| scholarly article | Q13442814 |
| P50 | author | Max Wintermark | Q18159223 |
| Leif Østergaard | Q24040335 | ||
| Werner Hacke | Q109007 | ||
| Joanna Wardlaw | Q25272201 | ||
| Geoffrey A. Donnan | Q38545177 | ||
| Colin P. Derdeyn | Q38545801 | ||
| Andrei V. Alexandrov | Q40066256 | ||
| Jochen B Fiebach | Q47945795 | ||
| Jean-Claude Baron | Q56877270 | ||
| Ona Wu | Q58856648 | ||
| William J Powers | Q63150189 | ||
| Bart M Demaerschalk | Q64768284 | ||
| David Liebeskind | Q86023790 | ||
| Michael Lev | Q86183992 | ||
| Robert Silbergleit | Q91489223 | ||
| Chelsea S. Kidwell | Q110243582 | ||
| P2093 | author name string | Roland Bammer | |
| Jeffry R Alger | |||
| Marc Fisher | |||
| Stephen Davis | |||
| Gregory W Albers | |||
| Martin Köhrmann | |||
| Steven Warach | |||
| James D Eastwood | |||
| Kennedy R Lees | |||
| Ting-Yim Lee | |||
| Karen L Furie | |||
| Alma Gregory Sorensen | |||
| Stephan P Kloska | |||
| James Provenzale | |||
| Walter Koroshetz | |||
| Peter Schellinger | |||
| Gregory V Goldmakher | |||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1621-1628 | |
| P577 | publication date | 2008-04-10 | |
| P1433 | published in | Stroke Journal | Q7624282 |
| P1476 | title | Acute stroke imaging research roadmap | |
| P478 | volume | 39 |
| Q95825897 | A Magnetic Resonance Imaging Protocol for Stroke Onset Time Estimation in Permanent Cerebral Ischemia |
| Q48268410 | A multicentre, randomized, double-blinded, placebo-controlled Phase III study to investigate EXtending the time for Thrombolysis in Emergency Neurological Deficits (EXTEND). |
| Q30938805 | ASFNR recommendations for clinical performance of MR dynamic susceptibility contrast perfusion imaging of the brain. |
| Q33530455 | Absolute arterial cerebral blood volume quantification using inflow vascular-space-occupancy with dynamic subtraction magnetic resonance imaging |
| Q30414107 | Accuracy and reliability assessment of CT and MR perfusion analysis software using a digital phantom |
| Q30411115 | Acute Stroke Imaging Research Roadmap II. |
| Q35522160 | Acute ischemic stroke treatment, part 1: patient selection "the 50% barrier and the capillary index score". |
| Q33517464 | Acute stroke magnetic resonance imaging: current status and future perspective |
| Q48466066 | Acute stroke: a comparison of different CT perfusion algorithms and validation of ischaemic lesions by follow-up imaging. |
| Q30568963 | Advanced multimodal CT/MRI approaches to hyperacute stroke diagnosis, treatment, and monitoring |
| Q40372120 | Analysis of perfusion MRI in stroke: To deconvolve, or not to deconvolve |
| Q33416503 | Automated versus manual post-processing of perfusion-CT data in patients with acute cerebral ischemia: influence on interobserver variability |
| Q34052662 | Basilar artery occlusion |
| Q41039758 | Biased visualization of hypoperfused tissue by computed tomography due to short imaging duration: improved classification by image down-sampling and vascular models |
| Q35932641 | CT Perfusion ASPECTS in the Evaluation of Acute Ischemic Stroke: Thrombolytic Therapy Perspective |
| Q35641836 | CT angiography source images acquired with a fast-acquisition protocol overestimate infarct core on diffusion weighted images in acute ischemic stroke |
| Q48182141 | CT brain perfusion protocol to eliminate the need for selecting a venous output function. |
| Q35074623 | CT cerebral blood flow maps optimally correlate with admission diffusion-weighted imaging in acute stroke but thresholds vary by postprocessing platform |
| Q57803503 | CT perfusion in acute stroke: Practical guidance for implementation in clinical practice |
| Q38114846 | CT perfusion in acute stroke: know the mimics, potential pitfalls, artifacts, and technical errors. |
| Q37101437 | CT perfusion mean transit time maps optimally distinguish benign oligemia from true "at-risk" ischemic penumbra, but thresholds vary by postprocessing technique |
| Q37305463 | Cerebrovascular diseases |
| Q26799824 | Clinical Trial Design Principles and Endpoint Definitions for Transcatheter Mitral Valve Repair and Replacement: Part 2: Endpoint Definitions: A Consensus Document From the Mitral Valve Academic Research Consortium |
| Q37129984 | Clinical relevance and practical implications of trials of perfusion and angiographic imaging in patients with acute ischaemic stroke: a multicentre cohort imaging study |
| Q38546453 | Clinical trial design principles and endpoint definitions for transcatheter mitral valve repair and replacement: part 2: endpoint definitions: A consensus document from the Mitral Valve Academic Research Consortium |
