Spect Brain(幽灵大脑)研究综述
Spect Brain 幽灵大脑 - OBJECTIVE Visualization of subcortical language pathways by means of diffusion tensor imaging-fiber tracking (DTI-FT) is evolving as an important tool for surgical planning and decision making in patients with language-suspect brain tumors. [1] Purpose: The aim of this work is to demonstrate to pediatrician in general and pediatric neurologist in particular the variations in cerebral perfusion during normal development which should be taken into consideration at the time of interpreting SPECT brain perfusion scan in different pediatric brain disorders. [2] To develop a practical method to rapidly utilize a deep learning model to automatically extract image features based on a small number of SPECT brain perfusion images in general clinics to objectively evaluate Alzheimer's disease (AD). [3] This research aimed to assess [99mTc]Tc-iPSMA SPECT brain imaging as a potential specific diagnosis of HGG and BM by PSMA-targeting in their proliferating vasculature. [4] While these findings are derived from a small population of subjects and are in need of replication, they suggest that anosognosia in aMCI might be a useful clinical marker to suspect brain changes associated with AD neuropathology. [5] Early recognition of these abnormalities may help veterinarians to suspect brain herniation and determine timely treatment. [6] A next-generation, adaptive, multi-pinhole system, AdaptiSPECT-C, dedicated to SPECT brain imaging is currently under development in our research team. [7] These correction methods should be carefully selected for 123I-FP-CIT SPECT brain imaging. [8]客观的 通过扩散张量成像-纤维跟踪 (DTI-FT) 可视化皮层下语言通路正在发展成为语言可疑脑肿瘤患者手术计划和决策制定的重要工具。 [1] 目的:这项工作的目的是向普通儿科医生和儿科神经科医生展示正常发育过程中脑灌注的变化,在解释不同儿科脑部疾病的 SPECT 脑灌注扫描时应考虑这些变化。 [2] 开发一种实用的方法,快速利用深度学习模型,根据普通临床少量SPECT脑灌注图像自动提取图像特征,客观评估阿尔茨海默病(AD)。 [3] 本研究旨在评估 [99mTc]Tc-iPSMA SPECT 脑成像作为通过 PSMA 靶向在其增殖的脉管系统中对 HGG 和 BM 的潜在特异性诊断。 [4] 虽然这些发现来自一小部分受试者并且需要复制,但它们表明 aMCI 中的失认症可能是怀疑与 AD 神经病理学相关的大脑变化的有用临床标志物。 [5] 早期识别这些异常可能有助于兽医怀疑脑疝并确定及时治疗。 [6] 我们的研究团队目前正在开发专门用于 SPECT 脑成像的下一代自适应多针孔系统 AdaptiSPECT-C。 [7] 123I-FP-CIT SPECT 脑成像应仔细选择这些校正方法。 [8]
spect brain imaging
This research aimed to assess [99mTc]Tc-iPSMA SPECT brain imaging as a potential specific diagnosis of HGG and BM by PSMA-targeting in their proliferating vasculature. [1] A next-generation, adaptive, multi-pinhole system, AdaptiSPECT-C, dedicated to SPECT brain imaging is currently under development in our research team. [2] These correction methods should be carefully selected for 123I-FP-CIT SPECT brain imaging. [3]本研究旨在评估 [99mTc]Tc-iPSMA SPECT 脑成像作为通过 PSMA 靶向在其增殖的脉管系统中对 HGG 和 BM 的潜在特异性诊断。 [1] 我们的研究团队目前正在开发专门用于 SPECT 脑成像的下一代自适应多针孔系统 AdaptiSPECT-C。 [2] 123I-FP-CIT SPECT 脑成像应仔细选择这些校正方法。 [3]
spect brain perfusion 幽灵脑灌注
Purpose: The aim of this work is to demonstrate to pediatrician in general and pediatric neurologist in particular the variations in cerebral perfusion during normal development which should be taken into consideration at the time of interpreting SPECT brain perfusion scan in different pediatric brain disorders. [1] To develop a practical method to rapidly utilize a deep learning model to automatically extract image features based on a small number of SPECT brain perfusion images in general clinics to objectively evaluate Alzheimer's disease (AD). [2]目的:这项工作的目的是向普通儿科医生和儿科神经科医生展示正常发育过程中脑灌注的变化,在解释不同儿科脑部疾病的 SPECT 脑灌注扫描时应考虑这些变化。 [1] 开发一种实用的方法,快速利用深度学习模型,根据普通临床少量SPECT脑灌注图像自动提取图像特征,客观评估阿尔茨海默病(AD)。 [2]