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3. Navigating Supply Chain Disruptions of Iodinated Contrast Agent for Neuroimaging and How Business Intelligence Can Help the Decision Process.

Author

Bammer R., Amukotuwa S.A., Bammer R., and Amukotuwa S.A.

Abstract

A recent coronavirus disease 2019-related shutdown of the main production facility of iohexol in China has led to massive shortages of iodinated contrast material across the globe. This shortage has also jeopardized neuroimaging. In this article, we describe remedies to reduce iodinated contrast material use for stroke imaging, which is its primary use in neuroimaging, that we have implemented in our hospital network.Copyright © 2022 by American Journal of Neuroradiology.

Published
2022

4. Iodinated contrast media shortage: Insights and guidance from two major public hospitals.

Author

Amukotuwa, SA, Bammer, R, Jackson, DM, Sutherland, T, Amukotuwa, SA, Bammer, R, Jackson, DM, and Sutherland, T

Abstract

Global shortage of iodinated contrast medium (ICM) is the latest health care ripple-effect from the COVID-19 pandemic. Some public hospitals in Australia have less than a week's supply. Strategies are, therefore, urgently needed to conserve ICM for those diagnostic tests and interventions, which are time-critical, and without which patients would suffer death or significant morbidity. A plan is also required to continue providing best possible care to patients in the worst-case scenario of exhausted ICM supplies. This document, by representatives from two major public hospitals, will provide some guidance that is tailored to the Australian context.

Published
2022

6. Comparison of Tmax values between full- and half-dose gadolinium perfusion studies.

Author

Marks M.P., Bammer R., Albers G.W., Christensen S., Amukotuwa S., Lansberg M.G., Kemp S., Heit J.J., Mlynash M., Marks M.P., Bammer R., Albers G.W., Christensen S., Amukotuwa S., Lansberg M.G., Kemp S., Heit J.J., and Mlynash M.

Abstract

AHA guidelines recommend use of perfusion imaging for patient selection in the 6-24 h window. Recently, the safety of gadolinium-based contrast agents for MR perfusion imaging has been questioned based on findings that gadolinium accumulates in brain tissue. Regulatory bodies have recommended to limit the use of gadolinium-based contrast agents where possible. Focusing specifically on the time to maximum of the tissue residue function (Tmax) parameter, used in DAWN and DEFUSE 3, we hypothesized that half-dose scans would yield a similar Tmax delay pattern to full-dose scans. We prospectively recruited 10 acute ischemic stroke patients imaged with two perfusion scans at their follow-up visit, one with a standard dose gadolinium followed by a half-dose injection a median of 7 min apart. The brain was parcellated into a grid of 3 x 3 regions and the mean of the difference in Tmax between the 3 x 3 regions on the half- and full-dose Tmax maps was 0.1 s (iqr 0.38 s). The fraction of brain tissue that differed by no more than +/-1 s was 93.7%. In patients with normal or modest Tmax delays, half-dose gadolinium appears to provide comparable Tmax measurements to those of full-dose scans.Copyright © The Author(s) 2020.

Published
2021

7. Distal Medium Vessel Occlusions Can Be Accurately and Rapidly Detected Using Tmax Maps.

Author

Amukotuwa S.A., Wu A., Zhou K., Page I., Brotchie P., Bammer R., Amukotuwa S.A., Wu A., Zhou K., Page I., Brotchie P., and Bammer R.

Abstract

Background and Purpose: Distal medium vessel occlusions (DMVOs) are increasingly considered for endovascular thrombectomy but are difficult to detect on computed tomography angiography (CTA). We aimed to determine whether time-to-maximum of tissue residue function (Tmax) maps, derived from CT perfusion, can be used as a triage screening tool to accurately and rapidly identify patients with DMVOs. Method(s): Consecutive code stroke patients who underwent multimodal CT were screened retrospectively. Two experienced readers evaluated all patients' Tmax maps in consensus for presence of delay in an arterial territory (territorial Tmax delay). The diagnostic accuracy of this surrogate for identifying DMVOs was determined using receiver-operating characteristic analysis. CTA, interpreted by 2 experienced neuroradiologists with access to all imaging data, served as the reference standard. Diagnostic performance of 4 other readers with different levels of experience for identifying DMVOs on Tmax versus CTA was also assessed. These readers independently assessed patients' Tmax maps and CTAs in 2 separate timed sessions, and areas under the receiver-operating characteristic curves were compared using the DeLong algorithm. The Wilcoxon signed-rank test was used to comparatively assess diagnostic speed. Result(s): Three hundred seventy-three code stroke patients (median age, 70 years; 56% male, 70 with a DMVO) were included. Territorial Tmax delay had a sensitivity of 100% (CI95, 94.9%-100%) and specificity of 87.8% (CI95, 83.6%-91.3%) for presence of a DMVO, yielding an area under the receiver-operating characteristic curves of 0.939 (CI95, 0.920-0.957). All 4 readers achieved sensitivity >95% and specificity >84% for detecting DMVOs using Tmax maps, with diagnostic accuracy (area under the receiver-operating characteristic curves) and speed that were significantly (P<0.001) higher than on CTA. Conclusion(s): Territorial Tmax delay had perfect sensitivity and high specificity

Published
2021

8. Time-to-Maximum of the Tissue Residue Function Improves Diagnostic Performance for Detecting Distal Vessel Occlusions on CT Angiography.

Author

Bammer R., Amukotuwa S.A., Wu A., Zhou K., Page I., Brotchie P., Bammer R., Amukotuwa S.A., Wu A., Zhou K., Page I., and Brotchie P.

