• Title/Summary/Keyword: 뇌척수액 흐름

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MR Imaging of Slow-flow Using a Flow Phantom (유동모형을 이용한 저속유동의 자기공명영상)

  • Dae-Cheol Cheong;Kyung-Jae Jung;Young-Hwan Lee;Nak-Kwan Sung;Duck-Soo Chung;Ok-Dong Kim;Jong-Ki Kim
    • Investigative Magnetic Resonance Imaging
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    • v.5 no.2
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    • pp.116-122
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    • 2001
  • Purpose : To find sensitivity of MRI imaging methods to slow flow phantom study was performed with conventional Spin-Echo, gradient echo based Phase Contrast, fast GRASS, and heavily T2-weighted Fast Spin Echo pulse sequences. Materials and Methods : A siphon driven flow phantom was constructed with a ventriculo-peritoneal shunt catheter and a GE phantom to achieve continuous variable flow. Four different pulse sequences including Spin-Echo, Phase Contrast, GRASS and Heavily T2-weighted Fast Spin Echo were evaluated to depict slow flow in the range from 0.08 ml/min to 1.7 ml/min and to compare signal intensities between static fluid and flowing fluid. Results : In the slow flow above 0.17 ml/min conventional Spin-Echo showed superior apparent contrast between static and flowing fluid while GRASS was more sensitive to the very slow flow below 0.17 ml/mim. It was not accurate to calculate flow and velocity below 0.1 ml/min with a modified PC imaging. Conclusion : Four different MR pulse sequences demonstrated different sensitivity to the range of slow flow from 0.08 ml/min to 1.7 ml/min. This finding may be clinically useful to measure CSF shunt flow or detecting CSF collection and thrombosis.

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Insight Into the Potential Role of the Spine in Relation to the Immune System (면역체계와 연관된 척추의 잠재적 역할에 대한 통찰)

  • Il-Young, Cho;Hyun-Seok, Choi
    • Journal of Industrial Convergence
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    • v.21 no.2
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    • pp.85-92
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    • 2023
  • Abnormal spinal disease and function, in addition to simple musculoskeletal problems, can disrupt homeostasis and cause direct and indirect physiological side effects. Part or all of the immune function can be compromised, exposing you to more disease, especially if the nerves running through your spine do not deliver the proper signals to the organs that regulate your immune system. This study focuses on basic anatomic and physiological knowledge and seeks to consider potential mechanisms by which spinal function may potentially help maintain or improve immune function. To this end, we examine the roles of the spine in relation to hematopoiesis, stress, respiration, spine-nerve relationships, and the immune system, and confirm that these roles may influence immune function.