Contrast Enhanced Ultrasound Imaging for Cerebral Perfusion Measurement in Cerebral Vasospasm After SAH
NCT ID: NCT02907879
Last Updated: 2021-04-23
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
TERMINATED
Total Enrollment
54 participants
Study Classification
OBSERVATIONAL
Study Start Date
2013-07-31
Study Completion Date
2021-04-30
Brief Summary
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The objective of the study is to assess brain tissue perfusion by ultrasound perfusion imaging. Specifically
* to diagnose brain tissue hypoperfusion due to CVS with contrast enhanced UPI and to assess specificity and sensitivity, and predictive values for detection of brain tissue hypoperfusion leading to infarction
* to test whether treatment-effects by induced hypertension, balloon-dilatation, or intra-arterial nimodipine infusion can be detected and quantified by UPI
* to diagnose brain tissue hypoperfusion due to CVS with contrast enhanced UPI and to assess specificity and sensitivity, and predictive values for detection of brain tissue hypoperfusion leading to infarction
* to test whether treatment-effects by induced hypertension, balloon-dilatation, or intra-arterial nimodipine infusion can be detected and quantified by UPI
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Detailed Description
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The aim of the study is to assess brain tissue perfusion by ultrasound perfusion imaging (UPI).
The specific aim is to diagnose brain tissue hypoperfusion leading to infarction due to CVS with ultrasound perfusion imaging (UPI) and to correlate it with the gold standard of diagnosis of brain infarcts, i.e. with MRI and CT. According to contrast enhanced UPI brain tissue will be classified as (1) normal, i.e. not leading to tissue infarction, (2) as hypoperfused, i.e. functionally impaired and prone to DIND and to infarction, or (3) non-perfused. Thus, temporary hypoperfusion that may be resolved by therapy or spontaneously, not leading to tissue infarction shall be assessed. This strategy will lead to guiding therapy by UPI.
Questionnaire:
* to assess cerebral perfusion in patients with SAH by contrast enhanced UPI
* to assess specificity and sensitivity, as well as positive and negative predictive values of contrast enhanced UPI for detection of brain tissue misery perfusion leading to infarction
* to evaluate feasibility and practicability of repeated bed-side assessments of UPI
* to test whether treatment-effects like induced hypertension, balloon-dilation, or intra-arterial nimodipine infusion can be detected and quantified by contrast enhanced UPI
* to analyze whether TCD or contrast enhanced UPI is superior for screening of CVS and detection of cerebral infarcts (vessel vs. tissue assessment)
* to correlate contrast enhanced UPI with perfusion measurements by CT-perfusion imaging
Ultrasound perfusion imaging (UPI) is able to detect cerebral hypoperfusion that can result in cerebral infarction in a clinical setting. As reference the incidence of cerebral infarcts is assessed by CT- and MR-imaging and cerebral perfusion is analyzed by CT-perfusion (CTP) imaging.
The day of the ictus (SAH) is defined as day 0. The ultrasound examinations will be performed at
* Day 0-4: one baseline UPI study will be performed. This time period (0-4) is set as baseline, because this baseline investigation will be performed before vasospasm develops. The current policy of early aneurysm treatment results in clipping or coiling of patients within 24-48 hours. The relevant phase of CVS, however, starts on day 4 to 5 after the ictus. The already established routine protocol with early CT and CTP imaging after aneurysm treatment allows differentiation between infarcts due to the procedure of aneurysm clipping or coiling, bleeding, edema, or surgical contusions from cerebral infarcts due to CVS that develop later on. This early routine CT imaging includes a CT-perfusion study on post-op day 1, serving as reference for the ultrasound perfusion measurements.
* Day 5-14: during the term with the highest risk for CVS, a UPI study will be performed every second day.
