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Cerebral Ischaemia Monitoring in Aortic Surgery

  • Research type

    Research Study

  • Full title

    Cerebral Ischaemia Monitoring in Aortic Surgery

  • IRAS ID

    299015

  • Contact name

    Aung Ye Oo

  • Contact email

    aungye.oo@nhs.net

  • Sponsor organisation

    Barts Health NHS Trust

  • Clinicaltrials.gov Identifier

    NCT04966247

  • Duration of Study in the UK

    3 years, 0 months, 0 days

  • Research summary

    Aortic arch repair surgery is a technically complex and challenging procedure to treat aortic pathologies. Despite advancements in perioperative care, detrimental neurological complications occur during or after surgery. The neurological complications increase the economic burden of healthcare, morbidity and quality of life for the patients, even if they survive. Stroke, for example, leads to an increase in healthcare and social care costs, requiring a subsequent lengthy rehabilitation. Milder neurological impairments include transient ischaemic attacks, confusion and delirium, necessitating longer intensive care and hospital stay.

    Currently applied cerebral monitoring modalities are electroencephalogram and cerebral oximetry. However, they are not specific enough to timely detect early cerebral ischaemia to prevent neurological complications. S100B protein and neuron-specific enolase are serum markers that reflect cerebral damage, however, their applicability in the hyperacute setting is limited. However, rapid measurements of glial fibrillary protein have paved new pathways to detect cerebral injury. Recent studies reveal more sensitive biomarkers of glucose, lactate, pyruvate, glutamate and glycerol. These biomarkers could potentially detect cerebral ischaemia on a near real-time basis using the microdialysis method. The aim of the project is to develop a bedside system for early detection of cerebral ischaemia on a near real-time basis during aortic arch surgery.

    Early detection of cerebral ischaemia could mandate more aggressive cerebral protection strategies by further optimisation of hypothermia and antegrade selective cerebral perfusion during surgery, and optimisation of blood pressure and oxygenation in the intensive care unit. Ultimately, early detection of cerebral ischemia during surgery will prevent disabling and costly neurological complications following surgery.

  • REC name

    East Midlands - Leicester South Research Ethics Committee

  • REC reference

    23/EM/0041

  • Date of REC Opinion

    11 Apr 2023

  • REC opinion

    Further Information Favourable Opinion

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