Abstract

BACKGROUND AND PURPOSE: Detecting intracranial distal arterial occlusions on CTA is challenging but increasingly relevant to clinical decision-making. Our purpose was to determine whether the use of CTP-derived time-to-maximum of the tissue residue function maps improves diagnostic performance for detecting these occlusions. MATERIALS AND METHODS: Seventy consecutive patients with a distal arterial occlusion and 70 randomly selected controls who underwent multimodal CT with CTA and CTP for a suspected acute ischemic stroke were included in this retrospective study. Four readers with different levels of experience independently read the CTAs in 2 separate sessions, with and without time-to-maximum of the tissue residue function maps, recording the presence or absence of an occlusion, diagnostic confidence, and interpretation time. Accuracy for detecting distal occlusions was assessed using receiver operating characteristic analysis, and areas under curves were compared to assess whether accuracy improved with use of time-to-maximum of the tissue residue function. Changes in diagnostic confidence and interpretation time were assessed using the Wilcoxon signed rank test. RESULT(S): Mean sensitivity for detecting occlusions on CTA increased from 70.7% to 90.4% with use of time-to-maximum of the tissue residue function maps. Diagnostic accuracy improved significantly for the 4 readers (P, .001), with areas under the receiver operating characteristic curves increasing by 0.186, 0.136, 0.114, and 0.121, respectively. Diagnostic confidence and speed also significantly increased. CONCLUSION(S): All assessed metrics of diagnostic performance for detecting distal arterial occlusions improved with the use of time-to-maximum of the tissue residue function maps, encouraging their use to aid in interpretation of CTA by both experienced and inexperienced readers. These findings show the added diagnostic value of including CTP in the acute stroke imaging protocol.Copyright © 2021 Am

Published
2021

10. MR perfusion imaging: Half-dose gadolinium is half the quality

Author

Heit, JJ, Christensen, S, Mlynash, M, Marks, MP, Faizy, TD, Lansberg, MG, Wintermark, M, Bammer, R, Albers, GW, Heit, JJ, Christensen, S, Mlynash, M, Marks, MP, Faizy, TD, Lansberg, MG, Wintermark, M, Bammer, R, and Albers, GW

Abstract

BACKGROUND AND PURPOSE: Patients with acute ischemic stroke due to a large vessel occlusion (AIS-LVO) undergo emergent neuroimaging triage for thrombectomy treatment. MRI is often utilized for this evaluation, and cerebral magnetic resonance perfusion (MRP) imaging is used to identify the presence of the salvageable penumbra. To determine if dose reduction is feasible, we assessed whether a half-dose reduction in gadobenate provided sufficient MRP quality in AIS-LVO patients. METHODS: A prospective observational study of all patients presenting to our neurovascular referral center with AIS-LVO was performed. MRP was done with a half-dose of gadolinium (0.1 ml/kg body weight) over a period of 10 months. MRP images were compared to a consecutive historical cohort of full-dose gadolinium (0.2 ml/kg body weight) MRP studies and rated for image quality (poor, borderline, or good) that determined thrombectomy eligibility. RESULTS: Fifty-four half-dose and 127 full-dose patients were included. No differences in patient demographics or stroke presentation details were identified. MRP quality differed between half- and full-dose scans (p < 0.001), which were rated as poor (40.7% vs. 6.3%), borderline (18.5% vs. 26.8%), and good quality (40.7% vs. 66.9%), respectively. MRP image quality was then dichotomized into poor and sufficient (borderline and good) quality groups; half-dose studies were more likely to have poor quality compared to full-dose studies (40.7% vs. 6.3%; p < 0.001). CONCLUSIONS: Half-dose gadolinium administration for MRP in AIS-LVO patients results in poor image quality in a substantial number of studies. MR cerebral perfusion performed with half-dose gadolinium may adversely affect stroke patient triage for thrombectomy.

Published
2021

24. Fast Automatic Detection of Large Vessel Occlusions on CT Angiography.

Author

Dehkharghani S., Straka M., Bammer R., Amukotuwa S.A., Dehkharghani S., Straka M., Bammer R., and Amukotuwa S.A.

Abstract

Background and Purpose-Accurate and rapid detection of anterior circulation large vessel occlusion (LVO) is of paramount importance in patients with acute stroke due to the potentially rapid infarction of at-risk tissue and the limited therapeutic window for endovascular clot retrieval. Hence, the optimal threshold of a new, fully automated software-based approach for LVO detection was determined, and its diagnostic performance evaluated in a large cohort study. Methods-For this retrospective study, data were pooled from: 2 stroke trials, DEFUSE 2 (n=62; 07/08-09/11) and DEFUSE 3 (n=213; 05/17-05/18); a cohort of endovascular clot retrieval candidates (n=82; August 2, 2014-August 30, 2015) and normals (n=111; June 6, 2017-January 28, 2019) from a single quaternary center; and code stroke patients (n=501; January 1, 2017-December 31, 2018) from a single regional hospital. All CTAs were assessed by the automated algorithm. Consensus reads by 2 neuroradiologists served as the reference standard. ROC analysis was used to assess diagnostic performance of the algorithm for detection of (1) anterior circulation LVOs involving the intracranial internal carotid artery or M1 segment middle cerebral artery (M1-MCA); (2) anterior circulation LVOs and proximal M2 segment MCA (M2-MCA) occlusions; and (3) individual segment occlusions. Results-CTAs from 926 patients (median age 70 years, interquartile range: 58-80; 422 females) were analyzed. Three hundred ninety-five patients had an anterior circulation LVO or M2-MCA occlusion (National Institutes of Health Stroke Scale 14 [median], interquartile range: 9-19). Sensitivity and specificity were 97% and 74%, respectively, for LVO detection, and 95% and 79%, respectively, when M2 occlusions were included. On analysis by occlusion site, sensitivities were 90% (M2-MCA), 97% (M1-MCA), and 97% (intracranial internal carotid artery) with corresponding area-under-the-ROC-curves of 0.874 (M2), 0.962 (M1), and 0.997 (intracranial internal ca

Published
2020

25. Automated Detection of Intracranial Large Vessel Occlusions on Computed Tomography Angiography: A Single Center Experience.

Author

Chandra R.V., Dehkharghani S., Fischbein N.J., Bammer R., Smith H., Straka M., Amukotuwa S.A., Chandra R.V., Dehkharghani S., Fischbein N.J., Bammer R., Smith H., Straka M., and Amukotuwa S.A.

Abstract

Background and Purpose-Endovascular thrombectomy is highly effective in acute ischemic stroke patients with an anterior circulation large vessel occlusion (LVO), decreasing morbidity and mortality. Accurate and prompt identification of LVOs is imperative because these patients have large volumes of tissue that are at risk of infarction without timely reperfusion, and the treatment window is limited to 24 hours. We assessed the accuracy and speed of a commercially available fully automated LVO-detection tool in a cohort of patients presenting to a regional hospital with suspected stroke. Methods-Consecutive patients who underwent multimodal computed tomography with thin-slice computed tomography angiography between January 1, 2017 and December 31, 2018 for suspected acute ischemic stroke within 24 hours of onset were retrospectively identified. The multimodal computed tomographies were assessed by 2 neuroradiologists in consensus for the presence of an intracranial anterior circulation LVO or M2-segment middle cerebral artery occlusion (the reference standard). The patients' computed tomography angiographies were then processed using an automated LVO-detection algorithm (RAPID CTA). Receiver-operating characteristic analysis was used to determine sensitivity, specificity, and negative predictive value of the algorithm for detection of (1) an LVO and (2) either an LVO or M2-segment middle cerebral artery occlusion. Results-CTAs from 477 patients were analyzed (271 men and 206 women; median age, 71; IQR, 60-80). Median processing time was 158 seconds (IQR, 150-167 seconds). Seventy-eight patients had an anterior circulation LVO, and 28 had an isolated M2-segment middle cerebral artery occlusion. The sensitivity, negative predictive value, and specificity were 0.94, 0.98, and 0.76, respectively for detection of an intracranial LVO and 0.92, 0.97, and 0.81, respectively for detection of either an intracranial LVO or M2-segment middle cerebral artery occlusion. Conclusion

Published
2020

26. Where have our patients gone? The impact of COVID-19 on stroke imaging and intervention at an Australian stroke center.

