Bibliografías temáticas / Neuromodulation technologie

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Literatura académica sobre el tema "Neuromodulation technologie"

Autor: Grafiati
Publicado: 25 de mayo de 2024

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Artículos de revistas sobre el tema "Neuromodulation technologie"

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Williams, J. C. y T. Denison. "From Optogenetic Technologies to Neuromodulation Therapies". Science Translational Medicine 5, n.º 177 (20 de marzo de 2013): 177ps6. http://dx.doi.org/10.1126/scitranslmed.3003100.

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Kos, Aron, Nikkie F. Olde Loohuis, Jeffrey C. Glennon, Tansu Celikel, Gerard J. M. Martens, Paul H. Tiesinga y Armaz Aschrafi. "Recent Developments in Optical Neuromodulation Technologies". Molecular Neurobiology 47, n.º 1 (14 de octubre de 2012): 172–85. http://dx.doi.org/10.1007/s12035-012-8361-y.

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Won, Sang Min, Enming Song, Jonathan T. Reeder y John A. Rogers. "Emerging Modalities and Implantable Technologies for Neuromodulation". Cell 181, n.º 1 (abril de 2020): 115–35. http://dx.doi.org/10.1016/j.cell.2020.02.054.

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Zibly, Zion, Shay Averbuch y Milind Deogaonker. "Emerging Technologies and Indications of Neuromodulation and Increasing Role of Non Invasive Neuromodulation". Neurology India 68, n.º 8 (2020): 316. http://dx.doi.org/10.4103/0028-3886.302453.

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Erőss, Loránd, László Entz y Dániel Fabó. "Invazív neuromoduláció a gyógyszerrezisztens epilepsziák kezelésében". Orvosi Hetilap 156, n.º 52 (diciembre de 2015): 2103–9. http://dx.doi.org/10.1556/650.2015.30319.

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Neuromodulation is one of the most developing new disciplines of medical science, which examines how electrical, chemical and mechanical interventions can modulate or change the functioning of the central and peripheral nervous system. Neuromodulation is a reversible form of therapy which uses electrical or mechanical stimulation or centrally-delivered drugs to modulate the abnormal function of the central nervous system in pain, spasticity, epilepsy, movement and psychiatric disorders, and certain cardiac, incontinency, visual and auditory diseases. Neuromodulation therapy has two major branches. Non-invasive neuromodulation includes transcranial magnetic simulation, direct current stimulation and transcutaneous electric nerve stimulation. Invasive neuromodulation includes deep brain stimulation, cortical stimulation, spinal cord stimulation, peripheral nerve stimulation, sacral nerve simulation, and subcutan stimulation. In this article the authors overview the apparently available neural interface technologies in epilepsy surgery. Orv. Hetil., 2015, 156(52), 2103–2109.
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Zhang, Jing. "Neuromodulation for functional restoration: recent advances and future perspectives". International Journal of Radiology & Radiation Therapy 8, n.º 3 (15 de septiembre de 2021): 134–37. http://dx.doi.org/10.15406/ijrrt.2021.08.00305.

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This mini-review assessed recent studies of spinal cord stimulation and neuromuscular stimulation in spinal cord injury in order to provide an overview of recent advances in neuromodulation for functional restoration. Possible mechanisms of such motor recovery were analyzed, ways to improve neuromodulation for functional restoration were discussed, and future perspectives were outlined in this paper. Recent advancements in neuromodulation such as spinal cord stimulation and neuromuscular stimulation in spinal cord injury have made it possible for patients with incurable complete paralysis to recover motor function. The progress of recent neuromodulation studies in spinal cord injury have demonstrated the value and potential of neuromodulation in functional restoration. The effectiveness and precision of neuromodulation can be further improved by techniques such as closed-loop control, optogenetics, multi-modal stimulation and neuroimmune modulation, while its adverse effects can be reduced (e.g., by optimizing parameters) or minimized (e.g., by using non-invasive techniques). This has opened up new possibilities to use neuromodulation for other incurable neurological diseases such as Parkinson’s disease and multiple sclerosis. Neuromodulation has great potential for restoring lost functions and reestablishing physiological homeostasis. To reach its full potential, much learning, research and development is needed. As neuromodulation technology advances, it is foreseeable that neuromodulation will achieve significant clinical effectiveness in functional restoration in the near future, which will bring cure to patients with incurable neurological diseases and relieve them from suffering.
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Schultheis, Maria T. "CE Workshop 05: Technology and Cognition: Examining new trends and opportunities for neuropsychology". Journal of the International Neuropsychological Society 29, s1 (noviembre de 2023): 3. http://dx.doi.org/10.1017/s1355617723000826.

