国际脑血管病杂志
國際腦血管病雜誌
국제뇌혈관병잡지
INTERNATIONAL JOURNAL OF CEREBROVASCULAR DISEASES
2014年
2期
116-121
,共6页
卒中%脑缺血%分子成像%磁共振成像%正电子发射体层摄影术%体层摄影术,发射型计算机,单光子%电子自旋共振谱%磁共振波谱学
卒中%腦缺血%分子成像%磁共振成像%正電子髮射體層攝影術%體層攝影術,髮射型計算機,單光子%電子自鏇共振譜%磁共振波譜學
졸중%뇌결혈%분자성상%자공진성상%정전자발사체층섭영술%체층섭영술,발사형계산궤,단광자%전자자선공진보%자공진파보학
Stroke%Brain Ischemia%Molecular Imaging%Magnetic Resonance Imaging%Positron-Emission Tomography%Tomography,Emission-Computed,Single-Photon%Electron Spin Resonance Spectroscopy%Magnetic Resonance Spectroscopy
分子影像学在缺血性卒中神经影像学领域发展较快,许多研究已显示了其在缺血性卒中脑血流监测和脑组织代谢测定方面的价值.缺血半暗带是急性缺血性卒中再灌注治疗的基础,以磁共振灌注加权成像/弥散加权成像不匹配为代表的成像方法因快速、可用性强,被广泛用于反映缺血半暗带,但仅能反映半暗带组织的血流情况;相比之下,分子影像学技术能在活体内对细胞和分子水平的生物学过程进行描述和测量,因而可从组织代谢角度更加准确地反映半暗带组织.
分子影像學在缺血性卒中神經影像學領域髮展較快,許多研究已顯示瞭其在缺血性卒中腦血流鑑測和腦組織代謝測定方麵的價值.缺血半暗帶是急性缺血性卒中再灌註治療的基礎,以磁共振灌註加權成像/瀰散加權成像不匹配為代錶的成像方法因快速、可用性彊,被廣汎用于反映缺血半暗帶,但僅能反映半暗帶組織的血流情況;相比之下,分子影像學技術能在活體內對細胞和分子水平的生物學過程進行描述和測量,因而可從組織代謝角度更加準確地反映半暗帶組織.
분자영상학재결혈성졸중신경영상학영역발전교쾌,허다연구이현시료기재결혈성졸중뇌혈류감측화뇌조직대사측정방면적개치.결혈반암대시급성결혈성졸중재관주치료적기출,이자공진관주가권성상/미산가권성상불필배위대표적성상방법인쾌속、가용성강,피엄범용우반영결혈반암대,단부능반영반암대조직적혈류정황;상비지하,분자영상학기술능재활체내대세포화분자수평적생물학과정진행묘술화측량,인이가종조직대사각도경가준학지반영반암대조직.
Molecular imaging develops faster in the field of neuroimaging of ischemic stroke.Many studies have shown that its values in the aspects of cerebral blood flow monitoring during ischemic stroke and brain tissue metabolism.Ischemic penumbra is the basis of reperfusion therapy for acute ischemic stroke.The imaging methods,including magnetic resonance perfusion-weighted imaging/diffusion-weighted imaging mismatch,have been widely used to reveal ischemic penumbra because of their fast and strong availability.However,they can only reveal the blood flow of penumbra tissue.By contrast,molecular imaging technology can describe and measure the in vivo biological processes on the cellular and molecular levels,thus it can more accurately reveal the penumbral tissue.