Author

Amukotuwa S.A., Maingard J., Bammer R., Amukotuwa S.A., Maingard J., and Bammer R.

Abstract

Introduction: Australia has fortunately had a low prevalence coronavirus disease 2019 (COVID-19), and our healthcare system has not been overwhelmed. We aimed to determine whether, despite this, a decline in acute stroke presentations, imaging and intervention occurred during the pandemic at a busy stroke centre. Method(s): The number of 'code stroke' activations, multimodal CTs and endovascular clot retrievals (ECRs) performed during the pandemic period (3/1/2020-5/10/2020) at a large comprehensive stroke centre was compared against the pre-pandemic period (3/1/2019-1/31/2019) using Z-statistics. Year-on-year comparison of the number of patients with large vessel occlusions (LVOs) and ECRs performed per month was also made. Result(s): The number of 'code stroke' activations and patients undergoing multimodal CT per month decreased significantly (P < 0.0025) following lockdown on 29th March. The number of ECRs also decreased (P = 0.165). The nadir in the weekly number of CTs coincided with lockdown and the peak of new COVID-19 cases. The number of patients with LVOs and ECRs increased by 15% and 14%, respectively, in March but decreased by 55% and 48%, respectively, in April. Conclusion(s): The significant decrease in volume of 'code stroke' activations and acute stroke imaging following lockdown was accompanied by a concomitant decrease in patients with LVOs and ECRs. The decrease in imaging was therefore not driven purely by patients with mild strokes and stroke mimics, but also included those with severe strokes. Since Australia had a low prevalence of COVID-19, this observed decrease cannot be attributed to hospital congestion and is instead likely driven by patient fear.Copyright © 2020 The Royal Australian and New Zealand College of Radiologists

Published
2020

27. Comparison of T2*GRE and DSC-PWI for hemorrhage detection in acute ischemic stroke patients: Pooled analysis of the EPITHET, DEFUSE 2, and SENSE 3 stroke studies.

Author

Davis S., Bammer R., Donnan G.A., Amukotuwa S.A., Fischbein N.J., Albers G.W., Andre J.B., Davis S., Bammer R., Donnan G.A., Amukotuwa S.A., Fischbein N.J., Albers G.W., and Andre J.B.

Abstract

Aims: The objective of this study was to compare the diagnostic performance of the baseline pre-contrast images of dynamic susceptibility contrast perfusion-weighted imaging (DSC-PWI) with conventional T2*gradient recalled echo (GRE) imaging for detection of hemorrhage in acute ischemic stroke patients. Material(s) and Method(s): T2*GRE and DSC-PWI from 393 magnetic resonance imaging scans from 221 patients enrolled in three prospective stroke studies were independently evaluated by two readers blinded to clinical and other imaging data. Agreement between T2*GRE and DSC-PWI for the presence of hemorrhage, and acute hemorrhagic transformation, was assessed using the kappa statistic. Inter-reader agreement was also assessed using the kappa statistic. Result(s): Agreement between the baseline images of DSC-PWI and T2*GRE regarding the presence of hemorrhage was almost perfect (kreader 1 : 0.90, 95% confidence interval 0.86-0.95 and kreader 2 : 0.91, 95% confidence interval 0.87-0.96). Agreement between the sequences was still higher for detection of acute hemorrhagic transformation (kreader 1 : 0.94, 95% confidence interval 0.91-0.98 and kreader 2 : 0.95, 95% confidence interval 0.92-0.98). Inter-reader agreement for detection of hemorrhage was also almost perfect for both T2*GRE (k: 0.95, 95% confidence interval 0.91-0.98) and DSC-PWI (k: 0.96, 95% confidence interval 0.93-0.99). Acute hemorrhagic transformation detected on T2*GRE was missed on DSC-PWI by one or both readers in 5/393 (1.3%) scans. Conclusion(s): The almost perfect statistical agreement between DSC-PWI and conventional T2*GRE suggests that DSC-PWI is sufficient for hemorrhage screening prior to thrombolysis in stroke patients. T2*GRE can therefore be omitted when DSC-PWI is included, thereby shortening the acute ischemic stroke magnetic resonance imaging protocol and expediting treatment. Trial registration: ClinicalTrials.gov Identifier: NCT02586415.Copyright © 2019 World Stroke Organization.

Published
2020

28. Marker-free optical stereo motion tracking for in-bore MRI and PET-MRI application

Author

Kyme, AZ, Aksoy, M, Henry, DL, Bammer, R, Maclaren, J, Kyme, AZ, Aksoy, M, Henry, DL, Bammer, R, and Maclaren, J

Abstract

PURPOSE: Prospective motion correction is arguably the "silver bullet" solution for magnetic resonance imaging (MRI) studies impacted by motion, applicable to almost any pulse sequence and immune from the spin history artifacts introduced by a moving object. In prospective motion correction, the magnetic field gradients and radio frequency waveforms are adjusted in real time in response to measured head motion so as to maintain the head in a stationary reference frame relative to the scanner. Vital for this approach are accurate and rapidly sampled head pose measurements, which may be obtained optically using cameras. However, most optical methods are limited by the need to attach physical markers to the skin, which leads to decoupling of head and marker motion and reduces the effectiveness of correction. In this work we investigate the feasibility and initial performance of a stereo-optical motion tracking method which does not require any attached markers. METHODS: The method relies on detecting distinctive natural features or amplified features (using skin stamps) directly on the forehead in multiple camera views, and then deriving pose estimates via a 3D-2D registration between the skin features and a database of forehead landmarks. To demonstrate the feasibility and potential accuracy of the marker-free method for discrete (step-wise) head motion, we performed out-of-bore and in-bore experiments using robotically and manually controlled phantoms in addition to in-bore testing on human volunteers. We also developed a convenient out-of-bore test bed to benchmark and optimize the motion tracking performance. RESULTS: For out-of-bore phantom tests, the pose estimation accuracy (compared to robotic ground truth) was 0.14 mm and 0.23 degrees for incremental translation and rotation, respectively. For arbitrary motion, the pose accuracy obtained using the smallest forehead feature patch was equivalent to 0.21 ± 0.11 mm positional accuracy in the striatum. For in-bore