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Abstract & Learning Objectives:Advances in technologies continue to offer new opportunities for understanding brain functioning and brain-behavior interactions. The clinical application of these technologies continues to require the understanding of both the benefits and limitations of integrating these novel methodologies. This workshop will provide an overview of several emerging and established technologies in neuropsychological assessment and rehabilitation. This will include discussion of portable brain imaging technologies, neuromodulation technologies, virtual reality simulation and various brain-computer interface devices. In addition, we will discuss how clinical application of these novel devices offer opportunities for growing knowledge in new areas of analysis (i.e., machine learning analysis) and interdisciplinary collaborations. Upon conclusion of this course, learners will be able to: 1.Identify 3 technologies that are currently employed in neuropsychological research2.Assess the strengths and weakness of novel technologies for brain-behavior interface3.Examine current clinical applications of neuromodulation technologies and portable brain-imaging technologies
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De Wachter, Stefan, Charles H. Knowles, Dean S. Elterman, Michael J. Kennelly, Paul A. Lehur, Klaus E. Matzel, Stefan Engelberg y Philip E. V. Van Kerrebroeck. "New Technologies and Applications in Sacral Neuromodulation: An Update". Advances in Therapy 37, n.º 2 (24 de diciembre de 2019): 637–43. http://dx.doi.org/10.1007/s12325-019-01205-z.

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Kong, Lanhe y Ruqi Wang. "Modalities of Neuromodulation for Neurological Diseases". Highlights in Science, Engineering and Technology 36 (21 de marzo de 2023): 166–75. http://dx.doi.org/10.54097/hset.v36i.5657.

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Neurological diseases have attracted much attention as they have become the second leading cause of death worldwide. Several works on neuromodulation were reported to improve patients' quality of life or the body's functionality. After the early discovery of the gating theory, electrical stimulation was used to relieve chronic pain. In recent years, several other neuromodulation techniques, including thermal, and pharmacological stimulation, were proposed to improve the effectiveness. In this paper, some of the related researches on electrical, thermal, and pharmacological stimulation are summarized. Scientists are searching for more suitable therapies for neuromodulation now, including improving probe and electrode materials based on existing protocols. In terms of thermal stimulation, light-induced heating of heat conversion materials are introduced. The three administration routes of oral, intravenous and micropump in pharmacological are also mentioned. It also highlight the researches that combine some new cutting-edge technologies (e.g. nanotechnology) with the neuromodulation technique. In the end, the advantages and disadvantages are discussed, and the prospects are forecasted.
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Orazem, Mark E., Kevin J. Otto y Christopher L. Alexander. "Electrochemistry in Action-Engineering the Neuronal Response to Electrical Microstimulation". Electrochemical Society Interface 32, n.º 1 (1 de marzo de 2023): 40–42. http://dx.doi.org/10.1149/2.f06231if.

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Brain neuromodulation has revolutionized the medical treatment of neurological diseases and injuries; however, existing therapies are limited in their clinical scope of application. Most existing therapies are delivered through implanted macroelectrodes that reside either on top of or directly inside the brain. Estimates of the effective electric field spread from these devices generally span from thousands to millions of individual neurons. Unfortunately, some neurological diseases and injuries require stimulation fields of higher precision. Next-generation microneuromodulation devices (˜102 – 103 μm2 surface area) have been developed with hundreds of closely spaced channels. These devices may be able to provide electrical microstimulation in the form of biphasic, charge-balanced small amplitude square waves that provide salient, behaviorally relevant information to human subjects. However, there is a lack of knowledge incorporated into their safety and clinical use. Neuromodulation is a field of science, medicine, and bioengineering that encompasses implantable and non-implantable technologies, electrical or chemical, that act upon neural interfaces to improve life for humanity. Our research groups collaboratively investigate neuromodulation performed via electrical microstimulation. Our primary development target is brain neuromodulation. In this article we highlight the application of electrochemistry to the field of neuromodulation.
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Tesis sobre el tema "Neuromodulation technologie"

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Thomasset, Laure. "La neuroéthique saisie par le droit : contribution à l'élaboration d'un droit des neurotechnologies". Electronic Thesis or Diss., Paris 1, 2021. https://buadistant.univ-angers.fr/login?url=https://bibliotheque.lefebvre-dalloz.fr/secure/isbn/9782247226603.

