Muir Keith W, Buchan Alastair, von Kummer Rudiger, Rother Joachim, Baron Jean-Claude
Division of Clinical Neurosciences, University of Glasgow, Institute of Neurological Sciences, Southern General Hospital, Glasgow.
Lancet Neurol. 2006 Sep;5(9):755-68. doi: 10.1016/S1474-4422(06)70545-2.
Thrombolytic therapy has led to a higher proportion of patients presenting to hospital early, and this, with parallel developments in imaging technology, has greatly improved the understanding of acute stroke pathophysiology. Additionally, MRI, including diffusion-weighted imaging (DWI) and gradient echo, or T2*, imaging is important in understanding basic structural information--such as distinguishing acute ischaemia from haemorrhage. It has also greatly increased sensitivity in the diagnosis of acute cerebral ischaemia. The pathophysiology of the ischaemic penumbra can now be assessed with CT or MRI-based perfusion imaging techniques, which are widely available and clinically applicable. Pathophysiological information from CT or MRI increasingly helps clinical trial design, may allow targeted therapy in individual patients, and may extend the time scale for reperfusion therapy.
溶栓治疗使更多患者能够早期入院,并且随着成像技术的同步发展,极大地增进了对急性中风病理生理学的理解。此外,包括弥散加权成像(DWI)、梯度回波成像或T2*成像在内的磁共振成像(MRI)对于了解基本结构信息很重要,比如区分急性缺血和出血。它还大大提高了急性脑缺血诊断的敏感性。现在可以通过基于CT或MRI的灌注成像技术评估缺血半暗带的病理生理学,这些技术广泛可用且适用于临床。来自CT或MRI的病理生理信息越来越有助于临床试验设计,可能使针对个体患者的靶向治疗成为可能,并可能延长再灌注治疗的时间范围。