Abstract
A neurological disorder is a chronic discomfort that affects many people throughout the world. The major form of treatment is long-term drug therapy, and surgery is an alternative for patients who do not respond to drug treatment when the cause is limited to a region. Continuous monitoring of neural activity is commonly used for the diagnosis of abnormal zones. Thanks to the advances in electronics, sensor systems, and fabrication methodologies, this book proposes an entirely implantable wireless neural monitoring system which eliminates the wires and possible complications due to them. This chapter presents the motivation of a wireless implantable neural recording system. It describes the challenges while removing the wires going from intracranial sensors to an external device outside of the body.
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References
Capogrosso M, Milekovic T, Borton D et al (2016) A brain–spine interface alleviating gait deficits after spinal cord injury in primates. Nature 539:284–288
Epilepsy. In: World Health Organization. http://www.who.int/news-room/fact-sheets/detail/epilepsy. Accessed 22 Oct 2018
Kwan P, Brodie MJ (2000) Early identification of refractory epilepsy. N Engl J Med 342: 314–319
Berkovic SF, McIntosh AM, Kalnins RM et al (1995) Preoperative MRI predicts outcome of temporal lobectomy: an actuarial analysis. Neurology 45:1358–1363
Webster JG (2009) Medical instrumentation: application and design, 4th edn. Wiley, Hoboken
Andersen RA, Musallam S, Pesaran B (2004) Selecting the signals for a brain–machine interface. Curr Opin Neurobiol 14:720–726
Najafi K, Wise KD (1986) An implantable multielectrode array with on-chip signal processing. IEEE J Solid State Circuits 21:1035–1044
Spencer D, Nguyen DK, Sivaraju A (2015) Invasive EEG in presurgical evaluation of epilepsy. In: The treatment of epilepsy. Wiley-Blackwell, Hoboken, pp 733–755
Nair DR, Burgess R, McIntyre CC, Lüders H (2008) Chronic subdural electrodes in the management of epilepsy. Clin Neurophysiol 119:11–28
Thakor NV (2013) Translating the brain-machine interface. Sci Transl Med 5:210ps17
Engel J, Pedley TA, Aicardi J (2008) Epilepsy: a comprehensive textbook. Lippincott Williams & Wilkins, Philadelphia
Bingaman WE, Bulacio J (2014) Placement of subdural grids in pediatric patients: technique and results. Childs Nerv Syst 30:1897–1904
Stead M, Bower M, Brinkmann BH et al (2010) Microseizures and the spatiotemporal scales of human partial epilepsy. Brain 133:2789–2797
Van Gompel JJ, Worrell GA, Bell ML et al (2008) Intracranial electroencephalography with subdural grid electrodes: techniques, complications, and outcomes. Neurosurgery 63:498–505; discussion 505–506
Fountas KN (2011) Implanted subdural electrodes: safety issues and complication avoidance. Neurosurg Clin N Am 22:519–531, vii
Akin T, Najafi K, Bradley RM (1998) A wireless implantable multichannel digital neural recording system for a micromachined sieve electrode. IEEE J Solid State Circuits 33:109–118
Bonfanti A, Ceravolo M, Zambra G et al (2010) A multi-channel low-power IC for neural spike recording with data compression and narrowband 400-MHz MC-FSK wireless transmission. In: 2010 Proceedings of ESSCIRC, pp 330–333
Lee SB, Lee H, Kiani M, et al (2010) An inductively powered scalable 32-channel wireless neural recording system-on-a-chip for neuroscience applications. IEEE Trans Biomed Circuits Syst 4:360–371
Abdelhalim K, Kokarovtseva L, Velazquez JLP, Genov R (2013) 915-MHz FSK/OOK wireless neural recording SoC with 64 mixed-signal FIR filters. IEEE J Solid State Circuits 48:2478–2493
Gao H, Walker RM, Nuyujukian P, et al (2012) HermesE: a 96-channel full data rate direct neural interface in 0.13 μm CMOS. IEEE J Solid State Circuits 47:1043–1055
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Türe, K., Dehollain, C., Maloberti, F. (2020). Introduction. In: Wireless Power Transfer and Data Communication for Intracranial Neural Recording Applications . Analog Circuits and Signal Processing. Springer, Cham. https://doi.org/10.1007/978-3-030-40826-8_1
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DOI: https://doi.org/10.1007/978-3-030-40826-8_1
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