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Books on the topic 'Neurostimulator'

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Published: 4 June 2021
Last updated: 11 March 2023

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1

Eljamel, Sam, and Konstantin V. Slavin, eds. Neurostimulation. Oxford, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118346396.

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2

Yves, Lazorthes, and Upton Adrian R. M, eds. Neurostimulation: An overview. Mt. Kisco, N.Y: Futura Pub. Co., 1985.

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3

Götz, Stefan Matthias. Magnetic neurostimulation from a physical perspective. Aachen: Shaker Verlag, 2013.

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4

James P. Smith - undifferentiated. Electrical and magnetic neurostimulation: Applications, technologies, and market potential. New York: Kalorama Information, 2004.

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5

Atlas of implantable therapies for pain management. New York: Springer, 2011.

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6

A, Simpson Brian, ed. Electrical stimulation and the relief of pain. Amsterdam: Elsevier, 2003.

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7

Chapin, John K., Ph. D. and Moxon Karen A, eds. Neural prostheses for restoration of sensory and motor function. Boca Raton: CRC Press, 2001.

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8

Miu, Kathy K. A multichannel neurostimulator with sensory prosthetics applications. 2007, 2007.

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9

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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10

Computational Neurostimulation. Elsevier, 2015. http://dx.doi.org/10.1016/s0079-6123(15)x0007-0.

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11

Bestmann, Sven. Computational Neurostimulation. Elsevier, 2015.

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12

Computational Neurostimulation. Elsevier Science & Technology Books, 2015.

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13

Rao, Vikram R. Neurostimulation for Epilepsy. Elsevier Science & Technology Books, 2023.

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14

Upton and Lazorthes. Neurostimulation: An Overview. Futura Pub Co, 1985.

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15

Rao, Vikram R. Neurostimulation for Epilepsy. Elsevier Science & Technology, 2023.

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16

Hao, Joy, Rae Lynne Kinler, Eliezer Soto, Helena Knotkova, and Ricardo A. Cruciani. Neurostimulation in pain management. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199656097.003.0099.

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Neurostimulation describes an array of interventions that involve targeted stimulation of peripheral nerve, spinal cord, or the brain. Although few high-quality studies of neurostimulation techniques have been done and the techniques are seldom used in the management of pain related to serious illness, a better understanding of the available treatments and the emergence of newer technologies may increase access and use in the future. Transcutaneous electrical nerve stimulation is considered to be safe and may be used as an adjunct to pharmacotherapy in the routine management of chronic pain. Concerns about electrode placement near tumour masses continue, however, despite reassuring data, and for now, this approach should be used cautiously in those with metastatic disease. The recent advent of non-invasive central nervous system neurostimulation therapies-transcranial direct current stimulation and transcranial magnetic stimulation-offers promising new treatments for pain.
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17

Eljamel, Sam, and Konstantin Slavin. Neurostimulation: Principles and Practice. Wiley & Sons, Limited, John, 2013.

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18

Varma, T. R. K. Neurostimulation For Chronic Pain. Informa Healthcare, 2006.

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19

Eljamel, Sam, and Konstantin Slavin. Neurostimulation: Principles and Practice. Wiley & Sons, Incorporated, John, 2013.

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20

Eljamel, Sam, and Konstantin Slavin. Neurostimulation: Principles and Practice. Wiley & Sons, Limited, John, 2013.

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21

Eljamel, Sam, and Konstantin Slavin. Neurostimulation: Principles and Practice. Wiley & Sons, Incorporated, John, 2013.

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22

Eljamel, Sam, and Konstantin Slavin. Neurostimulation: Principles and Practice. Wiley & Sons, Incorporated, John, 2013.

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23

Parker, Philip M. The 2007-2012 World Outlook for Neurostimulators. ICON Group International, Inc., 2006.

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24

Gad, Heba, Daniel Bateman, and Paul E. Holtzheimer. Neurostimulation Therapies, Side Effects, Risks, and Benefits. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199374656.003.0016.

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Neurostimulation therapies are an alternative for non-responders to pharmacological or psychotherapy management, as well as when first-line treatments are contraindicated for treatment of neuropsychiatric disorders in the elderly. Brain stimulation treatments for neuropsychiatric disorders include the following FDA approved treatments for major depressive disorder: electroconvulsive therapy (ECT), which remains one of the most effective therapies for several neuropsychiatric disorders; repetitive transcranial magnetic stimulation (rTMS); and vagus nerve stimulation (VNS). Deep brain stimulation (DBS);magnetic seizure therapy (MST); transcranial direct-current stimulation (tDCS); and direct cortical stimulation (DCS) are not currently FDA approved. These techniques are reviewed in this chapter with special attention to their application in older adults. Medicolegal issues of informed consent and substituted decisions for procedures are also discussed.
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25

Larrivee, Denis, and Seyed Mansoor Rayegani, eds. Neurostimulation and Neuromodulation in Contemporary Therapeutic Practice. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.77890.

