• Title/Summary/Keyword: neurostimulator

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Research Trends and Challenges in Technology Development of Medical Electronic Implant Devices (이식형 전자의료기 연구동향과 기술개발의 과제)

  • Cho, Jin-Ho
    • Journal of Biomedical Engineering Research
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    • v.29 no.6
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    • pp.415-430
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    • 2008
  • The technologies in medical electronic implant(MEI) devices are developing rapidly, and already, there are various kinds of the MEI devices in the current medical equipments market. Recently, the global market scale of MEI devices have been increased about 13% year by year, and the import amount of MEI devices in Korea is increasing rapidly. In the near future, the demands of MEI devices will be magnificently increasing by the continuous development of the biomedical electronics devices which coupled with neural, brain and other organs will bring us to tremendous effects, such as providing new therapeutic solutions to patients, extension and saving human life, and an important clue of medical development. However, the investment of the research and the activity of developments in this field are still very weak in the Korea. Consequently, this paper introduces about the research trends of MEI devices, and technological problems those must be solved, and then concludes with the suggestions in order to be the leading country in this field.

Caudal Neuromodulation with the Transforaminal Sacral Electrode (InterStim): Experience in a Pain Center Regarding 12 Implants

  • Guardo, Laura Alonso;Gala, Carlos Cano;Poveda, David Sanchez;Juan, Pablo Rueda;Sanchez Montero, Francisco Jose;Garzon Sanchez, Jose Carlos;Lamas, Juan Ignacio Santos;Sanchez Hernandez, Miguel Vicente
    • The Korean Journal of Pain
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    • v.29 no.1
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    • pp.23-28
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    • 2016
  • Background: Sacral nerve stimulation is a therapeutic option with demonstrated efficacy for conditions presenting with perineal pain caused by different etiologies. We aimed to assess whether a sacral electrode ($Interstim^{(R)}$, Medtronic, Minneapolis, MN, USA) inserted through the caudal pathway is able to offer an acceptable level of sacral stimulation and rate of catheter migration. Methods: We present 12 patients with pelvic pain who received sacral neuromodulation via the sacral hiatus with the InterStim electrode. We evaluated patient satisfaction as well as migration and removal of the electrode, if necessary. Results: Our experience included 12 patients, 10 women and two men, with a mean age of 60 years. In eight of the 12 patients, the initial therapy was effective, and the final system implantation was performed. During subsequent follow-up, patient satisfaction was good. To date, there have been no cases of electrode displacement or migration. Conclusions: The caudal insertion of the InterStim electrode, with its own fixation system, and initially designed for transsacral insertion, appears in our experience to be a satisfactory option which can minimize electrode displacements, achieving similar results in therapeutic efficacy and causing no difficulties in removal.

Development of Real-time Closed-loop Neurostimulation System for Epileptic Seizure Suppression (뇌전증 경련 억제를 위한 실시간 폐루프 신경 자극 시스템 설계)

  • Kim, Sowon;Kim, Sunhee;Lee, Yena;Hwang, Seoyoung;Kang, Taekyeong;Jun, Sang Beom;Lee, Hyang Woon;Lee, Seungjun
    • Journal of Biomedical Engineering Research
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    • v.36 no.4
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    • pp.95-102
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    • 2015
  • Epilepsy is a chronic neurological disease which produces repeated seizures. Over 30% of epileptic patients cannot be treated with anti-epileptic drugs, and surgical resection may cause loss of brain functions. Seizure suppression by electrical stimulation is currently being investigated as a new treatment method as clinical evidence has shown that electrical stimulation to brain could suppress seizure activity. In this paper, design of a real-time closed-loop neurostimulation system for epileptic seizure suppression is presented. The system records neural signals, detects seizures and delivers electrical stimulation. The system consists of a 6-channel electrode, front-end amplifiers, a data acquisition board by National Instruments, and a neurostimulator and Generic Osorio-Frei algorithm was applied for seizure detection. The algorithm was verified through simulation using electroencephalogram data, and the operation of whole system was verified through simulation and in- vivo test.