• Title/Summary/Keyword: Medical Device Integration

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Implementation of Medical Device Integration Module for Integrated Patient Monitoring System

  • Park, Myeong-Chul;Jung, Hyon-Chel;Choi, Duk-Kyu
    • Journal of the Korea Society of Computer and Information
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    • v.22 no.6
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    • pp.79-86
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    • 2017
  • In this paper, we implement a common module that can integrate multiple biometric information for integrated patient monitoring system. Conventional biomedical instruments have many devices attached to each patient, making it difficult to monitor abnormality signs of many patients in real time. In this paper, we propose a module for an integrated monitoring system that can perform centralized monitoring using a common module that integrates multiple measurement devices. A protocol for sending and receiving packets between the measuring device and the common module is designed, and the packets transmitted through the network are stored and managed through the integrated monitoring system and provide information to various users such as medical staff. The results of this study are expected to contribute to the management of patients and efficient medical services in hospitals.

A Safety Process Guideline of Medical Device System Based on STPA (STPA를 적용한 의료기기 시스템의 안전성 프로세스 가이드라인)

  • Choi, Bo-yoon;Lee, Byong-gul
    • Journal of Internet Computing and Services
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    • v.22 no.6
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    • pp.59-69
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    • 2021
  • Malfunctions and failures linked to medical devices may result in significant damage for human being. Thus, in order to ensure that safety of medical device is achieved, it should be established and applied the international standard. It is required to integrate and customize activities at standards, owing to reference relationship between standards, especially, activities based safety analysis is too expensive. This paper proposes a integration process that integrate activities of development lifecycle and safety process. Additionally, we derived a guidance based on STPA for integration process. As a result, we can be performed systematically from early stage of the development and increased effectiveness of integration process by the guidance.

Study on Reliability Assessment for the Medical Device Software from the Viewpoint of Functional Safety (기능 안전 관점에서의 의료기기 소프트웨어 신뢰성 평가 방법에 관한 연구)

  • Kim, Sung Min;Ko, Byeonggak;Do, Gyeong-Hun;Kim, Hye Jin;Ham, Jung-Keol
    • Journal of Applied Reliability
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    • v.16 no.3
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    • pp.216-223
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    • 2016
  • Purpose: This paper suggests the procedure to enhance the reliability of the software of the medical device that is to cure, treat, diagnose, and prevent a disease or an abnormal health conditions. Methods: After test requirements are classified by the software requirements specification for safety and backgrounds, reliability assessment methods are suggested. Results: Verification and validation for function and safety can be performed whether the medical device software are implemented as intended. Conclusion: Procedure on the static analysis, unit test, integration test, and system test are provided for the medical device software.

Point-of-care Testing Device Interface in Hospital Information System Standard Connectivity - Using of case ASTM protocol of ABGA application POCT1-A2 - (현장형 임상검사장비와 병원정보시스템의 접속표준 - ASTM protocol을 사용하는 ABGA의 POCT1-A2적용사례 중심으로 -)

  • Kim, Seon-Chil
    • Korean Journal of Digital Imaging in Medicine
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    • v.10 no.2
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    • pp.33-37
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    • 2008
  • To keep the online medical records available to anyone without constraint of time and space, introducing EMR (Electronic medical record), which is a clinical support management system. The purpose of this study is to develop interface standard of clinical test device. Integration and sharing of medical information is faced with enormous obstacles because medical organizations and associated companies are separately developing the interface. I hope that multi-function management system with workstation concept is operated to efficiently transmit clinical device result data based on this study. Transfer of precise medical result data available for decision making will improve quality of health care service.

