[1]林曰增.脑放射损伤的影像学研究进展[J].国际放射医学核医学杂志,2000,24(4):148-151.
 LIN Yue-zeng.Progress in imaging of brain radiation injury[J].International Journal of Radiation Medicine and Nuclear Medicine,2000,24(4):148-151.
点击复制

脑放射损伤的影像学研究进展(/HTML)
分享到:

《国际放射医学核医学杂志》[ISSN:1673-4114/CN:12-1381/R]

卷:
24
期数:
2000年第4期
页码:
148-151
栏目:
综述
出版日期:
1900-01-01

文章信息/Info

Title:
Progress in imaging of brain radiation injury
作者:
林曰增
510515 广州, 第一军医大学南方医院影像中心
Author(s):
LIN Yue-zeng
Imaging Diagnostic Center, Nanfang Hospital, the First Military Medical University, Guangzhou 510515, China
关键词:
放射损伤体层摄影术X线计算机磁共振成像磁共振波谱成像正电子发射断层
Keywords:
brainradiation injurytomography X-ray computedmagnetic resonance imagingmagnetic resonance spectroscopypositron emission tomography
分类号:
R818.04
摘要:
脑放射损伤发病机制主要有三种学说即血管损伤、胶质损伤和免疫反应机制,最近多数学者的研究支持血管和胶质损伤机制,血管方面的改变在晚期放射效应中起主要作用。CT和MRI对局限性脑损伤和弥漫性脑白质损伤可明确诊断。MRI的T2加权成像(T2WI)显示水分变化敏感性高,又不受颅底线束硬化伪影的影响,MRI发现白质病变的敏感性是CT的2~3倍。如果是脑本身肿瘤放疗后,CT和MRI区别病灶复发或放射性坏死比较困难,PET和MRS(磁共振波谱成像)在两者鉴别诊断中则初步呈现出一定的优势。行PET检查时,如为肿瘤则代谢活跃,坏死则代谢低下,但敏感性和特异性欠理想。MRS测量感兴趣区内代谢产物的量或比率有助于两者的鉴别诊断。另外,PET功能成像和MRS还可预测放疗病人较早期无症状的可逆性放射损伤,以便及时应用激素等药物治疗,避免其进一步发展为临床症状明显的不可逆性损伤。
Abstract:
The mechanisms of brain radiation injury mainly include three hypotheses: vascular injury, glial cells damage and immune response. Most scholars’ studies have recently supported the former two ones. Vascular in-jury plays a major role in the effect of delayed radiation injury. Focal brain injury and diffuse white matter injury can be definitely diagnosed by CT and MRI. T2-weighted imaging (T2WI) in MRI shows high sensitivity in water contents, and is not affected by the beamhardening arifacts from the cranial base. Compared with CT, the sensitivity of MR for detecting white matter lesions is two to threefold higher. When lesions occrs at the site of an irradiated cerebral tumor, tumor recurrence and focal cerebral necrosis cannot be differentiated by CT or MR, PET and MRS now present a certain advantage of differential diagnosis. Tumoror presents high metabolism and necrosis demonstrates low metabolism by utilizing PET scanning, however PET’s sensitivity and specificity are far from satisfactory. The amount or ratio of metabolic products in the region of interest measured by MRS contributes to the deferential diagnosis. In addition, PET functmnal imaging and MRS can also predict the early asymptomatic reversible radiation injury so as to allow the early therapy of steroids andpossibly other drugs, prior to the development of irreversible changes.

参考文献/References:

[1] Brennan KM, Budinger TF, Higgins RJ, et al. A study of radiation necrosisand edema in the canine brain us-ing positron emission tomography and magnetic reso-nance imaging[J]. Radiat Res, 1993, 134(1):43-54.
[2] Crossen JR, Garwood D, Glatstein E, et al. Neurobe-havior sequelae of cranial irradiation in adults:a re-view of radiationinduced encephalopathy[J]. J Clin Oncol, 1994, 12(3):627-642.
[3] Duffey P, Chari G, Cartlidge NEF. Progressive dete-rioration of intellect and motor function occurring sev-eral decades after cranial irradiation:a new facet in the clinical spectrum of radiation encephalopathy[J]. Arch Neurol, 1996, 53(8):814-818.
[4] Coghlam KM, Magennis P. Cerebral radionecrosis fol-lowing the treatment of parotid tumours:a case report and review of the literature[J]. Int J Oral Maxillofac Surg, 1999, 28(1):5052.
[5] Norris AM, Carrington BM, Slevin N J. Late radiation change in the CNS:MR imaging following gadolinium enhancement[J]. Clin Radiol, 1997, 52(5):336-362.
[6] Russo C, Fischbein N, Grant E, et al. Late radiation ingury following hyperactionated craniospinal ra-dioatherapy for primitive neuroectodermal tumor[J].Int J Radiat Oncol Biol Phys, 1999, 44(1):85-90.
[7] Münter MW, Karger CP, Reith W, et al. Delayed vascular injury after single high-dose irradiation in the rat brain:histologic, immunohistochemical and angio-graphic stuies[J]. Radiology, 1999, 212(2):475-482.
[8] Valk PE, Dillon WP. Radiation injury of the brain[J]. Am J Roentgend, 1991, 12(1):45-62.
[9] Cicciarello R, d’Avella D, Gagliardi M E, et al. Time-related ultrastructural changes in an experimental mode of whole brain irradiation[J]. Neurosurgery,1996, 38(4):772-780.
[10] Yousem DM, Lenkinski RE, Evans S, et al. Pronton MR spectroscopy of experimental radiation-induced white matter injury[J]. J Comput Assist Tomogr,1992, 16(4):543-548.
[11] Kamada K, Houkin K, Abe H, et al. Differentiation of cerebral radiation necrosis from tumor recurrence by proton magnetic resonance spectroscopy[J]. Neurol Med Chir Tokyo, 1997, 37(3):250-256.
[12] Nelson SJ, Huhn S, Vigneron DB, et al. Volume MRI and MRSI techniques for the quantitation of treatment response in brain tumors:presentation of a detailed case study[J]. JMRI, 1997, 7(6):1146-1152.
[13] Tashima T, Morioka T, Nishio S, et al. Delayed cerebral radionecrosis with a high uptake of 11C-me-thionine on positron emission tomogaphy and 201Tl-chloride on single-photon emission computed tomogra-phy[J]. Neuroradiology, 1998, 40(7):435-438.
[14] Sasaki M, Ichiya Y, Kuwabara Y, et al. Hyperperfu-sion and hypermetabolism in brain radiation necrosis with epileptic activity[J]. J Nucl Med, 1996, 37(7):1174-1176.
[15] Sonoda Y, Kumabe T, Takahashi T, et al. Clinicalusefulness of 11C-MET PET and 201Tl SPECT for dif-ferentiation of recurrent glioma from radiation necrosis[J]. Neurol Med Chir Tokyo, 1998, 38(6):342-347.
[16] Ricci PE, Karis JP, Heiserman JE, et al. Differenti-ating recurrent tumor from radiation necrosis:time for re-evaluation of positron emission tomography[J]. A-JNR, 1998, 19(3):407-413.
[17] Fischman AJ, Thornton AF, Prosch MP, et al. FDG hypermetabolism associated widt inflammatory necrot-ic changes following radiation of meningioma[J]. J Nucl Med, 1997, 38(7):1027-1029.

相似文献/References:

