Melbourne Mobile Stroke Unit and Reperfusion Therapy
Stroke 51:922-930, Zhao, H.,et al, 2020
Machine Learning Approach to Identify Stroke Within 4.5 Hours
Stroke 51:860-866, Lee, H.,et al, 2020
Thrombolysis for Acute Ischemic Stroke in the Unwitnessed or Extended Therapeutic Time Window
Neurol 94:e1241-e1248, Tsivgoulis, G.,et al, 2020
Implementation of a Prehospital Stroke Triage System Using Symptom Severity and Teleconsultation in the Stockholm Stroke Triage Study
JAMA Neurol 77:691-699, Mazya, M.V.,et al, 2020
Lesion Age Imaging in Acute Stroke: Water Uptake in CT Versus DWI-FLAIR Mismatch
Ann Neurol 88:1144-1152, Broocks, G.,et al, 2020
Automated DWI analysis can identify patients within the thrombolysis time window of 4.5 hours
Neurol 90:e1570-e1577, Wouters, A.,et al, 2018
Intravenous Thrombolysis in Unwitnessed Stroke Onset: MR WITNESS Trial Results
Ann Neurol 83:980-993, Schwamm, L.H.,et al, 2018
Reduction in Time to Treatment in Prehospital Telemedicine Evaluation and Thrombolysis
Neurol 88:1305-1312, Taqui, A.,et al, 2017
Implementing a Mobile Stroke Unit Program in the United States
JAMA Neurol 72:229-234, Rajan, S.,et al, 2015
Effects of Golden Hour Thrombolysis
JAMA Neurol 72:25-30,9, Ebinger, M.,et al, 2015
Endovascular Therapy after Intravenous t-PA versus t-PA Alone for Stroke
NEJM 368:893-903,952, Broderick, J.P.,et al, 2013
A Case-Controlled Comparison of Thrombolysis Outcomes Between Wake-Up and Known Time of Onset Ischemic Stroke Patients
Stroke 44:2226-2231, Manawadu, D.,et al, 2013
A Pragmatic Approach Using Magnetic Resonance Imaging to Treat Ischemic Strokes of Unknown Onset Time in a Thrombolytic Trial
Stroke 43:2331-2335, Song, S.S.,et al, 2012
Fluid-Attenuated Inversion Recovery Evolution Within 12 Hours from Stroke Onset: A Reliable Tissue Clock?
Stroke 41:250-255, 197, Ebinger,M.,et al, 2010
Time to Treatment With Intravenous Alteplase and Outcome in Stroke: An Updated Pooled Analysis of ECASS, ATLANTIS, NINDS, and EPITHET trials
Lancet 375:1695-1703, 1667, Lees, K.R., et al, 2010
Use of MRI to Estimate the Therapeutic Window in Acute Stroke: Is Perfusion-Weighted Imaging/Diffusion-Weighted Imaging Mismatch an EPITHET for Salvageable Ischemic Brain Tissue?
Stroke 40:333-335, Toth,G. &Albers,G.W., 2009
MR Imaging-Based Decision in Thrombolytic Therapy for Stroke on Awakening: Report of 2 Cases
AJRN 29:1314-1316, Iosif,C.,et al., 2008
Comparison of CT Perfusion and Angiography and MRI in Selecting Stroke Patients for Acute Treatment
Neurol 68:694-697, Wintermark,M.,et al, 2007
Evaluation of the Clinical-Diffusion and Perfusion-Diffusion Mismatch Models in DEFUSE
Stroke 38:1826-1830,1718, Lansberg,M.G.,et al, 2007
MRI-Based and CT-Based Thrombolytic Therapy in Acute Stroke Within and Beyond Established Time Windows
Stroke 38:2640-2645, Schellinger,P.D.,et al, 2007
Intravenous Alteplase for Stroke: Beyond the Guidelines and in Particular Clinical Situations
Stroke 38:2612-2618, De Keyser,J.,et al, 2007
Perfusion CT Helps Decision Making for Thrombolysis When There is No Clear Time of Onset
JNNP 77:417-419, Hellier,K.D.,et al, 2006
Imaging-Guided Acute Ischemic Stroke Therapy: From "Time is Brain" to "Physiology is Brain"
AJNR 27:728-735, Gonzalez,R.G., 2006
Is Penumbral Imaging Useful for Extending the Treatment Window for Intravenous Tissue Plasminogen Activator?