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Née dans les années 2000 pour répondre à une inquiétude éthique grandissante provoquée par les avancées neuroscientifiques, la neuroéthique s’entend comme une réflexion éthique spécifique aux neurosciences. Saisie par le droit depuis la loi de bioéthique du 7 juillet 2011, elle a intégré la sphère juridique sous la forme d 'un régime spécial : le droit des neurotechnologies. Parce que celui-ci relève indéniablement du droit de la bioéthique, la prise en compte du risque sanitaire générée par ces technologies a été une évidence. A l’examen pourtant, la justification de la création de règles spécifiques pour les techniques neuroscientifiques réside d’abord et avant tout dans la présence d’un risque d’une autre nature : le risque comportemental. Curieusement, celui-ci n’a été que peu pris en considération dans ses différents aspects par le législateur. Partant de ce constat, l'objet de cette thèse est d’apporter une contribution à l’élaboration de ce régime spécial, en tentant d’intégrer davantage les enjeux du risque comportemental dans le corps des règles juridiques, sans que l’attention portée au risque sanitaire en souffre par la même occasion. En ce sens, les mesures sont proposées pour chaque famille de neurotechnologies. Concernant les techniques d’imagerie cérébrale, il s’agit de restreindre les finalités autorisées et de corriger les modalités du consentement. Concernant les techniques de neuromodulation, il s’agir de limiter les finalités d’utilisation et de réaménager les règles de la responsabilité
Born in the 2000s with the aim of addressing a growing ethical concern over the neuroscientist advances, neuroethics shall be understood as an ethical reflection related to neurosciences. Seized by law since the law on bioethics dated July, 7th 2011, it was embedded in the legal sphere by means of a special regime, namely neurotechnology law. Since the latter undeniably fails within bioethics law, the health risk arising from these technologies was self-evidently considered. After scrutiny though, the rationale behind creating rules peculiar to neuroscientist technologies mainly lies in the presence of a different risk : the behavioural risk. Surprisingly, such risk was given cursory consideration only in its various aspects by the legislature. Based on this observation, the purpose of this thesis is to make a contribution to the development of the aforementioned special regime, by seeking to integrate further the behavioural risk issues without detriment to the consideration already given to the health risk. Towards that end, measures are proposed for each family of neurotechnologics. As regards cerebral imaging technologies, this includes restricting their permissible purposes as well as correcting the conditions for prior consent. With respect, to neuromodulation technologies, it is a question, of limiting their purpose for use and to overhaul the liability rules
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Moini, Azadeh. "New technologies for neuromodulation". Thesis, Massachusetts Institute of Technology, 2009. http://hdl.handle.net/1721.1/61300.

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Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2009.
Cataloged from PDF version of thesis.
Includes bibliographical references (p. 59-61).
Non-invasive neural stimulation techniques are of increasing importance as devices move from the lab to the clinical environment. One such technology-transcranial magnetic stimulation-has already made the transition and is currently used by clinicians to treat depression. This device has several drawbacks, such as a limited ability to focus its energy to a relatively small region and to distribute energy to deep structures. This thesis simulates an inhomogeneous human brain under transcranial magnetic stimulation. The models developed indicate that regions of high conductivity and permittivity may be the key to overcoming the limitations of current TMS technology. Specifically, models of 1mm-sized particles of high conductivity and permittivity increased the induced current in deep regions by a factor of 600,000, indicating that some modification to the delivery method of TMS may drastically increase its effectiveness and usability. Unlike other forms of stimulation, acoustic energy has not been explored in great depth in relation to neural stimulation. This thesis explores the possibility of using ultrasound to focally target and non-invasively stimulate rodents in vivo. While the mechanism by which ultrasound works to alter neural activity is difficult to pinpoint, in vivo testing with a variety of ultrasound frequencies, powers, and delivery protocols may lead to a breakthrough in the field. Furthermore, this thesis outlines a method for stimulating neural activity with ultrasound by way of heating specific regions.
by Azadeh Moini.
M.Eng.
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Jarjees, Mohammed Sabah. "The causality between Electroencephalogram (EEG) and Central Neuropathic Pain (CNP), and the effectiveness of neuromodulation strategies on cortical excitability and CNP in patients with spinal cord injury". Thesis, University of Glasgow, 2017. http://theses.gla.ac.uk/7985/.