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26

Levy, Robert, Timothy Deer, and Salim Hayek. Neurostimulation for the Treatment of Chronic Pain E-Book. Elsevier - Health Sciences Division, 2011.

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27

Racine, Eric, and Veljko Dubljević. Neuroethics. Oxford University Press, 2016. http://dx.doi.org/10.1093/oxfordhb/9780199935314.013.46.

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This article reviews different points of interest in neuroethics. These are exemplified by the three broad areas of neuroscience research—neuroimaging, neuropharmacology, and neurostimulation—and the major ethical questions with which they are associated. It considers primary research in neuroscience, ethics, and philosophy and identifies some important questions meriting further attention, primarily in the context of healthcare but also beyond, in the broad areas of education, business, and the military. A heavily debated trend, that of the enhancement use of neuropharmaceuticals and neurostimulation devices, is also discussed, especially in relationship to cognitive enhancement and neuroethics. In addition, emerging forms of neurostimulation are considered with respect to effectiveness and ethics.
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28

Devinsky, Orrin. Electrical and Magnetic Stimulation of the Brain and Spinal Cord (Advances in Neurology). Lippincott Williams & Wilkins, 1993.

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29

Opris, Ioan, Manuel F. Casanova, and Mikhail Lebedev, eds. Augmentation of Brain Function: Facts, Fiction and Controversy. Volume II: Neurostimulation and Pharmacological Approaches. Frontiers Media SA, 2018. http://dx.doi.org/10.3389/978-2-88945-615-4.

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30

Chau, John. Neuro Alchemy: What You Need to Know about Neurology's Success Mindset Breakthroughs and Neurostimulation. Indy Pub, 2020.

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31

ANSI/AAMI/ISO 14708-3:2017; Implants for surgery — Active implantable medical devices — Part 3: Implantable neurostimulators. AAMI, 2017. http://dx.doi.org/10.2345/9781570206580.

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32

Carter, Jessica, and Srinivas Pyati. Nonpharmacologic Management of Postsurgical Pain. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190457006.003.0014.

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As a component of a multimodal analgesic approach, psychological and behavioral interventions are gaining popularity and importance with a goal to reduce the doses of the analgesics consumed during the perioperative period. This chapter reviews the use of neurostimulation, including transcutaneous electrical stimulation (TENS), in the postoperative period. The goal is to broaden perspectives on possible components of a multimodal, patient-centered regimen that includes pharmacologic and nonpharmacologic therapies to improve the postoperative experience.
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33

Campos, Lucas, and Jason E. Pope. Peripheral Nerve Stimulation. Edited by Mehul J. Desai. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199350940.003.0033.

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Neuromodulation is the process of altering nerve impulses through electrical or chemical mechanisms. Peripheral nerve stimulation (PNS) is one of the most diverse and rapidly expanding areas of neuromodulation. The goal of this chapter is to increase awareness of the theory, basic science, and ongoing clinical indications of PNS. The use of PNS is a natural outgrowth from traditional methods of using neurostimulation in the spinal canal. Various disease states are theoretically amenable to PNS, including headache disorders such as migraine and cluster headache. Significant and specific risks, safety concerns, and adverse events are possible with PNS, particularly without a focus on prevention.
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34

Jensen, Winnie. Direct Nerve Stimulation for Induction of Sensation and Treatment of Phantom Limb Pain. River Publishers, 2022.

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35

Direct Nerve Stimulation for Induction of Sensation and Treatment of Phantom Limb Pain. River Publishers, 2020.

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36

Jensen, Winnie. Direct Nerve Stimulation for Induction of Sensation and Treatment of Phantom Limb Pain. River Publishers, 2022.

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37

Deer, Timothy R., and Jason E. Pope. Atlas of Implantable Therapies for Pain Management. Springer, 2015.

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38

Deer, Timothy R., and Jason E. Pope. Atlas of Implantable Therapies for Pain Management. Springer, 2016.

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39

Deer, Timothy R., and Jason E. Pope. Atlas of Implantable Therapies for Pain Management. Springer, 2015.

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40

Wong, Stacy N., and Line G. Jacques. Neuropathic Groin Pain. Edited by Meghan E. Lark, Nasa Fujihara, and Kevin C. Chung. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190617127.003.0017.

