Department of Neurology, University of Ulm, Germany.
Swiss Epilepsy Clinic, Klinik Lengg, Zürich, Switzerland.
Parkinsonism Relat Disord. 2019 Jun;63:179-184. doi: 10.1016/j.parkreldis.2019.02.004. Epub 2019 Feb 5.
A volumetric MRI analysis of longitudinal regional cerebral atrophy in Huntington's disease (HD) was performed as a read-out of disease progression to calculate sample sizes for future clinical trials.
This study was based on MRI data of 59 patients with HD and 40 controls recruited within the framework of the PADDINGTON study and investigated at baseline and follow-up after 6 and 15 months. Automatic atlas-based volumetry (ABV) of structural T1-weighted scans was used to calculate longitudinal volume changes of brain structures relevant in HD and to assess standardized effect sizes and sample sizes required for potential future studies.
Atrophy rates were largest in the caudate (-3.4%), putamen (-2.8%), nucleus accumbens (-1.6%), and the parietal lobes (-1.7%); the lateral ventricles showed an expansion by 6.0%. Corresponding effect sizes were -1.35 (caudate), -0.84 (putamen), -0.91 (nucleus accumbens), -1.05 (parietal lobe), and 0.92 (lateral ventricles) leading to N = 36 subjects per study group for detecting a 50% attenuation of atrophy for the best performing structure (caudate). A combined score of volume changes in non-overlapping compartments (striatum, parietal lobes, lateral ventricles) increased the effect size to -1.60 and substantially reduced the required sample sizes by 10 to N = 26 subjects per study group. This combined imaging score correlated significantly both with the CAP score and with the progression of the clinical phenotype.
We propose ABV of the striatum together with parietal lobe and lateral ventricle volumes as a combined imaging read-out for progression studies including clinical trials in HD.
本研究对亨廷顿病(HD)患者进行了纵向区域性脑萎缩的容积 MRI 分析,以评估疾病进展情况,并计算未来临床试验的样本量。
该研究基于 PADDINGTON 研究中招募的 59 名 HD 患者和 40 名对照者的 MRI 数据,分别在基线以及 6 个月和 15 个月后随访时进行。采用基于自动图谱的容积测量(ABV)对结构 T1 加权扫描进行分析,以计算与 HD 相关的脑结构的纵向体积变化,并评估潜在未来研究所需的标准化效应量和样本量。
尾状核(-3.4%)、壳核(-2.8%)、伏隔核(-1.6%)和顶叶(-1.7%)的萎缩率最大;侧脑室扩张 6.0%。相应的效应量为-1.35(尾状核)、-0.84(壳核)、-0.91(伏隔核)、-1.05(顶叶)和 0.92(侧脑室),这表明每组研究需要 36 名受试者,才能检测到最佳表现结构(尾状核)萎缩率降低 50%。非重叠隔室(纹状体、顶叶、侧脑室)的容积变化综合评分增加了效应量至-1.60,并将每组研究所需的样本量减少了 10,至 N=26 名受试者。该联合成像评分与 CAP 评分和临床表型的进展显著相关。
我们提出纹状体 ABV 与顶叶和侧脑室体积相结合作为一种综合成像指标,用于包括 HD 临床试验在内的进展研究。