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Spinal Cord Injury has primary consequences visible immediately upon injury and secondary consequence which develop some time after injury. One of the primary consequences of SCI is loss or impairment of sensory and motor functions. Related secondary consequences of the injury are Central Neuropathic Pain (CNP) and spasticity. Several studies have found that CNP can affect the cortical activity of the patient and long term CNP causes anatomical cortical changes. Therefore, early prediction and treatment of CNP could potentially prevent these changes and hopefully increase responsiveness to the treatment. Neurofeedback (NF) technique, which is a sub-category of biofeedback that uses brain waves as physiological parameters to be modulated, can be used to alter this change in cortical activity and treat CNP. The sensory motor cortex is the area of the brain responsible for voluntary control of movement and for cortical modulation of reflexes. NF provided from the sensory-motor area can therefore affect both CNP and voluntary and reflex movements. The aim of this PhD project was to explore the influence of neuromodulation strategies over the central cortex on the H reflex and CNP following SCI. It also aimed to investigate the causal relationship between the change in EEG activity and the transitional period from early symptoms of CNP to the chronic phase of CNP following SCI. The first study of this project was performed on able-bodied volunteers to explore the effect of the short-term neuromodulation strategies: NF, motor imagery (MI) and mental math (MM) of the sensory-motor rhythm (SMR) on the soleus H reflex. Results of the study showed that it is possible to achieve short-term modulation of the H reflex through short-term modulation of the SMR. Various mental tasks dominantly facilitate the H reflex irrespective of the direction of SMR modulation. The results of this study can be used to explain the effect of NF therapy on spasticity in SCI patient, for example. The second study analysed predictors of CNP in sub-acute SCI patients who have not yet developed physical symptoms of pain. It compared EEG signal between patients who did and did not develop pain within the first six months after EEG recording as well as patients with CNP and able bodied volunteers. This study demonstrated that changes in spontaneous and induced EEG can be both predictors and consequences of CNP following SCI. The third study explores the effectiveness of Neurofeedback (NF) on treatment of CNP in subacute SCI patients with CNP. The results of this study demonstrate that the NF treatment has a positive effect on the reduction of pain, at least over the period of the study. However, numerous factors, and in particular patients’ low prioritization of pain, indicate that early NF of CNP in SCI patients might not be a practical solution. The fourth study utilizes advanced methods of source analysis to define dynamic signatures of long standing CNP by using Measure Projection Analysis (MPA) for movement related cortical potential (MRCP). To separate the effect of long-term paralysis from the effect of long-term CNP, brain activity has been compared between three groups: able bodied volunteers, patients with chronic paraplegia (paralysis of lower limbs) with no pain and patients with chronic paraplegia and long standing CNP. This study showed that the movement related potential is dominantly influenced by paralysis while both CNP and paralysis affect the reafferentation component of the MRCP. Additionally, CNP influences cognitive processes in a manner that depends on the functional area of the cortex.
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Narasimhan, Anirudhan. "Commercialization of HFAC Electronic Nerve Block Technology to Treat Chronic Post Surgical Pain". Case Western Reserve University School of Graduate Studies / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=case1290641992.

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Libros sobre el tema "Neuromodulation technologie"

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Krames, Elliot, P. Hunter Peckham y Ali R. Rezai. Neuromodulation: Comprehensive Textbook of Principles, Technologies, and Therapies. Elsevier Science & Technology Books, 2018.

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Krames, Elliot, P. Hunter Peckham y Ali R. Rezai. Neuromodulation: Comprehensive Textbook of Principles, Technologies, and Therapies. Elsevier Science & Technology Books, 2018.

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Todder, Doron, Keren Avirame y Hagit Cohen. Neuromodulation Methods in PTSD. Editado por Charles B. Nemeroff y Charles R. Marmar. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190259440.003.0039.