Published
2020

29. A within-coil optical prospective motion-correction system for brain imaging at 7T

Author

DiGiacomo, P, Maclaren, J, Aksoy, M, Tong, E, Carlson, M, Lanzman, B, Hashmi, S, Watkins, R, Rosenberg, J, Burns, B, Skloss, TW, Rettmann, D, Rutt, B, Bammer, R, Zeineh, M, DiGiacomo, P, Maclaren, J, Aksoy, M, Tong, E, Carlson, M, Lanzman, B, Hashmi, S, Watkins, R, Rosenberg, J, Burns, B, Skloss, TW, Rettmann, D, Rutt, B, Bammer, R, and Zeineh, M

Abstract

PURPOSE: Motion artifact limits the clinical translation of high-field MR. We present an optical prospective motion correction system for 7 Tesla MRI using a custom-built, within-coil camera to track an optical marker mounted on a subject. METHODS: The camera was constructed to fit between the transmit-receive coils with direct line of sight to a forehead-mounted marker, improving upon prior mouthpiece work at 7 Tesla MRI. We validated the system by acquiring a 3D-IR-FSPGR on a phantom with deliberate motion applied. The same 3D-IR-FSPGR and a 2D gradient echo were then acquired on 7 volunteers, with/without deliberate motion and with/without motion correction. Three neuroradiologists blindly assessed image quality. In 1 subject, an ultrahigh-resolution 2D gradient echo with 4 averages was acquired with motion correction. Four single-average acquisitions were then acquired serially, with the subject allowed to move between acquisitions. A fifth single-average 2D gradient echo was acquired following subject removal and reentry. RESULTS: In both the phantom and human subjects, deliberate and involuntary motion were well corrected. Despite marked levels of motion, high-quality images were produced without spurious artifacts. The quantitative ratings confirmed significant improvements in image quality in the absence and presence of deliberate motion across both acquisitions (P < .001). The system enabled ultrahigh-resolution visualization of the hippocampus during a long scan and robust alignment of serially acquired scans with interspersed movement. CONCLUSION: We demonstrate the use of a within-coil camera to perform optical prospective motion correction and ultrahigh-resolution imaging at 7 Tesla MRI. The setup does not require a mouthpiece, which could improve accessibility of motion correction during 7 Tesla MRI exams.

Published
2020

34. Computed Tomographic Perfusion to Predict Response to Recanalization in Ischemic Stroke

Author

Lansberg, MG, Christensen, S, Kemp, S, Mlynash, M, Mishra, N, Federau, C, Tsai, JP, Kim, S, Nogueria, RG, Jovin, T, Devlin, TG, Akhtar, N, Yavagal, DR, Haussen, D, Dehkharghani, S, Bammer, R, Straka, M, Zaharchuk, G, Marks, MP, Albers, GW, Lansberg, MG, Christensen, S, Kemp, S, Mlynash, M, Mishra, N, Federau, C, Tsai, JP, Kim, S, Nogueria, RG, Jovin, T, Devlin, TG, Akhtar, N, Yavagal, DR, Haussen, D, Dehkharghani, S, Bammer, R, Straka, M, Zaharchuk, G, Marks, MP, and Albers, GW

Abstract

OBJECTIVE: To assess the utility of computed tomographic (CT) perfusion for selection of patients for endovascular therapy up to 18 hours after symptom onset. METHODS: We conducted a multicenter cohort study of consecutive acute stroke patients scheduled to undergo endovascular therapy within 90 minutes after a baseline CT perfusion. Patients were classified as "target mismatch" if they had a small ischemic core and a large penumbra on their baseline CT perfusion. Reperfusion was defined as >50% reduction in critical hypoperfusion between the baseline CT perfusion and the 36-hour follow-up magnetic resonance imaging. RESULTS: Of the 201 patients enrolled, 190 patients with an adequate baseline CT perfusion study who underwent angiography were included (mean age = 66 years, median NIH Stroke Scale [NIHSS] = 16, median time from symptom onset to endovascular therapy = 5.2 hours). Rate of reperfusion was 89%. In patients with target mismatch (n = 131), reperfusion was associated with higher odds of favorable clinical response, defined as an improvement of ≥8 points on the NIHSS (83% vs 44%; p = 0.002, adjusted odds ratio [OR] = 6.6, 95% confidence interval [CI] = 2.1-20.9). This association did not differ between patients treated within 6 hours (OR = 6.4, 95% CI = 1.5-27.8) and those treated > 6 hours after symptom onset (OR = 13.7, 95% CI = 1.4-140). INTERPRETATION: The robust association between endovascular reperfusion and good outcome among patients with the CT perfusion target mismatch profile treated up to 18 hours after symptom onset supports a randomized trial of endovascular therapy in this patient population. Ann Neurol 2017;81:849-856.

Published
2017

35. A Comparison of Relative Time to Peak and Tmax for Mismatch-Based Patient Selection

Author

Wouters, A, Christensen, S, Straka, M, Mlynash, M, Liggins, J, Bammer, R, Thijs, V, Lemmens, R, Albers, GW, Lansberg, MG, Wouters, A, Christensen, S, Straka, M, Mlynash, M, Liggins, J, Bammer, R, Thijs, V, Lemmens, R, Albers, GW, and Lansberg, MG

