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Books on the topic 'Magnetic stripe'

Author: Grafiati
Published: 4 June 2021
Last updated: 28 January 2023

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1

Gianopoulos, Andrea. La historia atractiva del magnetismo con Max Axiom, supercientífico. North Mankato, Minn: Capstone Press, 2012.

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2

Gianopoulos, Andrea. La historia atractiva del magnetismo con Max Axiom, supercientífico. North Mankato, Minn: Capstone Press, 2012.

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3

Glass, Gene V. Fertilizers, pills,and magnetic strips: The fate of public education in America. Charlotte, NC: Information Age Pub., 2008.

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4

ill, Martin Cynthia 1961, and Schulz Barbara Jo ill, eds. The attractive story of magnetism with Max Axiom, super scientist. Mankato, Minn: Capstone Press, 2007.

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5

Gianopoulos, Andrea. The attractive story of magnetism. Oxford: Raintree, 2011.

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6

Kharzeev, Dmitri. Strongly Interacting Matter in Magnetic Fields. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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7

Mathis, Miles. Un-unified field: And other problems. [S.l.]: Authorhouse, 2010.

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8

Textbook of therapeutic cortical stimulation. New York: Nova Biomedical Books, 2009.

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9

Redbooks, IBM. Landp/DOS and Landp/2 Support for Financial Magnetic Stripe Readers/Enciders. Ibm, 1996.

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10

Staff, Oxford Dictionaries. Magnetic Strips. Oxford University Press, 2014.

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11

Striped tape arrays. [Washington, DC: National Aeronautics and Space Administration, 1991.

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12

1955-, Katz Randy H., and United States. National Aeronautics and Space Administration., eds. Striped tape arrays. [Washington, DC: National Aeronautics and Space Administration, 1991.

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13

Gibson, CR. Dots and Stripes Postbound Magnetic Page Album. CR Gibson, 2005.

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14

Rastelli, Enrico. Statistical Mechanics of Magnetic Excitations: From Spin Waves to Stripes and Checkerboards. World Scientific Publishing Co Pte Ltd, 2013.

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15

Euronorm: Grain Oriented Magnetic Steel Sheet and Strip. European Communities, 1987.

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16

Mills, Kerry R. Transcranial magnetic stimulation. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199688395.003.0014.

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Transcranial magnetic stimulation (TMS) has been exploited to advance knowledge of corticospinal physiology and, in a number of conditions, to aid diagnosis and quantify corticospinal abnormalities. The basic physics of magnetic stimulation is described along with the effects of stimulating coils with different dimensions and shape. The effects of single TMS pulses over motor cortex to cause a descending volley of D and I waves, and their effects on spinal motor neurons resulting in a motor evoked potential (MEP) are described. Guidelines for the safe use of TMS are given. Methods to estimate useful clinical measures of corticospinal function, such as threshold, MEP amplitude, central motor conduction time, silent period and input:output relation are given, as is the means to quantify corticospinal conduction using the triple stimulation technique. The clinical utility of TMS in neurodegenerations, central demyelinating diseases, stroke, spinal cord disease, movement disorders, and functional disorders is discussed.
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17

K, Carney Harold, and Langley Research Center, eds. 1984 direct strike lightning data. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1986.

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18

Communities, Commission of the European. Euronorm 118-87: Methods for Determining the Magnetic Properties of Magnetic Steel Sheet and Strip With 25 Cm Epstein Frame. European Communities, 1988.

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19

Markus, Hugh, Anthony Pereira, and Geoffrey Cloud. Investigation of the stroke patient. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198737889.003.0006.

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In the investigation of the stroke patient chapter, investigations to confirm or refute the diagnosis of stroke are discussed including brain imaging with computed tomography and magnetic resonance imaging and blood test laboratory investigations. The importance of vascular and cardiac investigations is discussed, especially with regard to diagnosing the aetiological cause of stroke. Investigations performed to anticipate potential complications from stroke are also reviewed.
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20

Markus, Hugh, Anthony Pereira, and Geoffrey Cloud. Imaging in stroke. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198737889.003.0007.

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Imaging plays a key role in the investigation in stroke, both to confirm the diagnosis and rule out other causes, and also to determine the underlying aetiology. This chapter covers the different imaging techniques which are commonly used in stroke care. It discusses the use of computed tomography and magnetic resonance imaging in diagnosis of both ischaemic and haemorrhagic stroke. It also covers the various angiographic imaging techniques that can be used to identify the presence of extra- and intracranial stenoses.
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21

Ultimate X-Men Vol. 13: Magnetic North. Marvel Comics, 2006.

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22

Kidwell, Chelsea S., and Kambiz Nael. Neuroimaging of Acute Stroke. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199937837.003.0102.

