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Microcirculation and Plasticity After Stroke (IMPreST)

University of Zurich (UZH) logo

University of Zurich (UZH)

Status

Unknown

Conditions

Stroke, Ischemic

Treatments

Other: Observation of microcirculation and plasticity of the brain

Study type

Observational

Funder types

Other

Identifiers

NCT04035746
BASEC-Nr. 2019-00750

Details and patient eligibility

About

Reperfusion is the main goal of early medical interventions after stroke, such as thrombolysis and thrombectomy. Recanalization works only if applied early - the earlier the better, but with a statistical cutoff of 4.5 hours where risk of hemorrhage outweighs the benefit. Recently, this cutoff has been put into perspective using standardized perfusion measurements by magnetic resonance imaging (MRI) or computed tomography (CT). Two trials have shown that revascularization is beneficial up to 24 hours after stroke onset if patient selection is based on perfusion imaging. This suggests interindividual differences in the temporal evolution of an infarction. One explanation for interindividual differences is the variability of the collateral blood supply to the brain, which in turn can maintain different perfusion pressures around the infarct core, also called the penumbra region. Insufficient recruitment of these collateral pathways is an independent negative predictor of poor outcome; the insufficiency may in part be explained by insufficient dilatation of arterioles ("low dilator reserve"). So far, interventions to improve collateral perfusion, e.g., induced hypertension, have not demonstrated effectiveness, likely because our understanding of collateral perfusion, demand-dependent dilatation of arteries (cerebrovascular reserve, CVR) and their effect on microcirculation is insufficient.

Functional recovery after a brain lesion is based on plasticity. Plasticity involves the creation of new synapses, fibers (axons and dendrites) and lasting modification to synaptic strength as well as the formation and migration of new neurons. In the cortex surrounding an infarct, plasticity is facilitated by ischemia via modification of gene expression, i.e. a certain time window after stroke, and is stimulated by activity and training. Tissue microcirculatory status and perfusion surrounding the stroke lesion may play a role in the formation of this plasticity. The investigators will analyze the contributions of pre-existing vascular networks, the impact of stroke-affected vessels, timing and degree of recanalization success, brain excitability, and short-term intra-cortical inhibition to better understand how these factors relate to functional recovery after stroke.

Enrollment

49 estimated patients

Sex

All

Ages

18+ years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • ≤72h First-ever clinical ischemic stroke at hospital admission
  • Occlusion of M1-segment of the middle cerebral artery, and/ or intracranial internal carotid artery, and perfusion deficits with cortical involvement
  • 18 years or above
  • Living independent before stroke (mRS ≤3)
  • Written informed consent of the patient or the when the patient is not able to participate in the consenting procedure, the written authorization of an independent doctor who is not involved in the research project to safeguard the interests of the patient; in that case, post-hoc written informed consent of the patient is needed, or when the patient remains unable to participate in the informed consent procedure, written informed consent of a next of kind

Exclusion criteria

  • Major cardiac, psychiatric and/ or neurological diseases
  • Early seizures
  • Known or suspected non-compliance, drug and/ or alcohol abuse
  • Contra-indications for Magnetic Resonance Imaging and Transcranial Magnetic Stimulation, such as a history of seizure, prior electroconvulsive therapy, deep brain stimulators or other metal in the head, skull defect, pacemaker; neuroleptic medication; known allergic reaction to contrast material
  • Documented evidence that the patient does not want to participate in any scientific study or, in case of lack of documented evidence, no behavior and/or expression(s) that indicate(s) refusal of the patient to participate in research

Trial design

49 participants in 1 patient group

Single-group study
Description:
Assessment of microcirculation, brain plasticity and clinical function
Treatment:
Other: Observation of microcirculation and plasticity of the brain

Trial contacts and locations

1

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Central trial contact

Andreas R Luft, Prof. MD

Data sourced from clinicaltrials.gov

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