世界复合医学
世界複閤醫學
세계복합의학
World Journal of Complex Medicine
2015年
1期
91-96
,共6页
王群%徐兴华%张家墅%孙国臣%陈晓雷%许百男
王群%徐興華%張傢墅%孫國臣%陳曉雷%許百男
왕군%서흥화%장가서%손국신%진효뢰%허백남
正电子发射断层显像(PET)%神经导航%融合影像%活组织检查%神经胶质瘤
正電子髮射斷層顯像(PET)%神經導航%融閤影像%活組織檢查%神經膠質瘤
정전자발사단층현상(PET)%신경도항%융합영상%활조직검사%신경효질류
Position emission tomography,PET%Neuronavigation%Fusion image%Biopsy%Glioma
正电子发射断层显像(PET)代谢影像可以全面反映肿瘤组织的代谢状态,尤其对常规影像学难以确定恶性程度和范围的胶质瘤优势明显。而PET代谢影像与常规影像融合后形成的PET代谢融合影像神经导航技术,有效地结合了代谢影像学和结构影像学的优点。本文介绍了将PET代谢影像与常规影像融合的方法。并且简述PET各类示踪剂的代谢影像特点以及在指导胶质瘤手术中的应用现状。分析了PET代谢融合影像神经导航技术在胶质瘤穿刺活检与手术切除的相对优势。最终得出PET代谢融合影像神经导航技术在指导胶质瘤手术中发挥着巨大优势,极大推动了精准神经外科的发展。
正電子髮射斷層顯像(PET)代謝影像可以全麵反映腫瘤組織的代謝狀態,尤其對常規影像學難以確定噁性程度和範圍的膠質瘤優勢明顯。而PET代謝影像與常規影像融閤後形成的PET代謝融閤影像神經導航技術,有效地結閤瞭代謝影像學和結構影像學的優點。本文介紹瞭將PET代謝影像與常規影像融閤的方法。併且簡述PET各類示蹤劑的代謝影像特點以及在指導膠質瘤手術中的應用現狀。分析瞭PET代謝融閤影像神經導航技術在膠質瘤穿刺活檢與手術切除的相對優勢。最終得齣PET代謝融閤影像神經導航技術在指導膠質瘤手術中髮揮著巨大優勢,極大推動瞭精準神經外科的髮展。
정전자발사단층현상(PET)대사영상가이전면반영종류조직적대사상태,우기대상규영상학난이학정악성정도화범위적효질류우세명현。이PET대사영상여상규영상융합후형성적PET대사융합영상신경도항기술,유효지결합료대사영상학화결구영상학적우점。본문개소료장PET대사영상여상규영상융합적방법。병차간술PET각류시종제적대사영상특점이급재지도효질류수술중적응용현상。분석료PET대사융합영상신경도항기술재효질류천자활검여수술절제적상대우세。최종득출PET대사융합영상신경도항기술재지도효질류수술중발휘착거대우세,겁대추동료정준신경외과적발전。
Positron emission tomography (PET) metabolism images can fully relfect the metabolic status of tumor tissue and have obvious advantages of determining the extent and degree of glioma which is dififcultly to deifned by conventional imaging .The neuronavigation integrating PET metabolism images which is formed after the integration of PET images into conventional images combines the advantages of metabolic imaging and structural imaging effectively. This article describes the fusion technique integrating PET images into conventional images, and provides a brief introduction of features and application status of various types of PET tracers in guiding glioma surgery. In this review we analyzed the comparative advantages of the neuronavigation integrating PET metabolism images in glioma biopsy and surgical resection. And we concluded PET metabolic fusion imaging neuronavigation guidance plays a huge advantage in glioma surgery, and greatly promoted the development of precision neurosurgery.