• Title/Summary/Keyword: Micro Active Endoscope

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Development of Intravascular Micro Active Endoscope(II) -System Design, Fabrication and In-vitro Evaluation- (혈관 삽입용 초소형 작동형 내시경의 개발(II) - 시스템 설계, 제작 및 체외 성능 분석 -)

  • Chang, Jun-Keun;Chung, Seok;Lee, Yong-Ku
    • Tribology and Lubricants
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    • v.15 no.3
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    • pp.278-286
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    • 1999
  • To predict the behavior of the intravascular micro active endoscope in the real human vascular system, a human mock circulation system was developed. The intravascular micro active endoscope which consists of micro active bending catheter and micro drug infusion catheter was driven in the velocity, Re number and temperature controlled flow. The three SMA (Shape Memory Alloy) zigzag type spring in the micro active bending catheter was heated by the electric current generated by PWM controller, and the shape memory effect made the actuator bend to any direction. The micro drug infusion catheter was driven through the inner hole of the micro active bending catheter. A mock circulation system is shaped from Ascending Arota to Femoral artery according to a human data (the data contains many vascular sizes and hydrographs of many control points). We developed a vascular model with glass and silicone tubes, and set the flow system with circulation parts, flow settling parts, and lots of valves. The heater and heat-controller was added to the How system to centre! the temperature of the How at 36.5$^{\circ}C$. The result showed that the developed intravascular micro active endoscope could be induced to any point in the vascular model.

The Development of Micro Wiring System for Micro Active Endoscope (박막 공정을 이용한 초소형 내시경의 MicroWiring System의 개발)

  • Jung, Seok;Chang, Jun-Keun;Han, Dong-Chul
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1997.04a
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    • pp.362-365
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    • 1997
  • In the field of Micro-Mechanics, it has been known diffcult to integrate the micro-machine with sensor and source line for the conventional copper line cnanot be used in compact and small size. We developed a system to make thethin copper film as a connect line on the poyurethane pipe (2mm in diameter) by the evaporation technique. This system consists of an evaporation chamber two long branches, substrate hoider and a Linear-Rotary motion feed feedthrough. The results showed that thin copper film coated polyurethanc pipe could be applied th the small medical devices such as the micro active endoscope.

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Development of Intravascular Micro Active Endoscope(I) -Analysis of Lubrication Characteristics of Small Arteries with Micro Catheter Insertion- (혈관 삽입형 초소형 작동형 내시경의 개발(I) - 도뇨관 삽입시 혈관 내부의 윤활 특성 분석 -)

  • 장준근;김중경
    • Tribology and Lubricants
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    • v.15 no.3
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    • pp.272-277
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    • 1999
  • The objective of this investigation is to examine the influence of the micro catheters, which mimic the intravascular micro active endoscopes, on local pressure changes and flow rate in an arterial branch model similar to the femoral artery of human. The effects of branch to main lumen flow rate ratios and the locations of a catheter tip were found to be significant on the local pressure changes. Relatively large pressure drops and an increase in shear stress due to the obstruction effects may induce an endothelial cell damage and a change in arterial wall permeability, which have been reported to be the primary cause of the initiation of the atherosclerosis and other major vascular diseases.

Design and Development of Sputter-evaporation System for Micro-wiring on Medical Catheter (의료용 도뇨관 표면의 도선용 구리 박막 증착을 위한 스퍼터링-열증착 연속공정장비의 설계 및 개발)

  • Chang, Jun-Keun;Chung, Seok
    • Journal of the Korean Society for Precision Engineering
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    • v.16 no.3 s.96
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    • pp.62-71
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    • 1999
  • Integrating micro-machined sensors and actuators on the conventional devices with the copper power lines was incompatible to fabricate the mass produced micro electromechanical system (MEMS) devices. To achieve the compatibility of the wiring method between MEMS parts and devices, we developed the three-dimensional sputter-evaporation system that coats micropatterned thin copper films on the surface of the MEMS element. The system consists of a process chamber, two branch chambers, the substrate holder, and a linear-rotary motion feedthrough. Thin copper film was sputtered and evaporated on the biocompatible polymer, Pellethane$^{circed{R}}$ and silicone, catheter that is 2 mm in diameter and 700 mm in length. The metal film coating technique with three-dimensional thin film sputter-evaporation system was developed to apply the power and signal lines on the micro active endoscope. In this paper, we developed the three-dimensional metal film sputter-evaporation system operated on the low temperature for the biopolymeric substrates used in the medical MEMS devices.

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