures
High Magnetic Field Science and its Application in the US - ASC-2014 Plenary series - 10 of 13 - Friday 2014/8/15
From THz imaging to millimeter-wave stimulation of neurons: Is there a killer application for high frequency RF in the medical community? (RFIC 2015 Keynote)
IEEE Magnetics 2014 Distinguished Lectures - Tim St Pierre
Magnetic Materials and Magnetic Devices - Josep Fontcuberta: IEEE Magnetics Distinguished Lecture 2016
ASC-2014 SQUIDs 50th Anniversary: 4 of 6 - Keiji Enpuku
Q&A with Kip Ludwig: IEEE Brain Podcast, Episode 7
Nanoscale Magnetism with Picosecond Time Resolution and High Sensitivity - Hendrik Ohldag - IEEE Magnetics Distinguished Lecture
Towards Logic-in-Memory circuits using 3D-integrated Nanomagnetic Logic - Fabrizio Riente: 2016 International Conference on Rebooting Computing

IEEE-USA E-Books

  • Mapping of Hand and Face Representations Areas in Cerebral Cortex with Transcranial Magnetic Stimulation

    Transcranial Magnetic Stimulation is a noninvasive magnetic stimulation of the motor cortex and motor pathways. Responses obtained from the target muscles through TMS can be evaluated electrophysiologically. There are 20 healthy volunteers who use the right hand actively in the study. There are active right hand 20 healthy volunteers in the study. Two sEMG electrodes are placed in the Abductor Pollicis Brevis (APB) and Orbicularis Oris (O.oris) muscles. APB muscle constitutes a hand representative in the cortical motor mapping. O.Oris muscle constitutes a face representative in the cortical motor mapping. The position, amplitude and latency values of muscular action potentials induced by magnetic stimulation are determined by signal processing methods. The results are mapped on 3-D human model. When the right-hand representation map is examined, the hot spot of the APB muscle is found as the C1. While the motor potential of the hot spot is 6.89(±1.67) mV, the latency time is 20.98(±0.87) ms. When the right-face representation map is examined, the hot spot of the O.Oris muscle's found as the F5. While the motor potential of the hot spot is 2.83(±1.81) mV, the latency time is 4.95(±0.05) ms. Moreover, the face representation intersects with the hand representation at some points and is active at distances close to the hand representation.

  • System Design of Transcranial Electromagnetic Stimulator Combined with tDCS and rTMS

    Transcranial magnetic stimulation (TES) and transcranial magnetic stimulation (TMS) have been proved to be safe, effective and noninvasive means of functional regulation of the brain.which is widely used in the study of brain function and the rehabilitation therapy of nervous system diseases. There are many electrical stimulator and magnetic stimulation equipments in the market, but their functions are relatively simple. In order to meet the needs of electromagnetic combined therapy and medical experiments, this paper presents an electromagnetic stimulator that can achieve two functions: transcranial direct current stimulation (tDCS) and repetitive transcranial magnetic stimulation (rTMS). The stimulator can realize the key input and display of the stimulus parameters. The signal generator can output the direct current stimulation signal and the magnetic stimulation signal of the specific frequency. The stimulator can select the corresponding electrode and magnetic stimulation coil through socket, which can satisfy the basic electromagnetic stimulation needs. The design has a certain innovation and feasibility.

  • Twin Coil Design Considerations for Depth and Focality in Transcranial Magnetic Stimulation

    This paper conducts a comprehensive analysis on the impact of the coil size and the opening angle of twin coils on the stimulation depth and the focality. The finite-element method is utilized to analyze the head-model-inside distributions of the electric field induced by twin coils with various diameters and opening angles. The depth and focality of the electric field are quantified based on the simulation results. It shows that the depth can reach to optimal value by adjusting opening angle. Meanwhile, increasing twin coil size can improve both the depth and the focality. In addition, the experimental results are also given to further validate the conclusion drawn from the computational simulation results. The presented results show significant meanings for researchers and clinicians to design or configure the optimal twin coil for the transcranial magnetic stimulation systems.

