• Title/Summary/Keyword: Implantable

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Proposition of a New Implantable Acoustic Sensor Based on Technology Evaluation of Fully Implantable Hearing Aids (완전 이식형 보청기 기술 평가 기반의 새로운 이식형 음향센서 제안)

  • Cho, Jin-Ho;Woo, Seong Tak;Lim, Hyung-Gyu;Jung, Eui Sung;Lee, Jyung Hyun;Lee, Seung-Ha;Seong, Ki Woong
    • Journal of Sensor Science and Technology
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    • v.23 no.3
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    • pp.178-184
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    • 2014
  • Key components of implantable hearing aids are consist of an acoustic sensor that collect external sound by suppressing the body noise, a signal processor module for compensation algorithm of hearing loss, and a output transducer which has tiny size but have high efficiency, respectively. In the partial implantable hearing aids, technologies of transducer and signal processor are so matured that can be applied not too much difficulty. However, due to the difficulties in implantable acoustic sensor technology, such as minimization of masticatory sound and damage of sensor's membrane from external impact, practical use of fully implantable hearing aids have not successful so far. In this paper, we have proposed a novel implantable acoustic sensor which has trans-tympanic structure, and is verified that the proposed method can be very useful for fully implantable hearing aids by cadaveric experiments.

Design and Fabrication of an Implantable Microphone for Reduction of Skin Damping Effect through FEA Simulation (피부에 의한 이득 감쇠를 줄이기 위한 FEA 시뮬레이션 기반의 이식형 마이크로폰 설계 및 구현)

  • Han, Ji-Hun;Kim, Min-Woo;Kim, Dong-Wook;Seong, Ki-Woong;Cho, Sung-Mok;Park, Il-Yong;Cho, Jin-Ho
    • Journal of Biomedical Engineering Research
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    • v.29 no.1
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    • pp.59-65
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    • 2008
  • Nowadays, implantable hearing aids have been developed to solve the problems of conventional hearing aids. In case of fully implantable hearing aids, an implantable microphone is necessary to receive sound signal beneath the skin. Normally, an implantable microphone has poor frequency response characteristics in high frequency bands of acoustic signal due to the high frequency attenuation effect of skin after implantation to human body. In this paper, the implantable microphone is designed to reduce the high frequency attenuation effect of a skin by putting its resonance frequency at the attenuated range through a finite element analysis (FEA) simulation. The designed implantable microphone through the simulated results has been fabricated by manufacturing process using bio-compatible materials. By the several in-vitro experiments with pig skin, it has been verified that the designed implantable microphone has a resonance frequency around the starting part of the attenuated range and reduces the attenuation effect.

Wearable and Implantable Sensors for Cardiovascular Monitoring: A Review

  • Jazba Asad;Jawwad Ibrahim
    • International Journal of Computer Science & Network Security
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    • v.23 no.7
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    • pp.171-185
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    • 2023
  • The cardiovascular syndrome is the dominant reason for death and the number of deaths due to this syndrome has greatly increased recently. Regular cardiac monitoring is crucial in controlling heart parameters, particularly for initial examination and precautions. The quantity of cardiac patients is rising each day and it would increase the load of work for doctors/nurses in handling the patients' situation. Hence, it needed a solution that might benefit doctors/nurses in monitoring the improvement of the health condition of patients in real-time and likewise assure decreasing medical treatment expenses. Regular heart monitoring via wireless body area networks (WBANs) including implantable and wearable medical devices is contemplated as a life-changing technique for medical assistance. This article focuses on the latest development in wearable and implantable devices for cardiovascular monitoring. First, we go through the wearable devices for the electrocardiogram (ECG) monitoring. Then, we reviewed the implantable devices for Blood Pressure (BP) monitoring. Subsequently, the evaluation of leading wearable and implantable sensors for heart monitoring mentioned over the previous six years, the current article provides uncertain direction concerning the description of diagnostic effectiveness, thus intending on making discussion in the technical communal to permit aimed at the formation of well-designed techniques. The article is concluded by debating several technical issues in wearable and implantable technology and their possible potential solutions for conquering these challenges.

