Pirotte Benoit J M, Lubansu Alphonse, Massager Nicolas, Wikler David, Van Bogaert Patrick, Levivier Marc, Brotchi Jacques, Goldman Serge
Department of Neurosurgery, Hôpital Erasme, Université Libre de Bruxelles, 808, route de Lennik, B-1070 Brussels, Belgium.
J Neurosurg Pediatr. 2010 May;5(5):479-85. doi: 10.3171/2010.1.PEDS08336.
In this paper, the authors' goal was to evaluate the impact of PET data on the clinical management of incidental brain lesions in children.
Between 1995 and 2007, 442 children with a newly diagnosed brain lesion were referred to the authors' department. Of these, 55 presented with an incidental brain lesion and were selected for study because MR imaging sequences revealed limitations in assessing the tumor, its evolving nature, and/or the malignant potential of the lesion diagnosed. Thirteen children were studied using FDG-PET and 42 with L-(methyl-(11)C)-methionine (MET)-PET; 3 children underwent both FDG-PET and MET-PET but only the MET-PET results were used in the analysis. The PET and MR images were combined in image fusion navigation planning. Drawing on their experience with PET in adults, the authors proposed the following treatment plans: 1) surgery in children with imaging evidence of increased PET tracer uptake, which is highly specific of tumor and/or malignant tumor tissue; or 2) conservative treatment in children in whom there was little or no tracer uptake on PET. The authors compared the PET data with the MR imaging-based diagnosis and either 1) the results of histological examination in surgically treated cases, or 2) the long-term outcome in untreated cases. They studied PET and MR imaging sensitivity and specificity in detecting tumor and malignant tissues, and evaluated whether PET data altered their clinical management.
Seventeen children had increased PET tracer uptake and underwent surgery. Tumor diagnosis was confirmed in all cases (that is, there were no false-positive findings). Cases in which there was little or no PET tracer uptake supported conservative treatment in 38 children. However, because PET was under evaluation, 16 of 38 lesions that were judged accessible for resection were surgically treated. Histological examination results demonstrated neither malignant nor evolving tumor tissue but yielded 9 indolent tumors (6 dysembryoplastic neuroectodermal tumors, 2 low-grade astrocytomas, and 1 low-grade astrocytoma and dysplasia) and 7 nontumoral lesions (3 cases of vasculitis, 3 of gliosis, and 1 of sarcoidosis). In 22 of the untreated 38 children, stable disease was noted during follow-up (range 18-136 months). Although an absence of PET tracer uptake might not exclude tumor tissue, PET did not reveal any false-negative findings in malignant or evolving tumor tissue detection in cases in which MR imaging showed false-positive and -negative cases in > 35 and 25% of the cases, respectively.
These data confirmed the high sensitivity and specificity of PET to detect tumor as well as malignant tissue. Regarding the treatment of the incidental brain lesions, the PET findings enabled the authors to make more appropriate decisions regarding treatment than those made on MR imaging findings alone. Therefore, the risk of surgically treating a nontumoral lesion was reduced as well as that for conservatively managing a malignant tumor. Nowadays, it is estimated that these data justify conservative management in incidental lesions with low or absent PET tracer uptake.
在本文中,作者的目标是评估PET数据对儿童偶然发现的脑病变临床管理的影响。
1995年至2007年间,442例新诊断为脑病变的儿童被转诊至作者所在科室。其中,55例存在偶然发现的脑病变,因其磁共振成像序列在评估肿瘤、其演变性质和/或所诊断病变的恶性潜能方面存在局限性而被选入研究。13例儿童接受了氟代脱氧葡萄糖正电子发射断层显像(FDG-PET)检查,42例接受了L-(甲基-(11)C)-蛋氨酸(MET)-PET检查;3例儿童同时接受了FDG-PET和MET-PET检查,但分析中仅使用了MET-PET结果。PET和MR图像在图像融合导航规划中进行了合并。基于他们在成人PET方面的经验,作者提出了以下治疗方案:1)对PET示踪剂摄取增加且有影像学证据的儿童进行手术,这对肿瘤和/或恶性肿瘤组织具有高度特异性;或2)对PET上示踪剂摄取很少或无摄取的儿童进行保守治疗。作者将PET数据与基于MR成像的诊断以及1)手术治疗病例的组织学检查结果,或2)未治疗病例的长期结局进行了比较。他们研究了PET和MR成像在检测肿瘤和恶性组织方面的敏感性和特异性,并评估了PET数据是否改变了他们的临床管理。
17例儿童PET示踪剂摄取增加并接受了手术。所有病例均确诊为肿瘤(即无假阳性结果)。PET示踪剂摄取很少或无摄取的病例支持对38例儿童进行保守治疗。然而,由于PET正在评估中,38例被判定可切除的病变中有16例接受了手术治疗。组织学检查结果显示既无恶性肿瘤组织也无演变中的肿瘤组织,但发现了9例惰性肿瘤(6例胚胎发育不良性神经上皮肿瘤、2例低级别星形细胞瘤和1例低级别星形细胞瘤伴发育异常)和7例非肿瘤性病变(3例血管炎、3例胶质增生和1例结节病)。在38例未治疗的儿童中,22例在随访期间(18 - 136个月)病情稳定。尽管PET示踪剂无摄取可能不能排除肿瘤组织,但在MR成像分别在> 35%和25%的病例中显示假阳性和假阴性病例的情况下,PET在检测恶性或演变中的肿瘤组织时未显示任何假阴性结果。
这些数据证实了PET在检测肿瘤以及恶性组织方面具有高敏感性和特异性。关于偶然发现的脑病变的治疗,PET检查结果使作者能够做出比仅基于MR成像结果更合适的治疗决策。因此,手术治疗非肿瘤性病变以及保守治疗恶性肿瘤的风险均降低。如今,据估计这些数据证明对PET示踪剂摄取低或无摄取的偶然病变进行保守管理是合理的。
