Véra P, Rohrlich P, Stiévenart J L, Elmaleh M, Duval M, Bonnin F, Bok B, Vilmer E
Department of Nuclear Medicine, Charles Nicolle University Hospital, Henri Becquerel Center, Rouen, France.
J Clin Oncol. 1999 Sep;17(9):2804-10. doi: 10.1200/JCO.1999.17.9.2804.
Cytarabine (ara-C) is one of the most effective chemotherapeutic agents in patients with acute leukemia (AL), with a clear dose effect. Use of high-dose ara-C is hampered, however, by a noticeable toxicity, particularly to the CNS. We investigated the usefulness of CNS perfusion imaging with technetium-99m ((99m)Tc)-hexamethyl-propylene-amine oxime (HMPAO) single-photon emission computed tomography (SPECT) concurrent to magnetic resonance imaging (MRI) to specifically assess the effects of standard- and high-dose ara-C in children with AL.
Twenty-six perfusion studies using (99m)Tc-HMPAO SPECT were performed in 12 children (age range, 4 to 15 years) with AL after induction therapy, which consisted of a standard-dose ara-C, immediately after consolidation with high-dose ara-C, and later during follow-up (range, 6 to 44 months). The chemotherapy-related adverse events were monitored and correlated to SPECT and MRI.
After the induction phase, all children were neurologically normal on MRI. On SPECT imaging, four children displayed a slightly heterogeneous perfusion. After high-dose ara-C (4 to 36 g/m(2)), five children had regressive neurologic signs of potential toxic origin. Of these five children, only one had an abnormal MRI scan, whereas all patients showed evidence of diffuse cerebral and/or cerebellar heterogeneous perfusion on SPECT. The seven other patients without any neurologic symptoms had normal MRI scans; SPECT was normal for three patients and abnormal for four patients. On follow-up, for four children who had presented with clinical neurologic toxicity, SPECT improved in three patients and remained unchanged in one patients. In two of these four children, delayed abnormalities (T2 white matter hypersignal and cerebellar atrophy) appeared on MRI scans.
In our series, diffuse heterogeneous brain hypoperfusion is often the sole early objective imaging feature identified by SPECT of high-dose ara-C neurotoxicity, where MRI still demonstrates normal pictures.
阿糖胞苷(ara-C)是急性白血病(AL)患者最有效的化疗药物之一,具有明确的剂量效应。然而,高剂量阿糖胞苷的应用受到明显毒性的阻碍,尤其是对中枢神经系统的毒性。我们研究了锝-99m(99mTc)-六甲基丙烯胺肟(HMPAO)单光子发射计算机断层扫描(SPECT)与磁共振成像(MRI)同步进行的中枢神经系统灌注成像,以特异性评估标准剂量和高剂量阿糖胞苷对AL患儿的影响。
对12例年龄在4至15岁的AL患儿进行了26次使用99mTc-HMPAO SPECT的灌注研究,这些研究在诱导治疗后进行,诱导治疗包括标准剂量阿糖胞苷,在高剂量阿糖胞苷巩固治疗后立即进行,以及在随访期间(6至44个月)进行。监测化疗相关不良事件,并将其与SPECT和MRI结果相关联。
诱导期后,所有患儿的MRI检查显示神经功能正常。在SPECT成像中,4例患儿表现为轻度灌注不均匀。高剂量阿糖胞苷(4至36 g/m²)治疗后,5例患儿出现潜在毒性来源的神经功能减退体征。在这5例患儿中,只有1例MRI扫描异常,而所有患者在SPECT上均显示弥漫性脑和/或小脑灌注不均匀。其他7例无任何神经症状的患者MRI扫描正常;3例患者SPECT正常,4例患者SPECT异常。随访时,4例出现临床神经毒性的患儿中,3例患者的SPECT有所改善,1例患者保持不变。在这4例患儿中的2例,MRI扫描出现延迟异常(T2白质高信号和小脑萎缩)。
在我们的系列研究中,弥漫性脑灌注不均匀通常是高剂量阿糖胞苷神经毒性SPECT检查发现的唯一早期客观影像学特征,此时MRI仍显示正常图像。