* Several events trigger additional UPI studies:
* angiography (scheduled or emergency)
* endovascular intervention (angioplasty or intraarterial nimodipine infusion)
* CT or MRI study with new infarcts
* Development of DIND or reversal of DIND
* in case of placement of an intracerebral microprobe (rCBF or ptiO2) an UPI study will be performed when significant changes (rCBF drop below 20ml/100g/min or below 60% of baseline, ptiO2 drop below 10mmHg or below 60% of baseline) occur.
Currently all patients are scanned by MRI and or CT several times in the course of the disease. Each imaging study serves as reference for UPI.
During day 5-14 high risk patients (Fisher grade 3, or TCD \> 150 cm/sec, or new deficit) receive one CT-perfusion study between day 7 and 11 (period of highest risk).
During day 5-14 patients with proven CVS (angiography) will receive two CT-perfusion studies, one at day 7, and one at day 11, or at the time when new deficits or infarcts evolve. Additional about 20% of patients will get MRI including perfusion weighted imaging (PWI). In these patients misery perfusion as detected by PWI serves as reference for UPI.
The actual UPI measurement takes place at the bedside, is performed by the study physician, and takes about 15 -30 minutes.
The trial duration per patient is 14 days during the initial hospitalization.
The specific aim is to diagnose brain tissue hypoperfusion leading to infarction due to CVS with ultrasound perfusion imaging (UPI) and to correlate it with the gold standard of diagnosis of brain infarcts, i.e. with MRI and CT. According to contrast enhanced UPI brain tissue will be classified as (1) normal, i.e. not leading to tissue infarction, (2) as hypoperfused, i.e. functionally impaired and prone to DIND and to infarction, or (3) non-perfused. Thus, temporary hypoperfusion that may be resolved by therapy or spontaneously, not leading to tissue infarction shall be assessed. This strategy will lead to guiding therapy by UPI.
Questionnaire:
* to assess cerebral perfusion in patients with SAH by contrast enhanced UPI
* to assess specificity and sensitivity, as well as positive and negative predictive values of contrast enhanced UPI for detection of brain tissue misery perfusion leading to infarction
* to evaluate feasibility and practicability of repeated bed-side assessments of UPI
* to test whether treatment-effects like induced hypertension, balloon-dilation, or intra-arterial nimodipine infusion can be detected and quantified by contrast enhanced UPI
* to analyze whether TCD or contrast enhanced UPI is superior for screening of CVS and detection of cerebral infarcts (vessel vs. tissue assessment)
* to correlate contrast enhanced UPI with perfusion measurements by CT-perfusion imaging
Ultrasound perfusion imaging (UPI) is able to detect cerebral hypoperfusion that can result in cerebral infarction in a clinical setting. As reference the incidence of cerebral infarcts is assessed by CT- and MR-imaging and cerebral perfusion is analyzed by CT-perfusion (CTP) imaging.
The day of the ictus (SAH) is defined as day 0. The ultrasound examinations will be performed at
* Day 0-4: one baseline UPI study will be performed. This time period (0-4) is set as baseline, because this baseline investigation will be performed before vasospasm develops. The current policy of early aneurysm treatment results in clipping or coiling of patients within 24-48 hours. The relevant phase of CVS, however, starts on day 4 to 5 after the ictus. The already established routine protocol with early CT and CTP imaging after aneurysm treatment allows differentiation between infarcts due to the procedure of aneurysm clipping or coiling, bleeding, edema, or surgical contusions from cerebral infarcts due to CVS that develop later on. This early routine CT imaging includes a CT-perfusion study on post-op day 1, serving as reference for the ultrasound perfusion measurements.
* Day 5-14: during the term with the highest risk for CVS, a UPI study will be performed every second day.
* Several events trigger additional UPI studies:
* angiography (scheduled or emergency)
* endovascular intervention (angioplasty or intraarterial nimodipine infusion)
* CT or MRI study with new infarcts
* Development of DIND or reversal of DIND
* in case of placement of an intracerebral microprobe (rCBF or ptiO2) an UPI study will be performed when significant changes (rCBF drop below 20ml/100g/min or below 60% of baseline, ptiO2 drop below 10mmHg or below 60% of baseline) occur.
