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      뇌 대사물질 팬텀을 이용한 뇌의 자기공명 온도측정법에 관한 기초 연구 = Preliminary Study on Magnetic Resonance Temperature Measurement using Brain-Metabolite Phantom

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      https://www.riss.kr/link?id=A101119766

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      다국어 초록 (Multilingual Abstract)

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      In this study, we measured the chemical shift change of metabolite peaks in the brain-metabolite phantom according to the temperature variation using nuclear magnetic resonance(NMR). The temperature range in NMR system was controled from 25 to 80 (5 step) by internal temperature controller. Temperature coefficients of each metabolite peaks were also calculated from the measured chemical shift depending on the temperature. The chemical shift changes depending on temperature were validated by linear regression method for each metabolite peaks. The temperature coefficients of $_{tot}Cr$, Cho, Cr, NAA, and Lac were 0.0086, 0.0088, 0.0091, 0.0089, and 0.0088ppm/$^{\circ}C$, respectively. This study shows that chemical shift change of brain metabolite and temperature variation have linear relationship each other. This also makes authors believe that brain temperature measurement is possible using MR spectroscopic imaging technique.
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      In this study, we measured the chemical shift change of metabolite peaks in the brain-metabolite phantom according to the temperature variation using nuclear magnetic resonance(NMR). The temperature range in NMR system was controled from 25 to 80 (5 s...

      In this study, we measured the chemical shift change of metabolite peaks in the brain-metabolite phantom according to the temperature variation using nuclear magnetic resonance(NMR). The temperature range in NMR system was controled from 25 to 80 (5 step) by internal temperature controller. Temperature coefficients of each metabolite peaks were also calculated from the measured chemical shift depending on the temperature. The chemical shift changes depending on temperature were validated by linear regression method for each metabolite peaks. The temperature coefficients of $_{tot}Cr$, Cho, Cr, NAA, and Lac were 0.0086, 0.0088, 0.0091, 0.0089, and 0.0088ppm/$^{\circ}C$, respectively. This study shows that chemical shift change of brain metabolite and temperature variation have linear relationship each other. This also makes authors believe that brain temperature measurement is possible using MR spectroscopic imaging technique.

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      참고문헌 (Reference)

      1 우동철, "자기공명분광법에서 TE와 Voxel 내의 대사물질 양에 따른 스펙트럼 변화 평가에 관한 연구" 한국의학물리학회 18 (18): 179-185, 2007

      2 白文煐, "단위용적 및 다용적 기법 자기공명분광 신호처리 분석 소프트웨어의 개발" 대한전자공학회 39 (39): 68-79, 2002

      3 우동철, "개의 뇌 조직로부터 추출한 대사물질의 절대농도 측정 및 평가: 500 MHz 고자장 핵자기공명분광법을 이용한 예비연구결과" 대한자기공명의과학회 12 (12): 100-106, 2008

      4 Corbett RJ, "Validation of a noninvasive method to measure brain temperature in vivo using 1H NMR spectroscopy" 64 : 1224-1230, 1995

      5 Castillo J, "Timing for fever-related brain damage in acute ischemic stroke" 29 : 2455-2460, 1998

      6 Olsen TS, "Therapeutic hypothermia for acute stroke" 2 : 410-416, 2003

      7 Cady EB, "The estimation of local brain temperature by in vivo 1H magnetic resonance spectroscopy" 33 : 862-867, 1995

      8 Kuroda K, "Temperature mapping using the water proton chemical shift: a chemical shift selective phase mapping (CSSPM) method" 38 : 845-851, 1997

      9 K. Kuroda, "Temperature Mapping Using the Water Proton Chemical Shift: Self-Referenced Method With Echo-Planar Spectroscopic Imaging" 43 : 220-225, 2000

      10 Germain D, "Saint-Jalmes H. MR monitoring of tumour thermal therapy" 13 : 47-59, 2001

      1 우동철, "자기공명분광법에서 TE와 Voxel 내의 대사물질 양에 따른 스펙트럼 변화 평가에 관한 연구" 한국의학물리학회 18 (18): 179-185, 2007

      2 白文煐, "단위용적 및 다용적 기법 자기공명분광 신호처리 분석 소프트웨어의 개발" 대한전자공학회 39 (39): 68-79, 2002

      3 우동철, "개의 뇌 조직로부터 추출한 대사물질의 절대농도 측정 및 평가: 500 MHz 고자장 핵자기공명분광법을 이용한 예비연구결과" 대한자기공명의과학회 12 (12): 100-106, 2008

