Department of Radiology, Massachusetts General Hospital and Harvard Medical School, Athinoula A Martinos Center for Biomedical Imaging, Charlestown, Mass 02129, USA.
Stroke. 2010 Oct;41(10 Suppl):S147-51. doi: 10.1161/STROKEAHA.110.595777.
In acute stroke, mismatch between lesions seen on diffusion- (DWI) and perfusion-weighted (PWI) MRI has been used to identify ischemic tissue before irreversible damage. Nevertheless, the concept of PWI/DWI mismatch is oversimplified and the ischemic tissue metabolic status and outcome are often heterogeneous. Tissue pH, a well-regulated physiological index that alters on disrupted tissue metabolism, may provide a surrogate metabolic imaging marker that augments the DWI and PWI for penumbra imaging.
pH-weighted MRI was obtained by probing the pH-dependent amide proton transfer between endogenous mobile proteins/peptides and tissue water. The technique was validated using animal stroke models, optimized for human use, and preliminarily tested for imaging healthy volunteers.
pH-weighted MRI is sensitive and specific to ischemic tissue acidosis. pH MRI can be optimized for clinical use, and a pilot human study showed it is feasible using a standard 3 Tesla MRI scanner.
Ischemic acidosis can be imaged via an endogenous pH-weighted MRI technique, which complements conventional PWI and DWI for penumbra imaging. pH-weighted MRI has been optimized and appears feasible and practical in imaging human subjects. Additional study is necessary to elucidate the diagnostic use of pH MRI in stroke patients.
在急性脑卒中中,弥散加权(DWI)和灌注加权(PWI)MRI 上显示的病灶不匹配被用于在不可逆损伤前识别缺血组织。然而,PWI/DWI 不匹配的概念过于简单化,缺血组织的代谢状态和结局通常是异质的。组织 pH 值是一个受调节的生理指标,它会在组织代谢紊乱时发生改变,可能提供一个替代的代谢成像标志物,增强 DWI 和 PWI 对缺血半暗带的成像。
通过探测内源性可移动蛋白/肽与组织水之间 pH 依赖性酰胺质子转移,获得 pH 值加权 MRI。该技术使用动物脑卒中模型进行了验证,针对人体进行了优化,并初步用于健康志愿者的成像测试。
pH 值加权 MRI 对缺血组织酸中毒敏感且具有特异性。pH 值 MRI 可以进行临床优化,一项初步的人体研究表明,使用标准的 3T MRI 扫描仪是可行的。
通过一种内源性 pH 值加权 MRI 技术可以对缺血性酸中毒进行成像,该技术补充了常规 PWI 和 DWI 对缺血半暗带的成像。pH 值加权 MRI 已经得到了优化,在对人体进行成像方面具有可行性和实用性。需要进一步的研究来阐明 pH MRI 在脑卒中患者中的诊断用途。