Ann Neurol 60:499-501, Fisher,M., 2006
Predicting Abnormal Coagulation in Ischemic Stroke: Reducing Delay in rt-PA Use
Neurol 67:1665-1667, Gottesman,R.F.,et al, 2006
Magnetic Resonance Imaging Criteria for Thrombolysis in Acute Cerebral Infarct
Stroke 36:388-397, Hjort, N., et al, 2005
Safety and Efficacy of Intravenous Tissue Plasminogen Activator Stroke Treatment in the 3- to 6-Hour Window Using Multimodal Transcranial Doppler/MRI Selection Protocol
Stroke 36:602-606, Ribo,M., et al, 2005
Perfusion-Weighted Imaging/Diffusion-Weighted Imaging Mismatch on MRI Can Now be Used to Select Patients for Recombinant Tissue Plasminogen Activator Beyond 3 Hours
Stroke 36:1099-1100, 1100, Zivin,J.A., 2005
Perfusion-Weighted Imaging/Diffusion-Weighted Imaging Mismatch on MRI Can Now Be Used to Select Patients for Recombinant Tissue Plasminogen Activator Beyond 3 Hours
Stroke 36:1098-1099,1100, Schellinger,P.D. &Fiebach,J.B., 2005
MRI Screening Before Standard Tissue Plasminogen Activator Therapy Is Feasible and Safe
Stroke 36:1939-1943, Kang,D.-W.,et al, 2005
Perfusion Computed Tomography: Prediction of Final Infarct Extent and Stroke Outcome
Ann Neurol 58:672-679,661, Parsons,M.W.,et al, 2005
Are There Time-Dependent Differences in Diffusion and Perfusion Within the First 6 Hours After Stroke Onset?
Stroke 35:2099, Fiehler,J.,et al, 2004
Imaging-Based Decision Making in Thrombolytic Therapy for Ischemic Stroke
Stroke 34:575-583, Schellinger,P.D.,et al, 2003
Small Step or Giant Leap? Expanding the Acute Stroke Thrombolysis Window to 24 Hour
NEJM 391:273-275, Lee,V.H., 2024
Penumbra Detection in Acute Stroke with Perfusion Magnetic Resonance Imaging: Validation with 15 O-Positron Emission Tomography
Ann Neurol 85:875-886, Zaro-Weber, O.,et al, 2019
Extending Thrombolysis to 4.5-9 h and Wake-Up Stroke Using Perfusion Imaging: A Systematic Review and Meta-Analysis of Individual Patient Data
Lancet 394:139-147,97, Campbell, B.C.V.,et al, 2019
Time to Decision and Treatment with tPA (Tissue-Type Plasminogen Activator) Using Telemedicine Versus an Onboard Neurologist on a Mobile Stroke Unit
Stroke 49:1528-1530, Bowry, R.,et al, 2018
And Why Not Thrombolysis in the Ambulance (At Least for Some)?
Neurol 87:214-219, Rosenberg, G. & Steiner, I., 2016
Screening with MRI for Accurate and Rapid Stroke Treatment
Neurol 84:2438-2444, 2394, Shah, S.,et al, 2015
Prehospital Thrombolysis in Acute Stroke
Neurol 80:163-168, Weber, J.,et al, 2013
Endovascular Treatment for Acute Ischemic Stroke-Still Unproven
NEJM 368:952-955, Chimowitz,M., 2013
Results of Intravenous Thrombolysis within 4.5 to 6 Hours and Updated Results within 3 to 4.5 Hours of Onset of Acute Ischemic Stroke Recorded in the Safe Implementation of Treatment in Stroke International Stroke Thrombolysis Register (SITS-ISTR)
JAMA Neurol 70:837-844, Ahmed, N.,et al, 2013
Thrombolysis of Basilar Artery Occlusion: Impact of Baseline Ischemia and Time
Ann Neurol 73:688-694, Strbian, D.,et al, 2013
The Benefits and Harms of Intravenous Thrombolysis with Recombinant Tissue Plasminogen Activator within 6 h of Acute Ischaemic Stroke (the third international stroke trial IST-3): a Randomised Controlled Trial
Lancet 379: 2320, IST-3 collaborative group, 2012
Recombinant Tissue Plasminogen Activator for Acute Ischaemic Stroke: An Updated Systematic Review and Meta-Analysis
Lancet 379: 2364-2372, Wardlaw, J.M.,et al, 2012
Time is Brain(stem) in Basilar Artery Occlusion
Stroke 43:3003-3006, Vergouwen, M.D.I.,et al, 2012
Helicopter Transport of Stroke Patients and Its Influence on Thrombolysis Rates
Stroke 42:1295-1300, Reiner-Deitemyer, V.,et al, 2011
Effects of Extending the Time Window of Thrombolysis to 4.5 Hours Observations in the Swedish Stroke Register (Riks-Stroke)
Stroke 42:2492-2497, Asplund, K.,et al, 2011
Remote Supervision of IV-tPA for Acute Ischemic Stroke by Telemedicine or Telephone Before Transfer to a Regional Stroke Center Is Feasible and Safe
Stroke 41:e18-e24, Pervez,M.,et al, 2010