Abstract

BACKGROUND AND PURPOSE: The perfusion-weighted imaging (PWI)/diffusion-weighted imaging (DWI) mismatch profile is used to select patients for endovascular treatment. A PWI map of Tmax is commonly used to identify tissue with critical hypoperfusion. A time to peak (TTP) map reflects similar hemodynamic properties with the added benefit that it does not require arterial input function (AIF) selection and deconvolution. We aimed to determine if TTP could substitute Tmax for mismatch categorization. METHODS: Imaging data of the DEFUSE 2 trial were reprocessed to generate relative TTP (rTTP) maps. We identified the rTTP threshold that yielded lesion volumes comparable to Tmax > 6 s and assessed the effect of reperfusion according to mismatch status, determined based on Tmax and rTTP volumes. RESULTS: Among 102 included cases, the Tmax > 6 s lesion volumes corresponded most closely with rTTP > 4.5 s lesion volumes: median absolute difference 6.9 mL (IQR: 2.3-13.0). There was 94% agreement in mismatch classification between Tmax and rTTP-based criteria. When mismatch was assessed by Tmax criteria, the odds ratio (OR) for favorable clinical response associated with reperfusion was 7.4 (95% CI 2.3-24.1) in patients with mismatch vs. 0.4 (95% CI 0.1-2.6) in patients without mismatch. When mismatch was assessed with rTTP criteria, these ORs were 7.2 (95% CI 2.3-22.2) and 0.3 (95% CI 0.1-2.2), respectively. CONCLUSION: rTTP yields lesion volumes that are comparable to Tmax and reliably identifies the PWI/DWI mismatch profile. Since rTTP is void of the problems associated with AIF selection, it is a suitable substitute for Tmax that could improve the robustness and reproducibility of mismatch classification in acute stroke.

Published
2017

37. Real-Time Correction of Rigid-Body-Motion-Induced Phase Errors for Diffusion-Weighted Steady State Free Precession Imaging

Author

O’Halloran, R, Aksoy, M, Aboussouan, E, Peterson, E, Van, A, and Bammer, R

Subjects
Brain, Reproducibility of Results, Image Enhancement, Sensitivity and Specificity, Article, Pattern Recognition, Automated, Motion, Diffusion Magnetic Resonance Imaging, Imaging, Three-Dimensional, Computer Systems, Image Interpretation, Computer-Assisted, Humans, Artifacts, Algorithms
Abstract

Diffusion contrast in diffusion-weighted steady-state free precession magnetic resonance imaging (MRI) is generated through the constructive addition of signal from many coherence pathways. Motion-induced phase causes destructive interference which results in loss of signal magnitude and diffusion contrast. In this work, a three-dimensional (3D) navigator-based real-time correction of the rigid body motion-induced phase errors is developed for diffusion-weighted steady-state free precession MRI.The efficacy of the real-time prospective correction method in preserving phase coherence of the steady state is tested in 3D phantom experiments and 3D scans of healthy human subjects.In nearly all experiments, the signal magnitude in images obtained with proposed prospective correction was higher than the signal magnitude in images obtained with no correction. In the human subjects, the mean magnitude signal in the data was up to 30% higher with prospective motion correction than without. Prospective correction never resulted in a decrease in mean signal magnitude in either the data or in the images.The proposed prospective motion correction method is shown to preserve the phase coherence of the steady state in diffusion-weighted steady-state free precession MRI, thus mitigating signal magnitude losses that would confound the desired diffusion contrast.

Published
2014

38. Plasticity of left perisylvian white-matter tracts is associated with individual differences in math learning

Author

Jolles, D, Wassermann, D, Chokhani, R, Richardson, J, Tenison, C, Bammer, R, Fuchs, L, Supekar, K, Menon, V, Jolles, D, Wassermann, D, Chokhani, R, Richardson, J, Tenison, C, Bammer, R, Fuchs, L, Supekar, K, and Menon, V

Abstract

Plasticity of white matter tracts is thought to be essential for cognitive development and academic skill acquisition in children. However, a dearth of high-quality diffusion tensor imaging (DTI) data measuring longitudinal changes with learning, as well as methodological difficulties in multi-time point tract identification have limited our ability to investigate plasticity of specific white matter tracts. Here, we examine learning-related changes of white matter tracts innervating inferior parietal, prefrontal and temporal regions following an intense 2-month math tutoring program. DTI data were acquired from 18 third grade children, both before and after tutoring. A novel fiber tracking algorithm based on a White Matter Query Language (WMQL) was used to identify three sections of the superior longitudinal fasciculus (SLF) linking frontal and parietal (SLF-FP), parietal and temporal (SLF-PT) and frontal and temporal (SLF-FT) cortices, from which we created child-specific probabilistic maps. The SLF-FP, SLF-FT, and SLF-PT tracts identified with the WMQL method were highly reliable across the two time points and showed close correspondence to tracts previously described in adults. Notably, individual differences in behavioral gains after 2 months of tutoring were specifically correlated with plasticity in the left SLF-FT tract. Our results extend previous findings of individual differences in white matter integrity, and provide important new insights into white matter plasticity related to math learning in childhood. More generally, our quantitative approach will be useful for future studies examining longitudinal changes in white matter integrity associated with cognitive skill development.

Published
2016

40. Inter-sequence and inter-imaging unit variability of diffusion tensor MR imaging histogram-derived metrics of the brain in healthy volunteers

Author

Cercignani, M., Bammer, R., Sormani, M. P., Fazekas, F., Massimo Filippi, Cercignani, M, Bammer, R, Sormani, Mp, Fazekas, F, and Filippi, Massimo

Subjects
Analysis of Variance, Diffusion Magnetic Resonance Imaging, Image Processing, Computer-Assisted, Brain, Humans, Multicenter Studies as Topic, Reproducibility of Results, Longitudinal Studies, Reference Standards
Abstract

BACKGROUND AND PURPOSE: Diffusion tensor MR imaging has the potential to improve our ability to monitor several neurologic conditions. As a preliminary step to the assessment of the role of diffusion tensor MR imaging in the context of longitudinal and multicenter studies, we evaluated the effect of sequence-, imaging unit-, and imaging-reimaging-induced variations on diffusion tensor MR imaging quantities derived from histogram analysis of a large portion of the central brain of healthy volunteers. METHODS: Each of eight healthy volunteers underwent imaging on two MR imaging units using three different pulsed gradient spin-echo single shot echo-planar pulse sequences (each of them having a different diffusion gradient scheme). Four additional healthy participants underwent imaging twice on the same imaging unit to assess imaging-reimaging variability. RESULTS: For mean diffusivity histograms, the differences between inter-sequence and inter-imaging unit coefficients of variation were significant for all the considered quantities with P values ranging from .003 to

