1Neurosurgery Unit for Pituitary and Inheritable Diseases, and.
4Surgical Neurology Branch, National Institute of Neurological Disorders and Stroke.
J Neurosurg. 2018 Sep;129(3):620-628. doi: 10.3171/2017.4.JNS17234. Epub 2017 Oct 13.
OBJECTIVE Accurate presurgical localization of microadenomas in Cushing's disease (CD) leads to improved remission rates and decreased adverse events. Volumetric gradient recalled echo (3D-GRE) MRI detects pituitary microadenomas in CD in up to 50%-80% cases as a focus of hypointensity due to delayed contrast wash-in. The authors have previously reported that postcontrast FLAIR imaging may be useful in detecting otherwise MRI-negative pituitary microadenomas as foci of hyperintensity. This reflects theoretically complementary imaging of microadenomas due to delayed contrast washout. The authors report on the diagnostic accuracy and clinical utility of FLAIR imaging in the detection of microadenomas in patients with CD. METHODS The authors prospectively analyzed imaging findings in 23 patients (24 tumors) with biochemically proven CD who underwent transsphenoidal surgery for CD. Preoperatively, the patients underwent pituitary MRI with postcontrast FLAIR and postcontrast 3D-GRE sequences. RESULTS Postcontrast FLAIR hyperintensity was detected in macroadenomas, and in 3D-GRE-positive or -negative microadenomas. Overall, 3D-GRE was superior in detecting surgically and histopathologically confirmed, location-concordant microadenomas. Of 24 pituitary adenomas, 18 (75%; sensitivity 82%, positive predictive value 95%) were found on 3D-GRE, and 13 (50% [1 was false positive]; sensitivity 55%, positive predictive value 92%) were correctly identified on FLAIR. The stand-alone specificity of 3D-GRE and FLAIR was similar (50%). These results confirm the superiority of 3D-GRE as a stand-alone imaging modality. The authors then tested the utility of FLAIR as a complementary tool to 3D-GRE imaging. All 5 patients with negative 3D-GRE MRI displayed a distinct focus of FLAIR enhancement. Four of those 5 cases (80%) had location-concordant positive histopathological results and achieved postsurgical biochemical remission. The remaining patient was not cured, because resection did not include the region of FLAIR hyperintensity. CONCLUSIONS This study suggests that delayed microadenoma contrast washout may be detected as FLAIR hyperintensity in otherwise MRI-negative CD cases. The authors propose adding postcontrast FLAIR sequences to complement 3D-GRE for surgical planning in patients with CD. Clinical trial registration no.: NIH protocol 03-N-0164, NCT00060541 (clinicaltrials.gov).
准确的术前定位库欣病(CD)中的微腺瘤可提高缓解率并降低不良事件的发生率。容积梯度回波(3D-GRE)MRI 可检测到高达 50%-80%的 CD 病例中的垂体微腺瘤,表现为由于对比剂延迟进入而导致的低信号焦点。作者之前报道过,增强后 FLAIR 成像可能有助于检测到 MRI 阴性的垂体微腺瘤,表现为高信号焦点。这反映了微腺瘤在理论上具有由于对比剂延迟廓清而互补的成像特征。作者报告了 FLAIR 成像在检测 CD 患者微腺瘤中的诊断准确性和临床应用价值。
作者前瞻性分析了 23 例(24 个肿瘤)经生化证实的 CD 患者的影像学检查结果,这些患者因 CD 而行经蝶窦手术。术前,患者进行了垂体 MRI 检查,包括增强后 FLAIR 和增强后 3D-GRE 序列。
在大腺瘤和 3D-GRE 阳性或阴性的微腺瘤中均检测到增强后 FLAIR 高信号。总的来说,3D-GRE 在检测到手术和组织病理学证实的、与位置一致的微腺瘤方面更具优势。在 24 个垂体腺瘤中,18 个(75%;敏感性 82%,阳性预测值 95%)在 3D-GRE 上发现,13 个(50%[1 个为假阳性];敏感性 55%,阳性预测值 92%)在 FLAIR 上正确识别。3D-GRE 和 FLAIR 的单独特异性相似(50%)。这些结果证实了 3D-GRE 作为一种独立成像方式的优越性。作者随后测试了 FLAIR 作为 3D-GRE 成像的补充工具的应用价值。所有 5 例 3D-GRE MRI 阴性的患者均显示出明显的 FLAIR 增强焦点。其中 4 例(80%)的位置与组织病理学阳性结果一致,并在术后达到生化缓解。另一名患者未被治愈,因为切除不包括 FLAIR 高信号区域。
本研究表明,在 MRI 阴性的 CD 病例中,延迟的微腺瘤对比剂廓清可能表现为 FLAIR 高信号。作者建议在 CD 患者的手术计划中添加增强后 FLAIR 序列以补充 3D-GRE。
美国国立卫生研究院方案 03-N-0164,NCT00060541(clinicaltrials.gov)。