Design of Signal Processing Circuit for Semi-implantable Middle Ear Hearing Device with Bellows Transducer (벨로즈형 진동체를 갖는 반이식형 인공중이용 신호처리회로 설계)

  • Kim, Jong Hoon;Shin, Dong Ho;Seong, Ki Woong;Cho, Jin-Ho
    • Journal of rehabilitation welfare engineering & assistive technology
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    • v.11 no.1
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    • pp.63-71
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    • 2017
  • In this paper, a signal processing circuit for semi-implantable middle ear hearing device is designed using the TCBT which is recently proposed for a new middle ear transducer that can be implanted at round window of cochlea. The designed semi-implantable hearing device transmits digital sound signal from external device located at behind the ear to the internal device implanted under the skin using inductive coupling link methods with high efficiency. The coils and signal processing circuits are designed and implemented considering the total transmission and reception distance including skin thickness of temporal bone for the semi-implantable hearing device. And also, to improve the data transmission efficiency, the output circuits which can supply sufficient signal power is designed. In order to confirm operation of semi-implantable hearing device using inductive coupling link, the circuit analysis was performed using PSpice, and the performance was verified by implementing a signal processing board of an available size.

Active Implantable Device Technology Trend: BCI Application Focus (능동형 임플란터블 디바이스 기술동향: BCI 응용 중심)

  • Lee, S.Q.;Byun, C.W.;Kim, Y.G.;Park, H.I.
    • Electronics and Telecommunications Trends
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    • v.32 no.6
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    • pp.27-39
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    • 2017
  • A variety of medical devices are utilized to repair or help injured body functions after accidental injury(such as a traffic accident), population aging, or disease. Such medical devices are being actively researched and developed in portable form, skin patchable type, and further, implantable form. In the future, active implantable medical devices for neuro and brain sciences are expected to be developed. Active implantable medical devices that detect brain signals and control neurology for a wider understanding of human cognition and nerve functions, and for an understanding and treatment of various diseases, are being actively pursued for future use. In this paper, the core elements of implantable devices that can be applied to neuro and brain sciences are classified into electrode technologies for bio-signal acquisition and stimulation, analog/digital circuit technologies for signal processing, human body communication technologies, wireless power transmission technologies for continuous device use, and device integration technologies to integrate them. In each chapter, the latest technology development trends for each detailed technology field are reviewed.

Manufacture of Custom IC and System for Multi-channel Biotelemeter (다채널 바이오텔레미터 개발을 위한 전용 IC 및 시스템 제작)

  • 서희돈;박종대
    • Journal of the Korean Institute of Telematics and Electronics B
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    • v.31B no.8
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    • pp.172-180
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    • 1994
  • Implantable biotelemetry systems are indispensable tools not only in animal research but also in clinical medicine as such systems enable the acquisition of otherwise unavailable physiological data. We present the manufacture of CMOS IC and its system for implantable multichannel biotelemeter system. The internal circuits of this system are designed not only to achieve as multiple functions and low power dissipation as possible but also to enable continuous measurement of physiological data. Its main functions are to enable continuous measurement of physiological data and to accomplish on-off power swiching of an implantable battery by receiving appropriate commanc signals from an external circuit. The implantable circuits of this system are designed and fabricated on a single silicon chip using $1.5\mu$m n-well CMOS process technology. The total power dissipation of implantable circuits for a continuous operation was 6.7mW and for a stand-by operation was 15.2$\mu$ W. This system used together with approriate sensors is expected to contribute to clinical medicine telemetry system of measuring and wireless transmitting such significant physiological parameters as pressure pH and temperature.

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A Case Report of the Patient Implanted with Automatic Implantable Cardioverter Defibrillator (AICD) Subject to 3rd Molar Extraction using Target Controlled Infusion of Propofol and Remifentanil -A Case Report- (Automatic Implantable Cardioverter Defibrillator (AICD)를 삽입한 환자에서 프로포폴, 레미펜타닐을 이용한 진정요법 하 제3대구치 발치 -증례보고-)

  • Shin, Teo-Jeon;Seo, Kwang-Suk;Kim, Hyun-Jeong
    • Journal of The Korean Dental Society of Anesthesiology
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    • v.9 no.2
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    • pp.116-118
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    • 2009
  • The automatic implantable cardioverter defibrillator (AICD) has been widely used to treat recurrent malignant ventricular arrhythmia. Here, we case report 18 yr old patients implanted with Automatic implantable cardioverter defibrillator (AICD) who underwent surgical extraction under intravenous sedation and discuss the anesthetic implications for surgery.