Published
2003

41. Impact of diffusion-weighted imaging lesion volume on the success of endovascular reperfusion therapy

Author

Becquemont, Laurent, Benattar-Zibi, Linda, Bertin, Philippe, Berrut, Gilles, Corruble, Emmanuelle, Danchin, Nicolas, Delespierre, Tiba, Derumeaux, Geneviève, Falissard, Bruno, Forette, Francoise, Hanon, Olivier, Pasquier, Florence, Pinget, Michel, Ourabah, Rissane, Piedvache, Celine, Olivot, J.-M., Mosimann, P., Labreuche, J., Inoue, M., Meseguer, E., Desilles, J.-P., Rouchaud, A., Klein, I., Straka, M., Bammer, R., Mlynash, M., Amarenco, P., Albers, G., Mazighi, M., Service de génétique moléculaire, pharmacogénétique et hormonologie, Université Paris-Sud - Paris 11 (UP11)-Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Hôpital Bicêtre, Orange Labs [Cesson-Sévigné], Orange Labs, Laboratoire Motricité, Interactions, Performance (UPRES EA 4334), Université de Nantes (UN), Service de psychiatrie [Le Kremlin-Bicêtre], Hôpital Européen Georges Pompidou [APHP] (HEGP), Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Hôpitaux Universitaires Paris Ouest - Hôpitaux Universitaires Île de France Ouest (HUPO), Troubles du comportement alimentaire de l'adolescent (UMR_S 669), Université Paris-Sud - Paris 11 (UP11)-Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Cardiovasculaire, métabolisme, diabétologie et nutrition (CarMeN), Institut National de la Recherche Agronomique (INRA)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Hospices Civils de Lyon (HCL), Dpt Gériatrie [CHU Broca], AP-HP - Hôpital Cochin Broca Hôtel Dieu [Paris], Service de Neurologie [Lille], Hôpital Roger Salengro-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Diabète et thérapeutique : îlots pancréatiques et innovations technologiques (DIATHEC), Université de Strasbourg (UNISTRA), Hôpital Bicêtre, ARVALIS - Institut du végétal [Paris], AP-HP Hôpital Bicêtre (Le Kremlin-Bicêtre), ROTHSCHILD FOUNDATION, Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris-Sud - Paris 11 (UP11), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Bicêtre, Motricité, interactions, performance EA 4334 / Movement - Interactions - Performance (MIP), Le Mans Université (UM)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Université de Nantes - UFR des Sciences et Techniques des Activités Physiques et Sportives (UFR STAPS), Université de Nantes (UN)-Université de Nantes (UN), Université Paris-Sud - Paris 11 (UP11)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Bicêtre, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpitaux Universitaires Paris Ouest - Hôpitaux Universitaires Île de France Ouest (HUPO), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Hospices Civils de Lyon (HCL)-Institut National de la Santé et de la Recherche Médicale (INSERM), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Département de neurologie [Lille], Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Hospices Civils de Lyon (HCL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Institut National de la Recherche Agronomique (INRA), and Hôpital Roger Salengro [Lille]-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)

Subjects
Male, medicine.medical_specialty, Middle Cerebral Artery, medicine.medical_treatment, Arterial Occlusive Diseases, 030204 cardiovascular system & hematology, Severity of Illness Index, Article, Lesion, 03 medical and health sciences, 0302 clinical medicine, Fibrinolytic Agents, Interquartile range, Modified Rankin Scale, medicine.artery, Medicine, Humans, Thrombolytic Therapy, cardiovascular diseases, Prospective Studies, Registries, Stroke, ComputingMilieux_MISCELLANEOUS, Aged, Advanced and Specialized Nursing, Aged, 80 and over, business.industry, Thrombolysis, Middle Aged, medicine.disease, Diffusion Magnetic Resonance Imaging, Treatment Outcome, Tissue Plasminogen Activator, Middle cerebral artery, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Female, Neurology (clinical), Radiology, Internal carotid artery, medicine.symptom, Cardiology and Cardiovascular Medicine, business, 030217 neurology & neurosurgery, Fibrinolytic agent, Carotid Artery, Internal
Abstract

Background and Purpose— Diffusion-weighted imaging (DWI) lesion volume is associated with poor outcome after thrombolysis, and it is unclear whether endovascular therapies are beneficial for large DWI lesion. Our aim was to assess the impact of pretreatment DWI lesion volume on outcomes after endovascular therapy, with a special emphasis on patients with complete recanalization. Methods— We analyzed data collected between April 2007 and November 2011 in a prospective clinical registry. All acute ischemic stroke patients with complete occlusion of internal carotid artery or middle cerebral artery treated by endovascular therapy were included. DWI lesion volumes were measured by the RAPID software. Favorable outcome was defined by modified Rankin Scale of 0 to 2 at 90 days. Results— A total of 139 acute ischemic stroke patients were included. Median DWI lesion volume was 14 cc (interquartile range, 5–43) after a median onset time to imaging of 110 minutes (interquartile range, 77–178). Higher volume was associated with less favorable outcome (adjusted odds ratio, 0.55; 95% confidence interval, 0.31–0.96). A complete recanalization was achieved in 65 (47%) patients after a median onset time of 238 minutes (interquartile range, 206–285). After adjustment for volume, complete recanalization was associated with more favorable outcome (adjusted odds ratio, 6.32; 95% confidence interval, 2.90–13.78). After stratification of volume by tertiles, complete recanalization was similarly associated with favorable outcome in the upper 2 tertiles ( P Conclusions— Our results emphasize the importance of initial DWI volume and recanalization on clinical outcome after endovascular treatment. Large DWI lesions may still benefit from recanalization in selected patients.

Published
2013
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42. Acute Stroke Imaging Research Roadmap II

Author

Powers, W. J., Fiebach, J. B., Wintermark, M., Ostergaard, L., Bammer, R., Alexandrov, A. V., Hacke, W., Kidwell, C. S., Schellinger, P., Furie, K. L., Fisher, M., Eastwood, J. D., Alger, J. R., Liebeskind, D. S., Derdeyn, C. P., Sorensen, A. G., Lees, K. R., Provenzale, J., Wardlaw, J., Koroshetz, W., Donnan, G. A., Davis, S., Wu, O., Silbergleit, R., Albers, G. W., Kloska, S. P., Kohrmann, M., Lev, M. H., Goldmakher, G. V., Baron, J. C., Lee, T. Y., and Demaerschalk, B. M.

