Multi-modal imaging with Magnetization Transfer and Diffusion Tensor Imaging reveals evidence of myelin damage in children and youth treated for a brain tumour

IF 2.4 Q2 CLINICAL NEUROLOGY Neuro-oncology practice Pub Date : 2024-01-19 DOI:10.1093/nop/npae003
Jovanka Skocic, Logan Richard, Ashley Ferkul, Elizabeth Cox, Julie Tseng, S. Laughlin, E. Bouffet, D. Mabbott
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Abstract

The microstructural damage underlying compromise of white matter following treatment for paediatric brain tumours is unclear. We use multi-modal imaging employing advanced diffusion (DTI) and magnetization transfer (MTI) MRI methods to examine chronic microstructural damage to white matter in children and adolescents treated for paediatric brain tumour. Notably, MTI may be more sensitive to macromolecular content, including myelin, than DTI. Fifty patients treated for brain tumours (18 treated with surgery +/- chemotherapy and 32 treated with surgery followed by cranial-spinal radiation; time from diagnosis to scan ~ 6 years) and 45 matched healthy children completed both MTI and DTI scans. Voxelwise and region of interest approaches were employed to compare white matter microstructure metrics (Magnetization Transfer Ratio (MTR); DTI - FA, RD, AD, MD) between patients and healthy controls. MTR was decreased across multiple white matter tracts in patients when compared to healthy children, p<0.001. These differences were observed for both patients treated with radiation and those treated with only surgery, p<0.001. We also found that children and adolescents treated for brain tumours exhibit decreased FA and increased RD/AD/MD compared to their healthy counterparts in several white matter regions, ps < 0.02. Finally, we observed that MTR and DTI metrics were related in multiple white matter tracts in patients, ps < .01, but not healthy control children. Our findings provide evidence that the white matter damage observed in patients years after treatment of pediatric posterior fossa tumors, likely reflects myelin disruption.
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磁化传递和弥散张量成像的多模态成像技术揭示了儿童和青少年脑肿瘤患者髓鞘受损的证据
儿童脑肿瘤治疗后白质受损的微观结构损伤尚不清楚。我们采用先进的弥散(DTI)和磁化传递(MTI)磁共振成像方法进行多模态成像,研究儿童和青少年脑肿瘤治疗后白质的慢性微结构损伤。值得注意的是,与 DTI 相比,MTI 可能对包括髓鞘在内的大分子含量更为敏感。 50 名接受过脑肿瘤治疗的患者(18 名接受过手术+/-化疗,32 名接受过手术后颅脑-脊髓放射治疗;从诊断到扫描的时间约为 6 年)和 45 名匹配的健康儿童完成了 MTI 和 DTI 扫描。研究人员采用体素法和感兴趣区法比较了患者和健康对照组的白质微观结构指标(磁化传递比(MTR);DTI - FA、RD、AD、MD)。 与健康儿童相比,患者多个白质束的磁化转移率均有所下降,P<0.001。这些差异在接受放射治疗的患者和仅接受手术治疗的患者中均可观察到,P<0.001。我们还发现,与健康儿童相比,接受脑肿瘤治疗的儿童和青少年在多个白质区域的 FA 值降低,RD/AD/MD 值升高,PS<0.02。最后,我们观察到,在患者的多个白质束中,MTR 和 DTI 指标是相关的(ps < .01),而健康对照组儿童则不是。 我们的研究结果提供了证据,证明小儿后窝肿瘤患者在治疗多年后观察到的白质损伤可能反映了髓鞘破坏。
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来源期刊
Neuro-oncology practice
Neuro-oncology practice CLINICAL NEUROLOGY-
CiteScore
5.30
自引率
11.10%
发文量
92
期刊介绍: Neuro-Oncology Practice focuses on the clinical aspects of the subspecialty for practicing clinicians and healthcare specialists from a variety of disciplines including physicians, nurses, physical/occupational therapists, neuropsychologists, and palliative care specialists, who have focused their careers on clinical patient care and who want to apply the latest treatment advances to their practice. These include: Applying new trial results to improve standards of patient care Translating scientific advances such as tumor molecular profiling and advanced imaging into clinical treatment decision making and personalized brain tumor therapies Raising awareness of basic, translational and clinical research in areas of symptom management, survivorship, neurocognitive function, end of life issues and caregiving
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