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Chronic neuropathic groin pain may be iatrogenic or posttraumatic and can be disabling or even crippling in some individuals. Patients may have significant sleep disturbances and may experience psychosocial effects along with significant physical limitations. A combination of pharmacologic treatments with physical therapy and local infiltrations may be useful. Neurostimulation techniques, including spinal cord stimulation, peripheral nerve stimulation, and dorsal root ganglion stimulation, have shown promising results in the treatment of chronic neuropathic pain. In certain cases, surgical approaches, including selective neurectomy, can be effective; in other cases, the pain will remain chronic and intractable despite all interventional measures. In summary, patients with neuropathic groin pain can be treated after a thorough pretreatment investigation. Dorsal root ganglion stimulation is a viable option and should be considered when treating this challenging patient population.
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41

Klein, Eran. Neuromodulation ethics: Preparing for brain–computer interface medicine. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198786832.003.0007.

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Brain–computer interface (BCI) technology is moving from research to clinical practice. Devices that detect seizure patterns and provide preemptive neurostimulation are in clinical use, and significant advancements have been made in BCI-based control of neuroprosthetics and deep brain stimulation systems for treatment of movement disorders. The transition of BCI-based devices into regular clinical use raises ethical challenges for clinicians and patients. Clinicians have important responsibilities in the initial consent process for obtaining BCI devices and in the ongoing management or neuromodulation of patients with BCI-based devices. Rather than understanding neuromodulation as purely technical, it is argued in this chapter that neuromodulation is better thought of as assistive, and that rehabilitation medicine provides a useful framework for beginning to address the kinds of ethical challenges likely to emerge for neuromodulation in BCI medicine.
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42

TENS-like devices. Oxford University Press, 2014. http://dx.doi.org/10.1093/med/9780199673278.003.0011.

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TENS-like devices deliver electrical currents across the intact surface of the skin using pulse generators with technical output specifications that differ from a standard TENS device. Technological advances have resulted in reductions in the size and cost of electrotherapeutic devices with increasing varieties of self-administered hand-held TENS-like devices available to practitioners and the general public. The diversity of TENS-like devices available on the market makes synthesizing evidence difficult. The purpose of this chapter is to categorize TENS-like devices and briefly overview the characteristics, mechanism of action, and effectiveness of various TENS-like devices. The chapter covers high-voltage pulsed (Galvanic) current, microcurrent electrical therapy, low-intensity transcutaneous cranial electrical stimulation, transcutaneous spinal electroanalgesia, transcutaneous piezoelectric current, non-invasive interactive neurostimulation, action potential simulation and H-wave therapy, and transcutaneous electrical acupoint stimulation.
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43

Chau, John. Neuro Alchemy: How Silicon Valley Titans, Professional Athletes, Gifted Musicians, Functional Medicine Doctors, and Navy SEALs Are Utilizing Neurostimulation Technologies to Make Incredible Breakthroughs in Human Health and Performance. Independently Published, 2020.

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44

Glannon, Walter. Neural Prosthetics. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198813910.001.0001.

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Neural prosthetics (neuroprostheses, neural prostheses) are devices or systems that influence the input and output of information in the brain. They modulate, bypass, supplement, or replace regions of the brain and its connections to the body that are damaged, dysfunctional, or lost from brain injury, congenital conditions, limb loss, or neurodegenerative disease. Neural prosthetics can generate, improve, or restore sensory, motor, and cognitive functions. Some prosthetics are implanted in the brain. Others are connected to it in brain–computer interfacing. This book describes auditory and visual prosthetics, deep brain and responsive neurostimulation, brain–computer interfaces, brain-to-brain interfaces, optogenetics, and memory prosthetics and discusses some of their neuroscientific and philosophical implications. The neuroscientific discussion focuses on how neural prosthetics can restore brain and bodily functions. The philosophical discussion focuses on how people with these prosthetics can benefit from or be harmed by them. It also focuses on how these devices and systems can lead to a better understanding of or change our attitudes about the brain–mind relation, identity, mental causation, and agency. The book considers the therapeutic, rehabilitative, and restorative potential of neural prosthetics in improving functional independence and quality of life for millions of people with disabling conditions.
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45

(Editor), John K. Chapin, and Karen A. Moxon (Editor), eds. Neural Prostheses for Restoration of Sensory and Motor Function (Methods and New Frontiers in Neuroscience). CRC, 2000.

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46

Chapin, John K., and Karen A. Moxon. Neural Prostheses for Restoration of Sensory and Motor Function. Taylor & Francis Group, 2000.

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47

Chapin, John K., and Karen A. Moxon. Neural Prostheses for Restoration of Sensory and Motor Function. Taylor & Francis Group, 2019.

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48

Chapin, John K., and Karen A. Moxon. Neural Prostheses for Restoration of Sensory and Motor Function. Taylor & Francis Group, 2000.

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