Is the optimal Tmax threshold identifying perfusion deficit volumes variable across MR perfusion software packages? A pilot study

[1]  N. Nighoghossian,et al.  Assessment of three MR perfusion software packages in predicting final infarct volume after mechanical thrombectomy , 2022, Journal of NeuroInterventional Surgery.

[2]  R. Meuli,et al.  MRI software for diffusion-perfusion mismatch analysis may impact on patients’ selection and clinical outcome , 2021, European Radiology.

[3]  C. Enzinger,et al.  Automated MRI perfusion-diffusion mismatch estimation may be significantly different in individual patients when using different software packages , 2020, European Radiology.

[4]  Soren Christensen,et al.  Review of Perfusion Imaging in Acute Ischemic Stroke: From Time to Tissue. , 2020, Stroke.

[5]  R. Sacco,et al.  Guidelines for the Early Management of Patients With Acute Ischemic Stroke: 2019 Update to the 2018 Guidelines for the Early Management of Acute Ischemic Stroke. , 2019, Stroke.

[6]  L. Beenen,et al.  Comparison of three commonly used CT perfusion software packages in patients with acute ischemic stroke , 2019, Journal of NeuroInterventional Surgery.

[7]  W. Heiss,et al.  Penumbra detection in acute stroke with perfusion magnetic resonance imaging: Validation with 15O‐positron emission tomography , 2019, Annals of neurology.

[8]  G. Zaharchuk,et al.  Ischemic Core and Hypoperfusion Volumes Correlate With Infarct Size 24 Hours After Randomization in DEFUSE 3 , 2019, Stroke.

[9]  G. Albers Use of Imaging to Select Patients for Late Window Endovascular Therapy , 2018, Stroke.

[10]  E. Lindsay Thrombectomy 6 to 24 Hours after Stroke with a Mismatch between Deficit and Infarct , 2018 .

[11]  O. Jansen,et al.  Comparison of Perfusion CT Software to Predict the Final Infarct Volume After Thrombectomy , 2016, Stroke.

[12]  Roland Bammer,et al.  Ischemic core and hypoperfusion volumes predict infarct size in SWIFT PRIME , 2016, Annals of neurology.

[13]  H. Diener,et al.  Stent-retriever thrombectomy after intravenous t-PA vs. t-PA alone in stroke. , 2015, The New England journal of medicine.

[14]  R. Bammer,et al.  Apparent Diffusion Coefficient Threshold for Delineation of Ischemic Core , 2015, International journal of stroke : official journal of the International Stroke Society.

[15]  M. Krause,et al.  Endovascular therapy for ischemic stroke with perfusion-imaging selection. , 2015, The New England journal of medicine.

[16]  G. Zaharchuk,et al.  Early Diffusion-Weighted Imaging and Perfusion-Weighted Imaging Lesion Volumes Forecast Final Infarct Size in DEFUSE 2 , 2013, Stroke.

[17]  J. Sobesky Refining the Mismatch Concept in Acute Stroke: Lessons Learned from PET and MRI , 2012, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[18]  W. Heiss,et al.  MRI Perfusion Maps in Acute Stroke Validated With 15O-Water Positron Emission Tomography , 2010, Stroke.

[19]  R. Bammer,et al.  Optimal Tmax Threshold for Predicting Penumbral Tissue in Acute Stroke , 2009, Stroke.

[20]  Keith Muir,et al.  Effects of alteplase beyond 3 h after stroke in the Echoplanar Imaging Thrombolytic Evaluation Trial (EPITHET): a placebo-controlled randomised trial , 2008, The Lancet Neurology.

[21]  Scott Hamilton,et al.  Magnetic resonance imaging profiles predict clinical response to early reperfusion: The diffusion and perfusion imaging evaluation for understanding stroke evolution (DEFUSE) study , 2006, Annals of neurology.

[22]  B. Rosen,et al.  Tracer arrival timing‐insensitive technique for estimating flow in MR perfusion‐weighted imaging using singular value decomposition with a block‐circulant deconvolution matrix , 2003, Magnetic resonance in medicine.

[23]  Jeffry R Alger,et al.  Perfusion-Weighted Magnetic Resonance Imaging Thresholds Identifying Core, Irreversibly Infarcted Tissue , 2003, Stroke.

[24]  J. Arenillas,et al.  Timing of Spontaneous Recanalization and Risk of Hemorrhagic Transformation in Acute Cardioembolic Stroke , 2001, Stroke.

[25]  J. Baron,et al.  Perfusion Thresholds in Human Cerebral Ischemia: Historical Perspective and Therapeutic Implications , 2001, Cerebrovascular Diseases.

[26]  W D Heiss,et al.  Ischemic Penumbra: Evidence From Functional Imaging in Man , 2000, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[27]  B. Rosen,et al.  High resolution measurement of cerebral blood flow using intravascular tracer bolus passages. Part I: Mathematical approach and statistical analysis , 1996, Magnetic resonance in medicine.

[28]  V Beaudouin,et al.  Prolonged persistence of substantial volumes of potentially viable brain tissue after stroke: a correlative PET-CT study with voxel-based data analysis. , 1996, Stroke.

[29]  Anthony J. Strong,et al.  Extracellular potassium activity, evoked potential and tissue blood flow Relationships during progressive ischaemia in baboon cerebral cortex , 1977, Journal of the Neurological Sciences.

[30]  N M Branston,et al.  Cortical Evoked Potential and Extracellular K+ and H+ at Critical Levels of Brain Ischemia , 1977, Stroke.

[31]  S. Aoki,et al.  Magnetic resonance , 2012, International Journal of Computer Assisted Radiology and Surgery.

[32]  D Comar,et al.  Noninvasive tomographic study of cerebral blood flow and oxygen metabolism in vivo. Potentials, limitations, and clinical applications in cerebral ischemic disorders. , 1981, European neurology.