[1]邱琳,陈跃,黄占文,等.18F-FDG PET/CT脑显像在新生儿缺血缺氧性脑病诊断及治疗后评估中的临床研究[J].国际放射医学核医学杂志,2015,39(6):452.[doi:10.3760/cma.j.issn.1673-4114.2015.06.004]
 Qiu Lin,Chen Yue,Huang Zhanwen,et al.Clinical research on using 18F-FDG PET/CT brain imaging in the diagnosis of and therapeutic effect evaluation in neonatal hypoxic-ischemic encephalopathy[J].International Journal of Radiation Medicine and Nuclear Medicine,2015,39(4):452.[doi:10.3760/cma.j.issn.1673-4114.2015.06.004]
[2]陈海龙,邵小南,王跃涛.高血糖对脑葡萄糖代谢的影响研究[J].国际放射医学核医学杂志,2014,38(5):293.[doi:10.3760/cma.j.issn.1673-4114.2014.05.004]
 Chen Hai-long,Shao Xiao-nan,Wang Yue-tao.Influence of the high level of blood glucose on the metabolism of brain glucose[J].International Journal of Radiation Medicine and Nuclear Medicine,2014,38(4):293.[doi:10.3760/cma.j.issn.1673-4114.2014.05.004]
[3]苏应瑞,查金顺,周竟雄,等.131Ⅰ治疗甲亢性心脏病患者尿脑钠肽水平变化的研究[J].国际放射医学核医学杂志,2012,36(6):371.[doi:10.3760/cma.j.issn.1673-4114.2012.06.012]
 SU Ying-rui,ZHA Jin-shun,ZHOU Jing-xiong,et al.The dynamic changes of brain natriuretic peptide level in patients with hyperthyroid heart disease after 131Ⅰ therapy[J].International Journal of Radiation Medicine and Nuclear Medicine,2012,36(4):371.[doi:10.3760/cma.j.issn.1673-4114.2012.06.012]
[4]胡鹏程,顾宇参,刘文官,等.腺苷负荷脑灌注显像安全性研究[J].国际放射医学核医学杂志,2009,33(2):83.[doi:10.3760/cma.j.issn.1673-4114.2009.02.006]
 HU Peng-cheng,GU Yu-shen,LIU Wen-guan,et al.Safety of adenosine in stress cerebral perfusion imaging[J].International Journal of Radiation Medicine and Nuclear Medicine,2009,33(4):83.[doi:10.3760/cma.j.issn.1673-4114.2009.02.006]
[5]林伟,邬恒夫,武兆忠,等.99mTc-HL91显像在缺血陛脑血管病中脑乏氧组织的应用研究[J].国际放射医学核医学杂志,2008,32(3):165.
 LIN Wei,WU Heng-fu,WU Zhao-zhong,et al.Preliminary study on detection of brain hypoxic tissue in the patients with ischemic cerebrovascular of brain using 99mTc-HLgl imaging[J].International Journal of Radiation Medicine and Nuclear Medicine,2008,32(4):165.
[6]董晓荣,伍钢.脑组织对DNA双链断裂的反应[J].国际放射医学核医学杂志,2008,32(1):51.
 DONG Xiao-rong,WU Gang.The response of the brain tissue to DNA double strand breaks[J].International Journal of Radiation Medicine and Nuclear Medicine,2008,32(4):51.
[7]瞿跃进,俞浩,陈贵兵,等.血浆脑利钠肽在快速鉴别诊断心源性和肺源性呼吸困难中的价值[J].国际放射医学核医学杂志,2008,32(4):218.
 QU Yue-jin,YU Hao,CHEN Gui-bing,et al.Value of plasma brain natriuretie peptide for differentiating cardiogenic dyspnea from pulmogenic dyspnea[J].International Journal of Radiation Medicine and Nuclear Medicine,2008,32(4):218.
[8]李剑明,李亚明.新生儿缺氧缺血性脑损伤细胞凋亡及其核素显像实验研究进展[J].国际放射医学核医学杂志,2007,31(6):334.
 LI Jian-ming,LI Ya-ming.Development of empirical study on apoptosis and its radionuclide imaging in neonatal hypoxic-ischemic brain damage[J].International Journal of Radiation Medicine and Nuclear Medicine,2007,31(4):334.
[9]吴华.PET在脑功能研究中的应用[J].国际放射医学核医学杂志,2006,30(3):132.
 WU Hua.Positron emission tomography in brain function study[J].International Journal of Radiation Medicine and Nuclear Medicine,2006,30(4):132.
[10]刘晓梅,李冬雪,潘莉萍.核医学对放疗诱发的肾、脑、唾液腺等正常组织损伤的监测[J].国际放射医学核医学杂志,2005,29(4):166.
 LIU Xiao-mei,LI Dong-xue,PAN Li-ping.Nuclear medicine in the detection of radiation associated normal tissue damage of kidney, brain and salivary glands[J].International Journal of Radiation Medicine and Nuclear Medicine,2005,29(4):166.

备注/Memo

备注/Memo:
收稿日期:1999-12-13。
作者简介:林曰增(1964-),男,山东潍坊人,第一军医大学南方医院影像中心博士研究生,主治医师。
更新日期/Last Update: 1900-01-01