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The neuroimaging workup for patients with suspected acute ischemic stroke has advanced significantly over the past few decades. Evaluation is no longer limited to noncontrast computed tomography (CT), but now frequently also includes vascular and perfusion imaging. Although acute stroke imaging has made significant progress with the development of multimodal approaches, there are still many unanswered questions regarding their appropriate use in daily patient care. It is important for all physicians taking care of stroke patients to be familiar with current multimodal CT and magnetic resonance imaging (MRI) techniques, including their strengths, limitations, and their role in guiding therapy.
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23

ST 217:2015: Motion-Picture Film (70-mm) — Striped Release Prints — Recorded Characteristics of Magnetic Audio Records. 3 Barker Avenue., White Plains, NY 10601: The Society of Motion Picture and Television Engineers SMPTE, 2015. http://dx.doi.org/10.5594/s9781614828525.

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24

Chong, Ji Y., and Michael P. Lerario. Driving Is a Headache. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190495541.003.0022.

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Headache and hemorrhagic infarcts in patients who are hypercoagulable (including pregnancy and puerperium) should prompt an evaluation for dural venous sinus thrombosis. Intracranial venous thrombosis is a rare cause of stroke. Diagnosis is made with venous imaging such as magnetic resonance venography. Investigation for underlying prothrombotic state is needed. Treatment is typically with anticoagulation, despite hemorrhage on imaging.
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25

Waje-Andreassen, Ulrike, and Nicola Logallo. Vascular imaging: Ultrasound. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198722366.003.0009.

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After computed tomography and computed tomography angiography or magnetic resonance imaging and magnetic resonance angiography at admission, ultrasound is the most important diagnostic tool to confirm angiographic findings and to closely follow-up patients until the clinical situation has stabilized. Thrombolysis and interventional therapy have given transcranial ultrasound a very important role in bedside monitoring of occlusions, collaterals, cerebral haemodynamics, and vasoreactivity. Detection of flow changes in sickle cell disease, circulating emboli, and right-to-left shunts may guide treatment decisions. Sonothrombolysis and targeted drug delivery are today’s research projects for acute treatment by ultrasound. Extracranial cerebrovascular ultrasound is an ‘all-round’ diagnostic tool modifying angiographic results, showing minor arterial wall disease, plaques, and plaque instability. Microembolic signals during scanning may contribute to finding the cause of stroke. In stroke prevention, ultrasound delivers the possibility for staging of arteries and improving targeted intervention. Ultrasound images may also serve as educational tools for patients to underline the need for continuous medical treatment and lifestyle changes, and may improve compliance.
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26

Snider, Brandon T., and Lou Harry. The Superman Guide to Life: Living the Super Hero Lifestyle (Magnetic Wisdom). Cider Mill Press, 2007.

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27

Lee, Christoph I. Imaging Selection and Endovascular Treatment for Ischemic Stroke. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190223700.003.0006.

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This chapter, found in the headache section of the book, provides a succinct synopsis of a key study examining the imaging selection and endovascular treatment for ischemic stroke. This summary outlines the study methodology and design, major results, limitations and criticisms, related studies and additional information, and clinical implications. Researchers found that a favorable penumbral pattern by computed tomography or magnetic resonance imaging does not help identify patients who would benefit from endovascular therapy for acute stroke, and that embolectomy is not superior to standard care with regard to clinical and imaging outcomes for acute ischemic stroke. In addition to outlining the most salient features of the study, a clinical vignette and imaging example are included in order to provide relevant clinical context.
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28

Gattringer, Thomas, Christian Enzinger, Stefan Ropele, and Franz Fazekas. Vascular imaging (CTA/MRA). Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198722366.003.0008.

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Non-invasive computed tomography angiography (CTA) and magnetic resonance angiography (MRA) constitute an integral part of the diagnostic workup of stroke patients, which—among the various techniques to image the complex cerebrovascular tree—can be conceptually placed between duplex sonography and digital subtraction angiography. CTA and especially MRA can be performed with different techniques and protocols that need to be used according to the clinical questions. In the setting of acute ischaemic stroke with the therapeutic option of endovascular thrombectomy, the rapid and reliable detection of large vessel occlusion has become of paramount importance. Both CTA and MRA can accomplish this and there is no need for contrast material when performing intracranial MRA. Vascular imaging is also essential to identify vessel-related causes of stroke such as large artery atherosclerosis, dissection, and some forms of arteritis mandating specific management or therapeutic intervention to avoid recurrence. Considering these aspects, frequent and targeted use of CTA or MRA is highly encouraged and especially relevant in young patients with stroke.
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29

Gattringer, Thomas, Christian Enzinger, Stefan Ropele, and Franz Fazekas. Brain imaging (CT/MRI). Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198722366.003.0007.