Currently all patients are scanned by MRI and or CT several times in the course of the disease. Each imaging study serves as reference for UPI.
During day 5-14 high risk patients (Fisher grade 3, or TCD \> 150 cm/sec, or new deficit) receive one CT-perfusion study between day 7 and 11 (period of highest risk).
During day 5-14 patients with proven CVS (angiography) will receive two CT-perfusion studies, one at day 7, and one at day 11, or at the time when new deficits or infarcts evolve. Additional about 20% of patients will get MRI including perfusion weighted imaging (PWI). In these patients misery perfusion as detected by PWI serves as reference for UPI.
The actual UPI measurement takes place at the bedside, is performed by the study physician, and takes about 15 -30 minutes.
The trial duration per patient is 14 days during the initial hospitalization.
Conditions
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Subarachnoid Hemorrhage
Study Design
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Observational Model Type
COHORT
Study Time Perspective
PROSPECTIVE
Study Groups
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Ultrasound perfusion imaging
Measuring methods of UPI with phase inversion harmonic imaging
No interventions assigned to this group
Eligibility Criteria
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Inclusion Criteria
* Proven SAH (CT or lumbar puncture)
* Proven aneurysm (digital subtraction angiography or CT-angiography)
* Age \>18
* Informed consent of patient or relative
* Proven aneurysm (digital subtraction angiography or CT-angiography)
* Age \>18
* Informed consent of patient or relative
Exclusion Criteria
* Pregnancy and breast feeding
* Acute coronary syndromes, severe ischemic heart disease (requiring revascularisation), severe aortic and mitral valve disease, severe congestive heart failure (NYHA \>III/IV)
* Severe pulmonary or renal dysfunction
* Known allergy or adverse reaction to contrast material
* Acute coronary syndromes, severe ischemic heart disease (requiring revascularisation), severe aortic and mitral valve disease, severe congestive heart failure (NYHA \>III/IV)
* Severe pulmonary or renal dysfunction
* Known allergy or adverse reaction to contrast material
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Insel Gruppe AG, University Hospital Bern
OTHER
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Principal Investigators
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Jürgen Beck, MD
Role: PRINCIPAL_INVESTIGATOR
Insel Gruppe AG, University Hospital Bern
Locations
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Department of Neurosurgery, University Hospital Bern
Bern, , Switzerland
Site Status
Countries
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Switzerland
References
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Reitmeir R, Eyding J, Oertel MF, Wiest R, Gralla J, Fischer U, Giquel PY, Weber S, Raabe A, Mattle HP, Z'Graggen WJ, Beck J. Is ultrasound perfusion imaging capable of detecting mismatch? A proof-of-concept study in acute stroke patients. J Cereb Blood Flow Metab. 2017 Apr;37(4):1517-1526. doi: 10.1177/0271678X16657574. Epub 2016 Jan 1.
Reference Type
BACKGROUND
de Rooij NK, Linn FH, van der Plas JA, Algra A, Rinkel GJ. Incidence of subarachnoid haemorrhage: a systematic review with emphasis on region, age, gender and time trends. J Neurol Neurosurg Psychiatry. 2007 Dec;78(12):1365-72. doi: 10.1136/jnnp.2007.117655. Epub 2007 Apr 30.
Reference Type
BACKGROUND
Feigin VL, Lawes CM, Bennett DA, Barker-Collo SL, Parag V. Worldwide stroke incidence and early case fatality reported in 56 population-based studies: a systematic review. Lancet Neurol. 2009 Apr;8(4):355-69. doi: 10.1016/S1474-4422(09)70025-0. Epub 2009 Feb 21.
Reference Type
BACKGROUND
Johnston SC, Selvin S, Gress DR. The burden, trends, and demographics of mortality from subarachnoid hemorrhage. Neurology. 1998 May;50(5):1413-8. doi: 10.1212/wnl.50.5.1413.