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This chapter discusses the rationale and methodology for applying techniques of active and passive neuromodulation for treatment-refractory post-traumatic stress disorder (PTSD). Neuromodulation derives from the concept of neuroplasticity, which signifies long-term changes in the effectiveness of connections between distinct parts of the central nervous system. These changes are reflected across multiple levels of the nervous system, going from the cellular level to circuits and large-scale brain networks. It has been long suggested that altered neuroplasticity is a biomarker of neuropsychiatric diseases. With recent advances in neuroscience, research is emerging on evaluating the potential of modulating neural circuits by using innovative technologies, including noninvasive and invasive brain stimulation, EEG-neurofeedback, and fMRI neurofeedback.
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Goodman, Wayne K. y Mark S. George. Neuromodulation and Psychiatric Disorders. Editado por Dennis S. Charney, Eric J. Nestler, Pamela Sklar y Joseph D. Buxbaum. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190681425.003.0010.

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An increasing number of approaches permit psychiatrists to directly stimulate the brain. Such therapies are sometimes referred to as neuromodulation, as psychiatrists can either excite or inhibit neuronal firing in the brain. This chapter reviews two such technologies—transcranial magnetic stimulation (TMS) and deep brain stimulation (DBS). Both techniques have FDA approval and are moving into mainstream therapeutic use. Daily prefrontal TMS for 4–6 weeks is FDA approved for treating depression, with minimal side effects. It is now accepted in most treatment algorithms as an approach for patients who have not responded to medications or talking therapy. DBS has virtually replaced ablative neurosurgery for use in medication-refractory movement disorders such as Parkinson’s Disease (PD), where it has the advantages of being reversible (explantable) and adjustable. DBS is now being studied in severe psychiatric conditions, such as intractable obsessive-compulsive disorder (OCD) and treatment resistant depression (TRD).
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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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Bologna, Matteo, Aristide Merola y Lucia Ricciardi, eds. Innovative Technologies and Clinical Applications for Invasive and Non-Invasive Neuromodulation: From the Workbench to the Bedside. Frontiers Media SA, 2020. http://dx.doi.org/10.3389/978-2-88963-469-9.

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Zito, Giancarlo, Takashi Hanakawa, Luca Berdondini, Lorenzo Masia y Lorenzo Natale, eds. Challenging the Functional Connectivity Disruption in Neurodegenerative Diseases: New Therapeutic Perspectives through Non-Invasive Neuromodulation and Cutting-Edge Technologies. Frontiers Media SA, 2018. http://dx.doi.org/10.3389/978-2-88945-593-5.

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Shah, Chirag D. y Maunak V. Rana. Advances in Dorsal Column Stimulation. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190626761.003.0017.

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Spinal cord stimulation (SCS) has been a long established therapy for various pain conditions including low back pain, failed back surgery syndrome, complex regional pain syndrome, and other neuropathic and nociceptive pain states. Since the first report of SCS in 1967 by Shealy, advances have occurred in the technology used to achieve clinical analgesia. Developments in both the hardware and software involved have led to significant improvements in functional specificity, as seen in dorsal root ganglion stimulation, along with increasing breadth and depth of the field of neuromodulation. The patient experience during the implantation of the systems, as well as post-procedurally has been enhanced with improvements in programming. These technological improvements have been validated in quality evidenced-based medicine: what was a static area now is a dynamic field, with neuromodulation poised to allow physicians and patients more viable options for better pain control for chronic painful conditions.
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Lazarov, Amit, Adva Segal y Yair Bar-Haim. Cognitive Training and Technology in the Treatment of Children and Adolescents. Editado por Thomas H. Ollendick, Susan W. White y Bradley A. White. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190634841.013.47.

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Cognitive training approaches in the treatment of pediatric psychopathology rely on the identification of specific aberrant cognitive processes that could be targeted for rectification via training. Such processes include threat-related attention and interpretation, working memory, and emotion recognition, among others. A selective review is given of mental processes that have been identified as potential targets for psychological treatment and the technologies that could be harnessed for such therapeutic targeting. Implementation of cognitive training procedures in the treatment of children, adolescents, and adults is described, and their clinical efficacy is evaluated. Recent technologies harnessed for the implementation of cognitive training protocols, such as eye-tracking, virtual reality, and neuromodulation, are described and their potential applications in novel therapeutic procedures and in improvement of extant cognitive training protocols are discussed.
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Demitrack, Mark A. y Sarah H. Lisanby. Methodological issues in clinical trial design for TMS. Editado por Charles M. Epstein, Eric M. Wassermann y Ulf Ziemann. Oxford University Press, 2012. http://dx.doi.org/10.1093/oxfordhb/9780198568926.013.0039.