  • Technology '89: medical electronics

    Advances in medical technology during 1988 are highlighted. These include: the demonstration of a SQUID (superconductive quantum interference device)-based system that can localize neural activity to within 3 mm; greatly improved implantable defibrillators; highly realistic 3-D imaging of the body; and a wealth of novel laser applications.<<ETX>>

  • Alterations in Motor Cortical Excitability Induced by Peripheral Stimulation With Magnetic Stimulation

    The conditioning of cortical excitability by transcranial magnetic stimulation (TMS) has become a valuable technique to promote recovery of motor function after stroke. As TMS is not used in all patients, we investigated the hypothesis that peripheral stimulation may have an adjustment effect on motor cortical excitability. Our experimental paradigm was divided into three phases. In the first phase, TMS was delivered to the left or right primary motor cortex to induce a motor evoked potential (MEP) from the contralateral first dorsal interosseous muscle. The measured MEPs in this phase were used to evaluate the effect of peripheral stimulation. In the second phase, 1 Hz magnetic stimulation was applied over the contralateral or ipsilateral forearm for motor cortex as peripheral stimulation. In the third phase, the MEP was evoked by TMS and recorded using the same setting as the first phase. We found that a decrease in MEP amplitude was observed in the left motor cortex following peripheral stimulation over the right forearm. By contrast, the MEP amplitude was not altered in the right motor cortex by peripheral stimulation over the left forearm. An increase in MEP amplitude was observed in the ipsilateral motor cortex induced by peripheral stimulation over the left or right forearm. We also found that by changing the MEP amplitude, the motor cortex excitability varied according to magnetic stimulation of the forearm. These data suggest that peripheral stimulation may have an adjustment effect on motor cortical excitability, via changes in the stimulus site.

  • Analysis of EEG Signals to Extract the Effects of Transcranial Magnetic Stimulation on Depression

    In the treatment of mental disorders, stimulation of the electrical activity of the brain by Transcranial Magnetic Stimulation has become an increasingly non-invasive treatment method. Mental disorders such as migraine, dementia, bipolar disorder, schizophrenia, stroke, Amyotrophic Lateral Sclerosis, Multiple Sclerosis, Epilepsy, Unconsciousness, tinnitus, depression, anxiety disorders, obsessive-compulsive disorders can be treated by magnetic stimulation of brain. In this study, changes in EEG signals recorded from patients with depression caused by TMS treatment are analyzed using signal processing techniques. The frequency analysis is performed by Fourier transform for each EEG channel of each patient before and after TMS treatment. Here, changes in EEG data of depressed patients with TMS treatment are analyzed using signal processing techniques in MATLAB®. The frequency analyses are obtained from Fourier Transform for each EEG channel of patients before TMS and after TMS treatment. Then these frequency values are compared for each patient. Also the respective IMF (intrinsic mode function) values of each channel are analyzed using the MEMD (Multivariate Empirical Mode Decomposition) algorithm. In this way, the alpha rhythm of EEG datas are detected and the changes in the alpha rhythm of each channel before and after treatment were analyzed.

  • Biomagnetic Measurements And Stimulation For Imaging And Estimation Of The Functional Organization Of The Human Brain

    None

  • Selective magnetic stimulation of cervical nerve roots with a figure-eight coil

    We investigated the possibility of selective stimulation of cervical nerve roots in healthy subjects. The skin surface on the anterior neck was divided into 12 portions of 2 cm/spl times/2 cm each. Each portion was stimulated magnetically with a figure-eight coil. Induced eddy currents were downward. M-waves of the infraspinatus, the deltoid, the biceps brachii, the triceps brachii, the extensor digitorum communis, the flexor carpi ulnaris, the abductor pollicis brevis, and the abductor digiti minimi were monitored. The stimulation of some specific portions evoked M-waves of only the infraspinatus and the deltoid. The infraspinatus and the deltoid are innervated predominantly by the 5th cervical nerve, so these results suggest that the 5th cervical nerve root was selectively stimulated with a figure-eight coil.

  • Arousal Effect of Physiological Magnetic Stimulation on Elder Person's Spine for Prevention of Drowsiness During Car Driving

    A new method for the prevention of drowsiness of eldery people during car driving is presented, in which a distributed-pulse magnetic field generated from a magnetized fayalite crushed stone crammed pipe is applied to their spine position. The effect for arousal is evaluated by measuring the subject's back head magneto-encephalogram fast Fourier transform frequency spectra using a pico-Tesla resolution magnetoimpedance sensor and by using an electro- encephalogram meter before and after magnetic stimulation. The effect for arousal during car driving is evaluated by using a driving simulator to measure the car body deflection from a driving road line and observation of the driver's sleepiness. Mechanisms for the arousal effect are discussed with the magneto-protonics principle on the basis of the arousal physiology and measurement of the magnetization of a physiological saline solution before and after application of the magnetic pipe.

  • Numerical model of magnetic stimulation with metal implants

    The paper presents numerical model of the magnetic stimulation of the human body. The proposed model allows one to calculate eddy current distribution inside the body with a metal implant, which can be ferromagnetic or diamagnetic. A hybrid Toarr-Omega, Aoarr finite-element method formulation is used, where Omega is calculated by semi-analytical integration over a boundary of the conducting region. The three-step algorithm is presented, with discussion about implementation and computational problems



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