posted on 2021-04-29, 10:37authored byN Patel, C Banahan, J Janus, MA Horsfield, A Cox, D Marshall, J Colman, J Morlese, DH Evans, C Hannon, V Egan, P Garrard, JP Hague, EML Chung
Objectives: This study draws on advances in Doppler ultrasound bubble sizing to investigate whether high volumes of macro-bubbles entering the brain during cardiac surgery increase the risk of new cerebral microbleeds (CMBs), ischemic MR lesions, or post-operative cognitive decline (POCD). Methods: Transcranial Doppler (TCD) ultrasound recordings were analysed to estimate numbers of emboli and macrobubbles (>100 μm) entering the brain during cardiac surgery. Logistic regression was used to explore the hypothesis that emboli characteristics affect the incidence of new brain injuries identified through pre- and post-operative MRI and neuropsychological testing. Results: TCD, MRI, and neuropsychological test data were compared between 28 valve and 18 CABG patients. Although valve patients received over twice as many emboli per procedure [median: 1995 vs. 859, p = .004], and seven times as many macro-bubbles [median: 218 vs. 28, p = .001], high volumes of macrobubbles were not found to be significantly associated with new CMBs, new ischaemic lesions, or POCD. The odds of acquiring new CMBs increased by approximately 5% [95% CI: 1 to 10%] for every embolus detected in the first minute after the release of the aortic cross-clamp (AxC). Logistic regression models also confirmed previous findings that cardiopulmonary bypass time and valve surgery were significant predictors for new CMBs (both p = .03). Logistic regression analysis estimated an increase in the odds of acquiring new CMBs of 6% [95% CI: 1 to 12%] for every minute of bypass time over 91 mins. Conclusions: This small study provides new information about the properties and numbers of bubbles entering the brain during surgery, but found no evidence to substantiate a direct link between large numbers of macrobubbles and adverse cognitive or MR outcome. Clinical Trial Registration URL - http://www.isrctn.com. Unique identifier: 66022965.
Funding
The study was funded by the British Heart Foundation (FS/10/46/288350). N Patel acknowledges support from the Leicester Cardiovascular Biomedical Research Unit. EC acknowledges support from the Engineering and Physical Sciences Research Council (EPSRC).
History
Citation
Nikil Patel, Caroline Banahan, Justyna Janus, Mark A. Horsfield, Anthony Cox, David Marshall, Jordan Colman, John Morlese, David H. Evans, Claire Hannon, Vincent Egan, Peter Garrard, James P. Hague, Emma M.L. Chung,
Neurological impact of emboli during adult cardiac surgery, Journal of the Neurological Sciences, Volume 416, 2020, 117006,https://doi.org/10.1016/j.jns.2020.117006.