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This article explores the emergence of transcranial magnetic stimulation (TMS) as a new therapeutic approach and the implications of this technology for the study and treatment of neuropsychiatric disorders, with a focus on major depression. Relapse, chronicity, and varying degrees of treatment resistance characterize major depression. A substantial number of patients are not effectively treated with pharmacology or medications alone. It is proposed that TMS, along with other device-based therapies emerging in psychiatry, may define a potential new treatment platform, with existing therapeutics for major depression. Through the example of a study, this article describes the methodological considerations in the development of TMS for the treatment of major depression. Device-based approaches to therapeutic neuromodulation hold the promise of significant clinical advantages compared to existing treatments for major depression, but evidence in well designed and properly blinded multicenter trials is still lacking, hence, research in this area is ongoing.
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Capítulos de libros sobre el tema "Neuromodulation technologie"

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Guleyupoglu, Berkan, Pedro Schestatsky, Felipe Fregni y Marom Bikson. "Methods and Technologies for Low-Intensity Transcranial Electrical Stimulation: Waveforms, Terminology, and Historical Notes". En Textbook of Neuromodulation, 7–16. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4939-1408-1_2.

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Tawadros, Cecile, Katherine E. Burnett y Christopher D. Betts. "Neuromodulation by Sacral Nerve Stimulation". En Imaging and Technology in Urology, 307–10. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2422-1_68.

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Burnett, Katherine E., Christopher D. Betts y Emma L. Foster. "Neuromodulation by Sacral Nerve Stimulation". En Imaging and Technology in Urology, 405–8. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-26058-2_72.

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Cosentino, Giuseppe, Filippo Brighina, Enrico Alfonsi y Giorgio Sandrini. "Effects of Neuromodulation on Gait". En Advanced Technologies for the Rehabilitation of Gait and Balance Disorders, 367–97. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-72736-3_26.

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Kim, Eun Sok y Su-youne Chang. "Patch Clamp Technology for Focused Ultrasonic (FUS) Neuromodulation". En Methods in Molecular Biology, 657–70. New York, NY: Springer US, 2021. http://dx.doi.org/10.1007/978-1-0716-1803-5_35.

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Deer, Timothy R. y Chong H. Kim. "Emerging Technology in Neuromodulation: Waveforms and New Targets in Spinal Cord Stimulation". En Integrating Pain Treatment into Your Spine Practice, 241–50. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-27796-7_21.

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Ineichen, Christian y Markus Christen. "Neuromodulation of the “Moral Brain” – Evaluating Bridges Between Neural Foundations of Moral Capacities and Normative Aims of the Intervention". En The International Library of Ethics, Law and Technology, 165–85. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-56134-5_9.

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Dyer, Allen R. y Mary Pat Aardrup. "Neuromodulation Technologies". En Neuromodulation, 21–27. Elsevier, 2009. http://dx.doi.org/10.1016/b978-0-12-374248-3.00004-5.

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Othmer, Siegfried. "Neuromodulation technologies". En Introduction to Quantitative EEG and Neurofeedback, 1–27. Elsevier, 2009. http://dx.doi.org/10.1016/b978-0-12-374534-7.00001-0.

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Pedersen, Nigel P. y Robert E. Gross. "Neuromodulation Using Optogenetics and Related Technologies". En Neuromodulation, 487–500. Elsevier, 2018. http://dx.doi.org/10.1016/b978-0-12-805353-9.00035-8.

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Actas de conferencias sobre el tema "Neuromodulation technologie"

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Liu, Yuchen. "Research on gait rehabilitation based on neuromodulation technologies". En 7TH INTERNATIONAL CONFERENCE ON MATHEMATICS: PURE, APPLIED AND COMPUTATION: Mathematics of Quantum Computing. AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0111729.

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Chen, Yibing. "Neuromodulation Based Visual Restoration Methods". En 2022 2nd International Conference on Electronic Information Engineering and Computer Technology (EIECT). IEEE, 2022. http://dx.doi.org/10.1109/eiect58010.2022.00079.

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Hiremath, Akshata, Inzamam Sayyed, Kshitij Ijari, Manjunath Bhat, Anchal Jain, Anand S. Meti, Sunil V. Gurlahosur y Shashidhara B. Vyakaranal. "Optimizing Recurrent Neural Network Using Neuromodulation". En 2021 12th International Conference on Computing Communication and Networking Technologies (ICCCNT). IEEE, 2021. http://dx.doi.org/10.1109/icccnt51525.2021.9580032.