      4 Corbett RJ, "Validation of a noninvasive method to measure brain temperature in vivo using 1H NMR spectroscopy" 64 : 1224-1230, 1995

      5 Castillo J, "Timing for fever-related brain damage in acute ischemic stroke" 29 : 2455-2460, 1998

      6 Olsen TS, "Therapeutic hypothermia for acute stroke" 2 : 410-416, 2003

      7 Cady EB, "The estimation of local brain temperature by in vivo 1H magnetic resonance spectroscopy" 33 : 862-867, 1995

      8 Kuroda K, "Temperature mapping using the water proton chemical shift: a chemical shift selective phase mapping (CSSPM) method" 38 : 845-851, 1997

      9 K. Kuroda, "Temperature Mapping Using the Water Proton Chemical Shift: Self-Referenced Method With Echo-Planar Spectroscopic Imaging" 43 : 220-225, 2000

      10 Germain D, "Saint-Jalmes H. MR monitoring of tumour thermal therapy" 13 : 47-59, 2001

      11 N.Mcdannold, "Quantitative MRI-based temperature mapping based on the proton resonant frequency shift:Review of validation studies" 21 (21): 533-546, 2005

      12 Poorter JDE, "Non-invasive MRI thermometry with the proton resonance frequency shift (PRF) method: In vivo results in human muscle" 33 : 74-81, 1995

      13 Kettenbach J, "Monitoring and visualization technique for MR-guided laser ablation in an open MR system" 8 : 933-943, 1998

      14 Ian Marshall, "Measurement of regional brain temperature using proton spectroscopic imaging: validation and application to acute ischemic stroke" 24 : 699-706, 2009

      15 Carter DL, "Magnetic resonance thermometry during hyperthermia for human high-grade sarcoma" 40 : 815-822, 1998

      16 Denis de Senneville B, "Magnetic resonance temperature imaging" 21 : 515-531, 2005

      17 Moriaty JA, "Kucharczyk W. MRI monitoring of interstitial microwave-induced heating and thermal lesions in rabbit brain in vivo" 8 : 128-135, 1998

      18 Stollberger R, "Influence of the temperature dependent susceptibility on monitoring of interstitial tissue coagulation using the proton resonance frequency method" 1963-, 1997

      19 Kahn T, "In vivo MRI thermometry using a phase-sensitive sequence: preliminary experience during MRI-guided laser-induced interstitial thermotherapy of brain tumors" 8 : 160-164, 1998

      20 de Zwart JA, "Fast lipid suppressed temperature mapping for the monitoring of focused ultrasound heated tissue" 350-, 1998

      21 Daiya Ishigaki, "Brain Temperature Measured Using Proton MR Spectroscopy Detects Cerebral Hemodynamic Impairment in Patients With Unilateral Chronic Major Cerebral Artery Steno-Occlusive Disease Comparison With Positron Emission Tomography" 40 : 3012-3016, 2009

      22 Reith J, "Body temperature in acute stroke: relation to stroke severity, infarct size, mortality, and outcome" 347 : 422-425, 1996

      23 Young IR, "An evaluation of the effects of susceptibility change on water chemical shift method of temperature measurement in human peripheral muscle" 36 : 366-374, 1996

      24 Ishihara Y, "A precise and fast temperature mapping method using water proton chemical shift" 4803-, 1992

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      2027 평가예정 재인증평가 신청대상 (재인증)
      2021-01-01 평가 등재학술지 유지 (재인증) KCI등재
      2018-01-01 평가 등재학술지 선정 (계속평가) KCI등재
      2017-12-01 평가 등재후보로 하락 (계속평가) KCI등재후보
      2013-01-01 평가 등재 1차 FAIL (등재유지) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-10-06 학술지명변경 외국어명 : 미등록 -> Joural of Biomedical Engineering Research KCI등재
      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2004-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-01-01 평가 등재후보학술지 유지 (등재후보1차) KCI등재후보
      2002-01-01 평가 등재후보학술지 유지 (등재후보1차) KCI등재후보
      1999-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.08 0.08 0.12
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.11 0.09 0.307 0.04
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