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In the acute phase of a suspected stroke, timely brain imaging with rapid and qualified interpretation is a crucial diagnostic step to inform patient management. While brain computed tomography is usually sufficient to indicate thrombolysis within the approved time window (by rapidly excluding intracranial haemorrhage), it often fails to show the actual site and extent of infarction as well as other pathologies, which may mimic a stroke. Magnetic resonance imaging (MRI) has a much higher sensitivity and specificity for ischaemic vascular brain changes and thus allows direct demonstration of the area(s) of acute ischaemic damage. This helps in the diagnosis of clinically uncertain cases, may give aetiological clues, and can also provide pathophysiologic insights into stroke evolution with respective consequences for patient treatment. The capability to rule out many other disorders that may mimic stroke is also an important asset of MRI. All these advantages make MRI the preferred tool in the workup of young individuals with suspected stroke. However, this needs ready availability and adequately tailored and short imaging protocols in order not to delay treatment.
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30

Lee, Christoph I. MRI versus CT for Detecting Acute Intracerebral Hemorrhage in Stroke Patients. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190223700.003.0004.

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This chapter, found in the headache section of the book, provides a succinct synopsis of a key study comparing the use of computed tomography (CT) and magnetic resonance imaging (MRI) scans for detecting acute intracerebral hemorrhage in stroke patients. This summary outlines the study methodology and design, major results, limitations and criticisms, related studies and additional information, and clinical implications. The researchers found that MRI is as accurate as CT for detecting acute hemorrhage in suspected stroke and is more accurate than CT for detecting chronic intracerebral hemorrhage. In addition to outlining the most salient features of the study, a clinical vignette and imaging example are included in order to provide relevant clinical context.
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31

Shils, Jay L., Sepehr Sani, Ryan Kochanski, Mena Kerolus, and Jeffrey E. Arle. Recording Techniques Related to Deep Brain Stimulation for Movement Disorders and Responsive Stimulation for Epilepsy. Edited by Donald L. Schomer and Fernando H. Lopes da Silva. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190228484.003.0038.

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Neuromodulation therapies are now common treatments for a variety of medically refractory disorders, including movement disorders and epilepsy. While surgical techniques for each disorder vary, electricity is used by both for relieving symptoms. During stereotactic placement of the stimulating electrode, either deep brain stimulation electrodes or cortical strip electrodes, intraoperative neurophysiology is used to localize the target structure. This physiology includes single-unit recordings, neurostimulation evoked response evaluation, and intracranial electroencephalography (EEG) to ensure the electrode leads are in the optimal location. Because the functional target for the responsive neurostimulator is more easily visualized on preoperative magnetic resonance imaging, intraoperative physiology is used more as a confirmatory tool, in contrast to the more functional localization-based use during electrode placement for movement disorders. This chapter discusses surgical placement of the electrodes for each procedure and the physiological guidance methodology used to place the leads in the optimal location.
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32

O’Neal, M. Angela. Postpartum Thunderclap Headache. Edited by Angela O’Neal. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190609917.003.0018.

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An illustrative case of reversible cerebral vasoconstriction syndrome (RCVS) is presented. The clinical and radiographic features are reviewed. There is an overlap between RCVS and posterior reversible encephalopathy syndrome due to their shared pathophysiology related to endothelial injury. Furthermore, preeclampsia/eclampsia (PEE) is often associated with RCVS. Thunderclap headache is the most characteristic feature of the disorder. RCVS may also cause subarachnoid hemorrhage, typically located over the cerebral convexities; intracranial hemorrhage; and ischemic stroke. The diagnosis is made by seeing vasoconstriction on vessel imaging, either magnetic resonance angiography or computerized tomography angiography. There are several medications that can precipitate the condition by increasing sympathetic activity. Treatment is similar to that of PEE, with antihypertensives and magnesium. Calcium channel blockers are helpful symptomatic therapy for the headache.
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33

Stroke MRI. Steinkopff-Verlag Darmstadt, 2004.

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34

Fiebach, Jochen, and Peter Schellinger. Stroke MRI. Steinkopff, Dietrich, 2013.

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35

Fiebach, Jochen, and Peter Schellinger. Stroke MRI. Steinkopff, Dietrich, 2014.

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36

Hernandez, Gabriel (Hernandez Walta), artist and Hernandez Javier 1966 artist, eds. Magneto Infamous. 2014.

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37

Textbook of therapeutic cortical stimulation. Hauppauge, NY: Nova Science, 2009.

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38

artist, Fernández Javier, Bellaire Jordie artist, Brown Dan (Colorist) artist, and Hernandez, Gabriel (Hernandez Walta), artist, eds. Magneto: Reversals. 2015.

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39

Xmen Magneto Testament. Marvel Comics, 2009.

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40

T. Wave Phenomena. Courier Dover Publications, 2014.

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41

Contemporary Musicians: Profiles of the People in Music : Includes Cumulative Indexes (Contemporary Musicians). Thomson Gale, 2002.

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