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Design of Vibrating Transducer for Implantable Middle Ear Hearing Aid (이식형 중이 청각보조기를 위한 진동 트랜스듀서의 설계)

  • 박형욱
    • Journal of Biomedical Engineering Research
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    • v.17 no.4
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    • pp.535-544
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    • 1996
  • In this paper, we analyzed the coil-magnet type vibrating transducer for the implantable middle ear hearing aid which is appropriate for patient's hearing level, and an experimental transducer system is designed For the objective and quantitative analysis of the transducer, a theoretical equivalent model containing coil, magneto and inner ear is developed To perform effective evaluation of the transducer, a transforming ratio Tr is introduced and its range that is suitable for practical implantable middle ear hearing device is foun4 The result of applying physical parameters of ear system to the proposed analytical model shows that frequency response of the coil magrlet type vibrator is predominantly governed by resistive impedance of the coil rather than inertia effect of the magnet and the inner parameters. In addition, we realized an experimental middle ear hearing aid system to show the theoretical validity of designed system and this will provide the basis of the development for actually implantable system.

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A Comparative Study on the Regulations on Implantable Bioabsorbable Combination Products -Focusing on the U.S., Europe and Korea- (이식형 흡수성 융복합 의료제품 규제 비교 연구 -미국, 유럽, 한국을 중심으로-)

  • Hyeon Jeong Lee;Mi Hye Kim;Ju Eun Seol;Su Dong Kim;Joo Hee Kim
    • Journal of Biomedical Engineering Research
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    • v.44 no.6
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    • pp.414-427
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    • 2023
  • Implantable bioabsorbable combination products undergo inherent degradation and systemic absorption within the physiological environment, thereby streamlining the therapeutic regimen and obviating the imperative for invasive extraction procedures. This inherent property not only enhances patient convenience and therapeutic efficacy but also underpins a paradigm of support characterized by heightened safety parameters. Within the regulatory landscapes of Korea, the United States, and Europe, implantable bioabsorbable combination products are meticulously classified into distinct categories, either as pharmaceutical implants or as implantable medical devices, depending on their primary mode of action. This scholarly investigation systematically examines the regulatory frameworks governing implantable bioabsorbable combination products in South Korea, the United States, and Europe. Notable discrepancies across national jurisdictions emerge concerning regulatory specifics, including terminology, product classification, and product name associated with these products. The conspicuous absence of standardized approval regulations presents a formidable barrier to the commercialization of these advanced medical devices. This academic discourse passionately emphasizes the critical need for formulating and implementing a sophisticated regulatory framework capable of streamlining the product approval process, thereby paving the way for a seamless path to commercializing implantable bioabsorbable combination products.

An Adaptive Feedback Canceller for Fully Implantable Hearing Device Using Tympanic Membrane Installed Microphone (고막이식형 마이크로폰을 위한 이식형 인공중이 적응 피드백 제거기 구현)

  • Kim, Tae Yun;Kim, Myoung Nam;Cho, Jin-Ho
    • Journal of Korea Multimedia Society
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    • v.19 no.2
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    • pp.189-199
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    • 2016
  • Many implantable hearing aids are being developed as alternatives to conventional hearing aids which has inconveniences for use and social stigma that make hearing-impaired people avoid to wear it. Particularly, the fully-implantable middle ear hearing devices (F-IMEHD) are being actively studied for mixed or sensorineural hearing impaired people. In development of F-IMEHD, the most difficult problem is improving the performance of implantable microphone. Recently, Cho et al. have studied the tympanic membrane installed microphone which has better sensitivity and is easier to operate on patient than the microphone implanted under the skin. But, it may cause howling problem due to the feedback signal via oval window and ossicle chain from the transducer on round window in the middle ear cavity, therefore, a feedback canceller is necessary. In this paper, we designed NLMS (normalized least mean square) adaptive feedback canceller for F-IMEHD with tympanic membrane installed microphone and a transducer implemented at round window, and computer simulation was performed to verify its operation. The designed adaptive feedback canceller has a delay filter, a 64 point FIR fixed filter and a 8-tap adaptive FIR filter. Computer simulation of the feedback path is modeled by using the data obtained through human cadaver experiment.