GE Research, Niskayuna, New York, USA.
Uniformed Services University, Bethesda, Maryland, USA.
Magn Reson Med. 2023 Nov;90(5):1789-1801. doi: 10.1002/mrm.29758. Epub 2023 Jun 19.
We hypothesized that the time-dependent diffusivity at short diffusion times, as measured by oscillating gradient spin echo (OGSE) diffusion MRI, can characterize tissue microstructures in glioma patients.
Five adult patients with known diffuse glioma, including two pre-surgical and three with new enhancing lesions after treatment for high-grade glioma, were scanned in an ultra-high-performance gradient 3.0T MRI system. OGSE diffusion MRI at 30-100 Hz and pulsed gradient spin echo diffusion imaging (approximated as 0 Hz) were obtained. The ADC and trace-diffusion-weighted image at each acquired frequency were calculated, that is, ADC (f) and TraceDWI (f).
In pre-surgical patients, biopsy-confirmed solid enhancing tumor in a high-grade glioblastoma showed higher and lower , compared to that at same OGSE frequency in a low-grade astrocytoma. In post-treatment patients, the enhancing lesions of two patients who were diagnosed with tumor progression contained more voxels with high and low , compared to the enhancing lesions of a patient who was diagnosed with treatment effect. Non-enhancing T signal abnormality lesions in both the pre-surgical high-grade glioblastoma and post-treatment tumor progressions showed regions with high and low , consistent with infiltrative tumor. The solid tumor of the glioblastoma, the enhancing lesions of post-treatment tumor progressions, and the suspected infiltrative tumors showed high diffusion time-dependency from 30 to 100 Hz, consistent with high intra-tumoral volume fraction (cellular density).
Different characteristics of OGSE-based time-dependent diffusivity can reveal heterogenous tissue microstructures that indicate cellular density in glioma patients.
我们假设通过振荡梯度回波(OGSE)扩散 MRI 测量的短扩散时间依赖性扩散率可以表征胶质瘤患者的组织微结构。
对 5 名已知弥漫性脑胶质瘤的成年患者(包括 2 名术前患者和 3 名高级别胶质瘤治疗后出现新增强病变的患者)进行了超高场强 3.0T MRI 系统扫描。获得了 30-100 Hz 的 OGSE 扩散 MRI 和脉冲梯度回波扩散成像(近似为 0 Hz)。计算了在每个采集频率下的 ADC 和轨迹扩散加权图像,即 ADC(f)和 TraceDWI(f)。
在术前患者中,活检证实的高级别胶质母细胞瘤的实性强化肿瘤与低级别星形细胞瘤在相同 OGSE 频率下的 和 更高。在治疗后患者中,2 名被诊断为肿瘤进展的患者的增强病变中,具有高 和低 的体素数量多于被诊断为治疗效果的患者的增强病变。术前高级别胶质瘤和治疗后肿瘤进展的非增强 T 信号异常病变显示出具有高 和低 的区域,与浸润性肿瘤一致。胶质母细胞瘤的实体肿瘤、治疗后肿瘤进展的增强病变和疑似浸润性肿瘤在 30 至 100 Hz 之间显示出高扩散时间依赖性,与高肿瘤内体积分数(细胞密度)一致。
基于 OGSE 的时变扩散率的不同特征可以揭示异质组织微结构,表明胶质瘤患者的细胞密度。