| Q36031027 | Combined spin- and gradient-echo perfusion-weighted imaging. |
| Q45066730 | Comparison of 10 TTP and Tmax estimation techniques for MR perfusion-diffusion mismatch quantification in acute stroke |
| Q36137646 | Comparison of Different Post-Processing Algorithms for Dynamic Susceptibility Contrast Perfusion Imaging of Cerebral Gliomas |
| Q33654744 | Comparison of partial volume effects in arterial and venous contrast curves in CT brain perfusion imaging |
| Q33973699 | Computed tomography and magnetic resonance perfusion imaging in ischemic stroke: definitions and thresholds |
| Q33517016 | Computed tomography in acute ischemic stroke |
| Q98894435 | Computed tomography perfusion imaging after aneurysmal subarachnoid hemorrhage can detect cerebral vasospasm and predict delayed cerebral ischemia after endovascular treatment |
| Q35193594 | Current concepts on magnetic resonance imaging (MRI) perfusion-diffusion assessment in acute ischaemic stroke: a review & an update for the clinicians |
| Q35669393 | Current status of endovascular stroke treatment |
| Q39700064 | DWI-FLAIR mismatch for the identification of patients with acute ischaemic stroke within 4·5 h of symptom onset (PRE-FLAIR): a multicentre observational study |
| Q34191350 | Defining an Acidosis-Based Ischemic Penumbra from pH-Weighted MRI |
| Q48938721 | Does perfusion computed tomography facilitate clinical decision making for thrombolysis in unselected acute patients with suspected ischaemic stroke? |
| Q35196043 | Effect of extended CT perfusion acquisition time on ischemic core and penumbra volume estimation in patients with acute ischemic stroke due to a large vessel occlusion |
| Q39530770 | Evaluating quantitative approaches to dynamic susceptibility contrast MRI among carotid endarterectomy patients. |
| Q37700002 | Evaluation of CT perfusion in the setting of cerebral ischemia: patterns and pitfalls |
| Q40339378 | Evaluation of diagnostic accuracy in CT perfusion analysis in moyamoya disease |
| Q44525751 | Evaluation of signal formation in local arterial input function measurements of dynamic susceptibility contrast MRI. |
| Q50558663 | Evaluation of skin exposure during cerebral CT perfusion studies on a phantom |
| Q41698859 | Exposing hidden truncation-related errors in acute stroke perfusion imaging. |
| Q38407939 | Global monitoring in the neurocritical care unit |
| Q33943055 | How well do blood flow imaging and collaterals on angiography predict brain at risk? |
| Q36317835 | Imaging Approaches to Stroke and Neurovascular Disease. |
| Q33732805 | Imaging Biomarkers for Intra-arterial Stroke Therapy. |
| Q96304875 | Imaging Ischemic and Hemorrhagic Disease of the Brain in Dogs |
| Q62715964 | Imaging Selection for Reperfusion Therapy in Acute Ischemic Stroke |
| Q30430085 | Imaging of acute ischemic stroke |
| Q33978760 | Imaging-based treatment selection for intravenous and intra-arterial stroke therapies: a comprehensive review |
| Q38170056 | Improving acute stroke management with computed tomography perfusion: a review of imaging basics and applications |
| Q34439773 | Industry-funded therapy studies: what is in the pipeline? |
| Q35339637 | Is CT-Based Perfusion and Collateral Imaging Sensitive to Time Since Stroke Onset? |
| Q48516522 | Low dose CT perfusion in acute ischemic stroke |
| Q46245121 | Low-dose CT perfusion with projection view sharing |
| Q33922434 | MR perfusion imaging in acute ischemic stroke. |
| Q30664619 | MRI of blood-brain barrier permeability in cerebral ischemia |
| Q59341181 | Machine Learning in Acute Ischemic Stroke Neuroimaging |
| Q42287040 | Magnetic Resonance Imaging Protocol for Stroke Onset Time Estimation in Permanent Cerebral Ischemia |
| Q37466197 | Malignant CTA collateral profile is highly specific for large admission DWI infarct core and poor outcome in acute stroke |
| Q37000897 | Management of Acute Hypertensive Response in Patients With Ischemic Stroke |
| Q34648114 | Methods and challenges in quantitative imaging biomarker development |
| Q37163896 | Mobile platform for treatment of stroke: A case study of tele-assistance |
| Q38770016 | Multimodal CT techniques for cerebrovascular and hemodynamic evaluation of ischemic stroke: occlusion, collaterals, and perfusion |
| Q64123010 | Multimodal MRI-Based Triage for Acute Stroke Therapy: Challenges and Progress |
| Q48941423 | Multimodal magnetic resonance imaging for assessing evolution of ischemic penumbra: a key translational medicine strategy to manage the risk of developing novel therapies for acute ischemic stroke |