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Development of Micro-Ceramic Heater for Medical Application (의료용 소형 세라믹스 히터 소자의 개발)

  • Lee, Seung-Min;Lee, Kwang-Ho
    • Journal of Biomedical Engineering Research
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    • v.43 no.4
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    • pp.219-229
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    • 2022
  • In this study, we propose a miniaturized micro-ceramic heater device. After screen-printing a silver paste between pre-sintered two aluminum oxide plates to integrate a heating circuit, the device was fabricated through a low-temperature sintering process. In order to configure the optimal heating circuit integration condition, the output current evaluation and heating test were performed according to the number of screen prints of the silver paste at various voltages. A silver paste-based heating circuit printed with a line width of 200 ㎛ and a thickness of 60 ㎛ was successfully integrated on a pre-sintered alumina substrate through a low-temperature sintering process. In the case of the 5 times printed device, the thermal response showed a response rate of 18.19 ℃/sec. To demonstrate feasibility of the proposed device in the medical field, such as bio-tissue suturing and hemostasis, a voltage was applied to pig tissue in the device to test tissue change due to heat generated from the device. These results show the possibility that the proposed small ceramic heater could be used in the medical field based on its excellent temperature response.

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.

Pattern-based Design and Safety Analysis for Networked Supervisory Medical Systems (네트워크 통합형 의료기기를 위한 안전한 상호작용 패턴과 구조적 안전성 검사)

  • Kang, Woochul
    • KIISE Transactions on Computing Practices
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    • v.20 no.10
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    • pp.561-566
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    • 2014
  • There are growing demands for improving the patient safety and the effectiveness of medical services through device connectivity and interoperability. However, integration through networking might greatly increase the complexity of the system if it is not properly designed, jeopardizing patient safety. In this paper, we codify safe medical device interaction patterns, and exploit them for the low complexity design and safety analysis of networked supervisory medical systems. We implement the proposed approach as a plug-in of Architecture Analysis and Description Language (AADL). Our implementation enables the modeling and safety analysis of medical devices and their interactions before actual development.

Magnetic Resonance Imaging Meets Fiber Optics: a Brief Investigation of Multimodal Studies on Fiber Optics-Based Diagnostic / Therapeutic Techniques and Magnetic Resonance Imaging

  • Choi, Jong-ryul;Oh, Sung Suk
    • Investigative Magnetic Resonance Imaging
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    • v.25 no.4
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    • pp.218-228
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    • 2021
  • Due to their high degree of freedom to transfer and acquire light, fiber optics can be used in the presence of strong magnetic fields. Hence, optical sensing and imaging based on fiber optics can be integrated with magnetic resonance imaging (MRI) diagnostic systems to acquire valuable information on biological tissues and organs based on a magnetic field. In this article, we explored the combination of MRI and optical sensing/imaging techniques by classifying them into the following topics: 1) functional near-infrared spectroscopy with functional MRI for brain studies and brain disease diagnoses, 2) integration of fiber-optic molecular imaging and optogenetic stimulation with MRI, and 3) optical therapeutic applications with an MRI guidance system. Through these investigations, we believe that a combination of MRI and optical sensing/imaging techniques can be employed as both research methods for multidisciplinary studies and clinical diagnostic/therapeutic devices.

Skin-interfaced Wearable Biosensors: A Mini-Review

  • Kim, Taehwan;Park, Inkyu
    • Journal of Sensor Science and Technology
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    • v.31 no.2
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    • pp.71-78
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    • 2022
  • Wearable devices have the potential to revolutionize future medical diagnostics and personal healthcare. The integration of biosensors into scalable form factors allow continuous and noninvasive monitoring of key biomarkers and various physiological indicators. However, conventional wearable devices have critical limitations owing to their rigid and obtrusive interfaces. Recent developments in functional biocompatible materials, micro/nanofabrication methods, multimodal sensor mechanisms, and device integration technologies have provided the foundation for novel skin-interfaced bioelectronics for advanced and user-friendly wearable devices. Nonetheless, it is a great challenge to satisfy a wide range of design parameters in fabricating an authentic skin-interfaced device while maintaining its edge over conventional devices. This review highlights recent advances in skin-compatible materials, biosensor performance, and energy-harvesting methods that shed light on the future of wearable devices for digital health and personalized medicine.