Reference Type
BACKGROUND
Weidauer S, Lanfermann H, Raabe A, Zanella F, Seifert V, Beck J. Impairment of cerebral perfusion and infarct patterns attributable to vasospasm after aneurysmal subarachnoid hemorrhage: a prospective MRI and DSA study. Stroke. 2007 Jun;38(6):1831-6. doi: 10.1161/STROKEAHA.106.477976. Epub 2007 Apr 19.
Reference Type
BACKGROUND
Vergouwen MD, Vermeulen M, Roos YB. Effect of nimodipine on outcome in patients with traumatic subarachnoid haemorrhage: a systematic review. Lancet Neurol. 2006 Dec;5(12):1029-32. doi: 10.1016/S1474-4422(06)70582-8.
Reference Type
BACKGROUND
Raabe A, Beck J, Keller M, Vatter H, Zimmermann M, Seifert V. Relative importance of hypertension compared with hypervolemia for increasing cerebral oxygenation in patients with cerebral vasospasm after subarachnoid hemorrhage. J Neurosurg. 2005 Dec;103(6):974-81. doi: 10.3171/jns.2005.103.6.0974.
Reference Type
BACKGROUND
Aaslid R, Huber P, Nornes H. Evaluation of cerebrovascular spasm with transcranial Doppler ultrasound. J Neurosurg. 1984 Jan;60(1):37-41. doi: 10.3171/jns.1984.60.1.0037.
Reference Type
BACKGROUND
Beck J, Raabe A, Lanfermann H, Seifert V, Weidauer S. Tissue at risk concept for endovascular treatment of severe vasospasm after aneurysmal subarachnoid haemorrhage. J Neurol Neurosurg Psychiatry. 2004 Dec;75(12):1779-81. doi: 10.1136/jnnp.2004.036921.
Reference Type
BACKGROUND
Beck J, Raabe A, Lanfermann H, Seifert V, Weidauer S. Perfusion-weighted magnetic resonance imaging in patients with vasospasm: a useful new tool in the management of patients with subarachnoid hemorrhage. Neurosurgery. 2006 Mar;58(3):E590; author reply E590. doi: 10.1227/01.NEU.0000207963.98939.7B. No abstract available.
Reference Type
BACKGROUND
Eyding J, Krogias C, Schollhammer M, Eyding D, Wilkening W, Meves S, Schroder A, Przuntek H, Postert T. Contrast-enhanced ultrasonic parametric perfusion imaging detects dysfunctional tissue at risk in acute MCA stroke. J Cereb Blood Flow Metab. 2006 Apr;26(4):576-82. doi: 10.1038/sj.jcbfm.9600216.
Reference Type
BACKGROUND
Seidel G, Meyer-Wiethe K, Berdien G, Hollstein D, Toth D, Aach T. Ultrasound perfusion imaging in acute middle cerebral artery infarction predicts outcome. Stroke. 2004 May;35(5):1107-11. doi: 10.1161/01.STR.0000124125.19773.40. Epub 2004 Mar 18.
Reference Type
BACKGROUND
Chapman F, Morrissey R, McDermott S, Cahours X, Verron T, Taverner V, Stevenson M, Nahde T. Evaluation of high-nicotine oral products shows potential to reduce tobacco-related harm by offering satisfying alternatives. Sci Rep. 2025 Oct 3;15(1):34636. doi: 10.1038/s41598-025-21812-x.
Reference Type
DERIVED
Fung C, Heiland DH, Reitmeir R, Niesen WD, Raabe A, Eyding J, Schnell O, Rolz R, Z Graggen WJ, Beck J. Ultrasound Perfusion Imaging for the Detection of Cerebral Hypoperfusion After Aneurysmal Subarachnoid Hemorrhage. Neurocrit Care. 2022 Aug;37(1):149-159. doi: 10.1007/s12028-022-01460-z. Epub 2022 Feb 24.
Reference Type
DERIVED
Other Identifiers
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SONO SAB
Identifier Type: -
Identifier Source: org_study_id
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