References
1. Barbut, D., Hinton, R. B., Szatrowski, T. P., Hartman, G. S., Bruefach, M., Williams-Russo, P., ... & Gold, J. P. (1994). Cerebral emboli detected during bypass surgery are associated with clamp removal. Stroke, 25(12), 2398-2402.
2. Clark, R. E., Brillman, J., Davis, D. A., Lovell, M. R., Price, T. R., & Magovern, G. J. (1995). Microemboli during coronary artery bypass grafting: genesis and effect on outcome. The Journal of thoracic and cardiovascular surgery, 109(2), 249-258.
3. El Zayat, H., Puskas, J. D., Hwang, S., Thourani, V. H., Lattouf, O. M., Kilgo, P., & Halkos, M. E. (2012). Avoiding the clamp during off-pump coronary artery bypass reduces cerebral embolic events: results of a prospective randomized trial. Interactive cardiovascular and thoracic surgery, 14(1), 12-16.
4. Gasparovic, H., Borojevic, M., Malojcic, B., Gasparovic, K., & Biocina, B. (2013). Single aortic clamping in coronary artery bypass surgery reduces cerebral embolism and improves neurocognitive outcomes. Vascular Medicine, 18(5), 275-281.
5. Milsom, F. P., & Mitchell, S. J. (1998). A dual-vent left heart deairing technique markedly reduces carotid artery microemboli. The Annals of thoracic surgery, 66(3), 785-791.
6. Jabur, G. N., Donnelly, J., Merry, A. F., & Mitchell, S. J. (2021). A prospective observational study of emboli exposure in open versus closed chamber cardiac surgery. Perfusion, 02676591211023897.
7. Bowles, B. J., Lee, J. D., Dang, C. R., Taoka, S. N., Johnson, E. W., Lau, E. M., & Nekomoto, K. (2001). Coronary artery bypass performed without the use of cardiopulmonary bypass is associated with reduced cerebral microemboli and improved clinical results. Chest, 119(1), 25-30.
8. Goto, T., & Maekawa, K. (2014). Cerebral dysfunction after coronary artery bypass surgery. Journal of anesthesia, 28(2), 242-248.
9. Liu, Y. H., Wang, D. X., Li, L. H., Wu, X. M., Shan, G. J.,
Su, Y., ... & Sun, W. (2009). The effects of cardiopulmonary bypass on the number of cerebral microemboli and the incidence of cognitive dysfunction after coronary artery bypass graft surgery. Anesthesia & Analgesia, 109(4), 1013-1022.
10. Gottesman, R. F., Sherman, P. M., Grega, M. A., Yousem, D. M., Borowicz Jr, L. M., Selnes, O. A., ... & McKhann, G. M. (2006). Watershed strokes after cardiac surgery: diagnosis, etiology, and outcome. Stroke, 37(9), 2306-2311.
11. Borger, M. A., & Feindel, C. M. (2002). Cerebral emboli during cardiopulmonary bypass: effect of perfusionist interventions and aortic cannulas. JOURNAL OF EXTRACORPOREAL TECHNOLOGY, 34(1), 29-33.
12. Stump, D. A. (2005). Embolic factors associated
with cardiac surgery. In Seminars in cardiothoracic and vascular anesthesia (Vol. 9, No. 2, pp. 151-152). 708 Glen Cove Avenue, Glen Head, NY 11545, USA: Westminster Publications, Inc.
13. Kiziltug, H., & Martinez, G. (2018). Cardiopulmonary bypass. Anaesthesia & Intensive Care Medicine, 19(7), 353-360.
14. Jabur, G. N., Sidhu, K., Willcox, T. W., & Mitchell, S. J. (2015). Clinical evaluation of emboli removal by integrated versus non-integrated arterial filters in new generation oxygenators. Perfusion, 31(5), 409-417.
15. Prasongsukarn, K., & Borger, M. A. (2005). Reducing cerebral emboli during cardiopulmonary bypass. In Seminars in cardiothoracic and vascular anesthesia (Vol. 9, No. 2, pp. 153-158). 708 Glen Cove Avenue, Glen Head, NY 11545, USA: Westminster Publications, Inc.
16. Al-Rashidi, F., Blomquist, S., Höglund, P., Meurling, C., Roijer, A., & Koul, B. (2009). A new de-airing technique that reduces systemic microemboli during open surgery: a prospective controlled study. The Journal of thoracic and cardiovascular surgery, 138(1), 157-162
17. Chen, L., Hua, X., Song, J., & Wang, L. (2018). Which aortic clamp strategy is better to reduce postoperative stroke and death: Single center report and a meta-analysis. Medicine, 97(12).
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