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Shandybina, N., S. Ananyev, А. Aliev, I. Shalmiev, S. Kozureva, M. Averkiev, V. Bulanov et al. "On the effectiveness of integration of a rehabilitation device based on a neurointerface and neurostimulation of the spinal cord in the rehabilitation of patients with impaired upper limb movement due to neurological disorders". En VIII Vserossijskaja konferencija s mezhdunarodnym uchastiem «Mediko-fiziologicheskie problemy jekologii cheloveka». Publishing center of Ulyanovsk State University, 2021. http://dx.doi.org/10.34014/mpphe.2021-217-221.

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Millions of people around the world suffer from disorders caused by injuries and diseases of the brain and spinal cord. The combination of brain-computer interfaces and neuromodulation technologies is a new approach that could revolutionize the treatment of these disorders. In this study, we tested the effectiveness of a technique in which a patient with a spinal cord injury first undergoes spinal cord stimulation and then participates in a rehabilitation session using a brain-computer interface based on the P300 principle, which decodes visual-motor transformation and uses an assistive robot that moves the patient’s arm, and virtual reality. All healthy participants of the study were able to combine these two techniques without any undesirable effects; studies on patients with spinal cord injury are ongoing. System integration of the two methods has been already performed, and in the future, upon completion of this work, the neural interface will be able to control the stimulation parameters. We propose such integrated systems as a new approach to neurorehabilitation. Key words: brain-computer interface, neuromodulation, spinal cord stimulation, spinal cord trauma, P300, visuomotor transformation.
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Danilov, Yuri P., Mitchel E. Tyler, Kurt A. Kaczmarek y Kimberley L. Skinner. "New approach to neurorehabilitation: cranial nerve noninvasive neuromodulation (CN-NINM) technology". En SPIE Sensing Technology + Applications, editado por Šárka O. Southern, Mark A. Mentzer, Isaac Rodriguez-Chavez y Virginia E. Wotring. SPIE, 2014. http://dx.doi.org/10.1117/12.2058744.

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Sawan, Mohmad. "Closed-Loop AI-based Neuromodulation for Recovering Vital Functions". En 2023 3rd International Conference on Frontiers of Electronics, Information and Computation Technologies (ICFEICT). IEEE, 2023. http://dx.doi.org/10.1109/icfeict59519.2023.00008.

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Zhao, Yang y Lin Xu. "Closed-Loop Neuromodulation System for Epilepsy Based on Optogenetics". En 2018 IEEE 8th Annual International Conference on CYBER Technology in Automation, Control, and Intelligent Systems (CYBER). IEEE, 2018. http://dx.doi.org/10.1109/cyber.2018.8688304.

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Furukawa, Ryo y Takashi Tateno. "Development of a Piezoelectric Micromachined Ultrasound Transducer using Microfabrication Technology for in Vitro Neuromodulation". En 15th International Conference on Biomedical Electronics and Devices. SCITEPRESS - Science and Technology Publications, 2022. http://dx.doi.org/10.5220/0010938500003123.

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Mota, Eduardo Cristhian Oliveira de Souza, Alyssa Maria Rigon Bueno, Gabriel Vitor Oliveira de Souza Mota, Kaue Magalhães Castro Santos, Renato Lobato da Costa Nunes, Jonas Gabriel Araripe Dantas, Douglas Machado Costa, Giuliana Almeida da Silvas Santos y Ana Paula Palheta Faria. "The management of innovative technologies of radioelectric neuromodulation in a child patient with autism spectrum disorder (ASD)". En SBN Conference 2022. Thieme Revinter Publicações Ltda., 2023. http://dx.doi.org/10.1055/s-0043-1774659.

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Zhu, Yi, Yuhan Hou, Jack Ji, Aaron Zhou, Andrew G. Richardson y Xilin Liu. "A Wireless Sensor-Brain Interface System for Tracking and Guiding Animal Behaviors Through Goal-Directed Closed-loop Neuromodulation". En 2023 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and Circuits). IEEE, 2023. http://dx.doi.org/10.23919/vlsitechnologyandcir57934.2023.10185303.

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Informes sobre el tema "Neuromodulation technologie"

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Pal, Sumon K. Achievements for Developing a Technology to Manage Post-Traumatic Pain With Ultrasound Neuromodulation. Fort Belvoir, VA: Defense Technical Information Center, enero de 2012. http://dx.doi.org/10.21236/ada558314.

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