| Q35870173 | Multiparametric magnetic resonance imaging of brain disorders. |
| Q92531483 | Neuroimaging in Randomized, Multi-Center Clinical Trials of Endovascular Treatment for Acute Ischemic Stroke: A Systematic Review |
| Q30428970 | Neuroimaging of cerebral ischemia and infarction |
| Q39147307 | Optimal Computed Tomographic Perfusion Scan Duration for Assessment of Acute Stroke Lesion Volumes. |
| Q46180277 | Performance and Predictive Value of a User-Independent Platform for CT Perfusion Analysis: Threshold-Derived Automated Systems Outperform Examiner-Driven Approaches in Outcome Prediction of Acute Ischemic Stroke. |
| Q30416198 | Perfusion MRI: the five most frequently asked clinical questions |
| Q37079090 | Perfusion computed tomography relative threshold values in definition of acute stroke lesions |
| Q53210064 | Perfusion-CT guided intravenous thrombolysis in patients with unknown-onset stroke: a randomized, double-blind, placebo-controlled, pilot feasibility trial. |
| Q35017281 | Pharmacological and non-pharmacological recanalization strategies in acute ischemic stroke |
| Q35660646 | Physiologic imaging in acute stroke: Patient selection. |
| Q36806422 | Predicting language improvement in acute stroke patients presenting with aphasia: a multivariate logistic model using location-weighted atlas-based analysis of admission CT perfusion scans. |
| Q33997366 | Pretreatment blood-brain barrier damage and post-treatment intracranial hemorrhage in patients receiving intravenous tissue-type plasminogen activator |
| Q48201145 | Protocol for the perfusion and angiography imaging sub-study of the Third International Stroke Trial (IST-3) of alteplase treatment within six-hours of acute ischemic stroke |
| Q43612670 | Quality of extracranial carotid evaluation with 256-section CT. |
| Q37524051 | Quantification of Serial Cerebral Blood Flow in Acute Stroke Using Arterial Spin Labeling |
| Q36324525 | Radiation dose evaluation in multidetector-row CT imaging for acute stroke with an anthropomorphic phantom |
| Q34465862 | Rapid identification of a major diffusion/perfusion mismatch in distal internal carotid artery or middle cerebral artery ischemic stroke |
| Q33613822 | Real-time adaptive sequential design for optimal acquisition of arterial spin labeling MRI data. |
| Q30416859 | Research and technology in neurocritical care |
| Q39061399 | Severe cerebral hypovolemia on perfusion CT and lower body weight are associated with parenchymal haemorrhage after thrombolysis. |
| Q43522060 | Simulation model for contrast agent dynamics in brain perfusion scans |
| Q30457215 | Standardization of Stroke Perfusion CT for Reperfusion Therapy |
| Q90741897 | Standardized acquisition and post-processing of dynamic susceptibility contrast perfusion in patients with brain tumors, cerebrovascular disease and dementia: comparability of post-processing software |
| Q30427189 | Stroke imaging research road map |
| Q39951803 | Susceptibility of Tmax to tracer delay on perfusion analysis: quantitative evaluation of various deconvolution algorithms using digital phantoms |
| Q42696917 | Tenecteplase versus alteplase before endovascular thrombectomy (EXTEND-IA TNK): A multicenter, randomized, controlled study |
| Q34332950 | The 39 steps: evading error and deciphering the secrets for accurate dynamic susceptibility contrast MRI. |
| Q36756953 | The Massachusetts General Hospital acute stroke imaging algorithm: an experience and evidence based approach |
| Q30427874 | The future of stroke imaging: what we need and how to get to it |
| Q34762984 | The vascular mean transit time: a surrogate for the penumbra flow threshold? |
| Q37418557 | Theoretic basis and technical implementations of CT perfusion in acute ischemic stroke, part 2: technical implementations |
| Q85203490 | Transcranial Ultrasound Perfusion Imaging and Perfusion-MRI—A Pilot Study on the Evaluation of Cerebral Perfusion in Severe Carotid Artery Stenosis |
| Q37507984 | Use of neuroimaging in acute stroke trials |
| Q35534175 | Validating a local Arterial Input Function method for improved perfusion quantification in stroke |
| Q35208012 | Vessel size imaging reveals pathological changes of microvessel density and size in acute ischemia |
| Q34369542 | Wake-up (or wake-up for) stroke: a treatable stroke |
| Q34038274 | Wake-up stroke: clinical and neuroimaging characteristics |
| Q83826734 | [Neurologic emergencies and multislice computed tomography] |
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