Abstract

The recent “Advanced Neuroimaging for Acute Stroke Treatment” meeting on September 7 and 8, 2007 in Washington DC, brought together stroke neurologists, neuroradiologists, emergency physicians, neuroimaging research scientists, members of the National Institute of Neurological Disorders and Stroke (NINDS), the National Institute of Biomedical Imaging and Bioengineering (NIBIB), industry representatives, and members of the US Food and Drug Administration (FDA) to discuss the role of advanced neuroimaging in acute stroke treatment. The goals of the meeting were to assess state-of-the-art practice in terms of acute stroke imaging research and to propose specific recommendations regarding: (1) the standardization of perfusion and penumbral imaging techniques, (2) the validation of the accuracy and clinical utility of imaging markers of the ischemic penumbra, (3) the validation of imaging biomarkers relevant to clinical outcomes, and (4) the creation of a central repository to achieve these goals. The present article summarizes these recommendations and examines practical steps to achieve them.

Published
2013
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43. 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

Author

Dehkharghani, S., primary, Bammer, R., additional, Straka, M., additional, Albin, L.S., additional, Kass-Hout, O., additional, Allen, J.W., additional, Rangaraju, S., additional, Qiu, D., additional, Winningham, M.J., additional, and Nahab, F., additional

Published
2015
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44. Acute stroke imaging research roadmap

Author

Wintermark, M., Albers, G.W., Alexandrov, A.V., Alger, J.R., Bammer, R., Baron, J.-C., Davis, S., Demaerschalk, B.M., Derdeyn, C.P., Donnan, G.A., Eastwood, J.D., Fiebach, J.B., Fisher, M., Furie, K.L., Goldmakher, G.V., Hacke, W., Kidwell, C.S., Kloska, S.P., Kohrmann, M., Koroshetz, W., Lee, T.Y., and Lees, K.R.

Published
2008

45. Reliability of brain volume measurements: A test-retest dataset

Author

Maclaren, J, Han, Z, Vos, SB, Fischbein, N, Bammer, R, Maclaren, J, Han, Z, Vos, SB, Fischbein, N, and Bammer, R

Abstract

Evaluation of neurodegenerative disease progression may be assisted by quantification of the volume of structures in the human brain using magnetic resonance imaging (MRI). Automated segmentation software has improved the feasibility of this approach, but often the reliability of measurements is uncertain. We have established a unique dataset to assess the repeatability of brain segmentation and analysis methods. We acquired 120 T1-weighted volumes from 3 subjects (40 volumes/subject) in 20 sessions spanning 31 days, using the protocol recommended by the Alzheimer's Disease Neuroimaging Initiative (ADNI). Each subject was scanned twice within each session, with repositioning between the two scans, allowing determination of test-retest reliability both within a single session (intra-session) and from day to day (inter-session). To demonstrate the application of the dataset, all 3D volumes were processed using FreeSurfer v5.1. The coefficient of variation of volumetric measurements was between 1.6% (caudate) and 6.1% (thalamus). Inter-session variability exceeded intra-session variability for lateral ventricle volume (P<0.0001), indicating that ventricle volume in the subjects varied between days.

Published
2014

47. Acute stroke imaging research roadmap II

Author

Wintermark, M. Albers, G.W. Broderick, J.P. Demchuk, A.M. Fiebach, J.B. Fiehler, J. Grotta, J.C. Houser, G. Jovin, T.G. Lees, K.R. Lev, M.H. Liebeskind, D.S. Luby, M. Muir, K.W. Parsons, M.W. Von Kummer, R. Wardlaw, J.M. Wu, O. Yoo, A.J. Alexandrov, A.V. Alger, J.R. Aviv, R.I. Bammer, R. Baron, J.-C. Calamante, F. Campbell, B.C.V. Carpenter, T.C. Christensen, S. Copen, W.A. Derdeyn, C.P. Haley Jr., E.C. Khatri, P. Kudo, K. Lansberg, M.G. Latour, L.L. Lee, T.-Y. Leigh, R. Lin, W. Lyden, P. Mair, G. Menon, B.K. Michel, P. Mikulik, R. Nogueira, R.G. Ostergaard, L. Pedraza, S. Riedel, C.H. Rowley, H.A. Sanelli, P.C. Sasaki, M. Saver, J.L. Schaefer, P.W. Schellinger, P.D. Tsivgoulis, G. Wechsler, L.R. White, P.M. Zaharchuk, G. Zaidat, O.O. Davis, S.M. Donnan, G.A. Furlan, A.J. Hacke, W. Kang, D.-W. Kidwell, C. Thijs, V.N. Thomalla, G. Warach, S.J. and Wintermark, M. Albers, G.W. Broderick, J.P. Demchuk, A.M. Fiebach, J.B. Fiehler, J. Grotta, J.C. Houser, G. Jovin, T.G. Lees, K.R. Lev, M.H. Liebeskind, D.S. Luby, M. Muir, K.W. Parsons, M.W. Von Kummer, R. Wardlaw, J.M. Wu, O. Yoo, A.J. Alexandrov, A.V. Alger, J.R. Aviv, R.I. Bammer, R. Baron, J.-C. Calamante, F. Campbell, B.C.V. Carpenter, T.C. Christensen, S. Copen, W.A. Derdeyn, C.P. Haley Jr., E.C. Khatri, P. Kudo, K. Lansberg, M.G. Latour, L.L. Lee, T.-Y. Leigh, R. Lin, W. Lyden, P. Mair, G. Menon, B.K. Michel, P. Mikulik, R. Nogueira, R.G. Ostergaard, L. Pedraza, S. Riedel, C.H. Rowley, H.A. Sanelli, P.C. Sasaki, M. Saver, J.L. Schaefer, P.W. Schellinger, P.D. Tsivgoulis, G. Wechsler, L.R. White, P.M. Zaharchuk, G. Zaidat, O.O. Davis, S.M. Donnan, G.A. Furlan, A.J. Hacke, W. Kang, D.-W. Kidwell, C. Thijs, V.N. Thomalla, G. Warach, S.J.

Published
2013

48. The effects of alteplase 3 to 6 hours after stroke in the epithet-defuse combined dataset: Post Hoc case-control study.

Author

Davis S.M., Bammer R., Olivot J.-M., Desmond P.M., Albers G.W., Donnan G.A., Ogata T., Christensen S., Nagakane Y., Ma H., Campbell B.C.V., Churilov L., Lansberg M.G., Straka M., De Silva D.A., Mlynash M., Davis S.M., Bammer R., Olivot J.-M., Desmond P.M., Albers G.W., Donnan G.A., Ogata T., Christensen S., Nagakane Y., Ma H., Campbell B.C.V., Churilov L., Lansberg M.G., Straka M., De Silva D.A., and Mlynash M.

Abstract

Background and Purpose-: Two phase 2 studies of alteplase in acute ischemic stroke 3 to 6 hours after onset, Echoplanar Imaging Thrombolytic Evaluation Trial (EPITHET; a randomized, controlled, double-blinded trial), and Diffusion and Perfusion Imaging Evaluation for Understanding Stroke Evolution Study (DEFUSE; open-label, treatment only) using MR imaging-based outcomes have been conducted. We have pooled individual patient data from these to assess the response to alteplase. The primary hypothesis was that alteplase would significantly attenuate infarct growth compared with placebo in mismatch-selected patients using coregistration techniques. Methods-: The EPITHET-DEFUSE study datasets were pooled while retaining the original inclusion and exclusion criteria. Significant hypoperfusion was defined as a Tmax delay >6 seconds), and coregistration techniques were used to define MR diffusion-weighted imaging/perfusion-weighted imaging mismatch. Neuroimaging, parameters including reperfusion, recanalization, symptomatic intracerebral hemorrhage, and clinical outcomes were assessed. Alteplase and placebo groups were compared for the primary outcome of infarct growth as well for secondary outcome measures. Results-: From 165 patients with adequate MR scans in the EPITHET-DEFUSE pooled data, 121 patients (73.3%) were found to have mismatch. For the primary outcome analysis, 60 patients received alteplase and 41 placebo. Mismatch patients receiving alteplase had significantly attenuated infarct growth compared with placebo (P=0.025). The reperfusion rate was also increased (62.7% vs 31.7%; P=0.003). Mortality and clinical outcomes were not different between groups. Conclusions-: The data provide further evidence that alteplase significantly attenuates infarct growth and increases reperfusion compared with placebo in the 3-to 6-hour time window in patients selected based on MR penumbral imaging. Clinical Trial Registration-: URL: http://www.clinicaltrials. gov. Unique ident

Published
2013

49. Magnetic Resonance Imaging Profile of Blood-Brain Barrier Injury in Patients With Acute Intracerebral Hemorrhage

Author

Aksoy, D, Bammer, R, Mlynash, M, Venkatasubramanian, C, Eyngorn, I, Snider, RW, Gupta, SN, Narayana, R, Fischbein, N, Wijman, CAC, Aksoy, D, Bammer, R, Mlynash, M, Venkatasubramanian, C, Eyngorn, I, Snider, RW, Gupta, SN, Narayana, R, Fischbein, N, and Wijman, CAC

Abstract

BACKGROUND: Spontaneous intracerebral hemorrhage (ICH) is associated with blood-brain barrier (BBB) injury, which is a poorly understood factor in ICH pathogenesis, potentially contributing to edema formation and perihematomal tissue injury. We aimed to assess and quantify BBB permeability following human spontaneous ICH using dynamic contrast-enhanced magnetic resonance imaging (DCE MRI). We also investigated whether hematoma size or location affected the amount of BBB leakage. METHODS AND RESULTS: Twenty-five prospectively enrolled patients from the Diagnostic Accuracy of MRI in Spontaneous intracerebral Hemorrhage (DASH) study were examined using DCE MRI at 1 week after symptom onset. Contrast agent dynamics in the brain tissue and general tracer kinetic modeling were used to estimate the forward leakage rate (K(trans)) in regions of interest (ROI) in and surrounding the hematoma and in contralateral mirror-image locations (control ROI). In all patients BBB permeability was significantly increased in the brain tissue immediately adjacent to the hematoma, that is, the hematoma rim, compared to the contralateral mirror ROI (P<0.0001). Large hematomas (>30 mL) had higher K(trans) values than small hematomas (P<0.005). K(trans) values of lobar hemorrhages were significantly higher than the K(trans) values of deep hemorrhages (P<0.005), independent of hematoma volume. Higher K(trans) values were associated with larger edema volumes. CONCLUSIONS: BBB leakage in the brain tissue immediately bordering the hematoma can be measured and quantified by DCE MRI in human ICH. BBB leakage at 1 week is greater in larger hematomas as well as in hematomas in lobar locations and is associated with larger edema volumes.

Published
2013

50. Advanced imaging improves prediction of hemorrhage after stroke thrombolysis

Author

Campbell, BCV, Christensen, S, Parsons, MW, Churilov, L, Desmond, PM, Barber, PA, Butcher, KS, Levi, CR, De Silva, DA, Lansberg, MG, Mlynash, M, Olivot, J-M, Straka, M, Bammer, R, Albers, GW, Donnan, GA, Davis, SM, Campbell, BCV, Christensen, S, Parsons, MW, Churilov, L, Desmond, PM, Barber, PA, Butcher, KS, Levi, CR, De Silva, DA, Lansberg, MG, Mlynash, M, Olivot, J-M, Straka, M, Bammer, R, Albers, GW, Donnan, GA, and Davis, SM

Abstract

OBJECTIVE: Very low cerebral blood volume (VLCBV), diffusion, and hypoperfusion lesion volumes have been proposed as predictors of hemorrhagic transformation following stroke thrombolysis. We aimed to compare these parameters, validate VLCBV in an independent cohort using DEFUSE study data, and investigate the interaction of VLCBV with regional reperfusion. METHODS: The EPITHET and DEFUSE studies obtained diffusion and perfusion magnetic resonance imaging (MRI) in patients 3 to 6 hours from onset of ischemic stroke. EPITHET randomized patients to tissue plasminogen activator (tPA) or placebo, and all DEFUSE patients received tPA. VLCBV was defined as cerebral blood volume<2.5th percentile of brain contralateral to the infarct. Parenchymal hematoma (PH) was defined using European Cooperative Acute Stroke Study criteria. Reperfusion was assessed using subacute perfusion MRI coregistered to baseline imaging. RESULTS: In DEFUSE, 69 patients were analyzed, including 9 who developed PH. The >2 ml VLCBV threshold defined in EPITHET predicted PH with 100% sensitivity, 72% specificity, 35% positive predictive value, and 100% negative predictive value. Pooling EPITHET and DEFUSE (163 patients, including 23 with PH), regression models using VLCBV (p<0.001) and tPA (p=0.02) predicted PH independent of clinical factors better than models using diffusion or time to maximum>8 seconds lesion volumes. Excluding VLCBV in regions without reperfusion improved specificity from 61 to 78% in the pooled analysis. INTERPRETATION: VLCBV predicts PH after stroke thrombolysis and appears to be a more powerful predictor than baseline diffusion or hypoperfusion lesion volumes. Reperfusion of regions of VLCBV is strongly associated with post-thrombolysis PH. VLCBV may be clinically useful to identify patients at significant risk of hemorrhage following reperfusion.

Published
2013

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