Can retrograde perfusion mitigate cerebal injury after particulate embolization? A study in a chronic porcine model

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Can retrograde perfusion mitigate cerebal injury after particulate embolization? A study in a chronic porcine model

Tatu Juvonen, MD, PhD^a, Donald J. Weisz, PhD^b, David Wolfe, MD^c, Ning Zhang, MD^a, Carol A. Bodian, DrPH^d, Jock N. McCullough, MD^a, Craig K. Mezrow, MD^a, Randall B. Griepp, MD^a

Read at the Twenty-third Annual Meeting of The Western Thoracic Surgical Association, Napa, Calif., June 25-28, 1997.

Received for publication June 26, 1997. Revisions requested Sept. 3, 1997; revisions received Jan. 26, 1998. Accepted for publication Jan. 27, 1998. Address for reprints: Tatu Juvonen, MD, PhD, Department of Cardiothoracic Surgery, The Mount Sinai Medical Center, One Gustave L. Levy Place, Box 1028, New York, NY 10029.

Objective: We assessed the impact on histologic and behavioraloutcome of an interval of retrograde cerebral perfusion afterarterial embolization, comparing retrograde cerebral perfusionwith and without inferior vena caval occlusion with continuedantegrade perfusion. Methods: Sixty Yorkshire pigs (27 to 30kg) were randomly assigned to the following groups: antegradecerebral perfusion control; antegrade cerebral perfusion afterembolization; retrograde cerebral perfusion control; retrogradecerebral perfusion after embolization; retrograde cerebral perfusionwith inferior vena cava occlusion, retrograde cerebral perfusionwith inferior vena cava occlusion control, and retrograde cerebralperfusion with inferior vena cava occlusion after embolization.After cooling to 20° C, a bolus of 200 mg of polystyrenemicrospheres 250 to 750 (µm diameter (or saline solution)was injected into the isolated aortic arch. After 5 minutesof antegrade cerebral perfusion, 25 minutes of antegrade cerebralperfusion, retrograde cerebral perfusion, or retrograde cerebralperfusion with inferior vena cava occlusion was instituted.After the operation, all animals underwent daily assessmentof neurologic status until the time of death on day 7. Results:Aortic arch return, cerebral vascular resistance, and oxygenextraction data during retrograde cerebral perfusion showeddifferences, suggesting that more effective flow occurs duringretrograde cerebral perfusion with inferior vena cava occlusion,which also resulted in more pronounced fluid sequestration.Microsphere recovery from the brain revealed significantly feweremboli after retrograde cerebral perfusion with inferior venacava occlusion. Behavioral scores showed full recovery in allbut one control animal (after retrograde cerebral perfusionwith inferior vena cava occlusion) by day 7 but were considerablylower after embolization, with no significant differences betweengroups. The extent of histopathologic injury was not significantlydifferent among embolized groups. Although no histopathologiclesions were present in either the antegrade cerebral perfusioncontrol group or the retrograde cerebral perfusion control group,mild significant ischemic damage occurred after retrograde cerebralperfusion with inferior vena cava occlusion even in controlanimals. Conclusions: Although effective washout of particulateemboli from the brain can be achieved with retrograde cerebralperfusion with inferior vena cava occlusion, no advantage ofretrograde cerebral perfusion with inferior vena cava occlusionafter embolization is seen from behavioral scores, electro-encephalographic recovery, or histopathologic examination; retrogradecerebral perfusion with inferior vena cava occlusion resultsin greater fluid sequestration and mild histopathologic injuryeven in control animals. Retrograde cerebral perfusion withinferior vena cava occlusion shows clear promise in the managementof embolization, but further refinements must be sought to addressits still worrisome potential for harm.

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				J. T. Strauch, D. Spielvogel, A. Lauten, N. Zhang, S. Rinke, D. Weisz, C. A. Bodian, and R. B. Griepp Optimal temperature for selective cerebral perfusion J. Thorac. Cardiovasc. Surg., July 1, 2005; 130(1): 74 - 82. [Abstract] [Full Text] [PDF]

				S. Dahlbacka, J. Heikkinen, T. Kaakinen, P. Laurila, V. Vainionpaa, K. Kiviluoma, T. Salomaki, H. Tuominen, P. Ohtonen, F. Biancari, et al. pH-Stat Versus {alpha}-Stat Acid-Base Management Strategy During Hypothermic Circulatory Arrest Combined With Embolic Brain Injury Ann. Thorac. Surg., April 1, 2005; 79(4): 1316 - 1325. [Abstract] [Full Text] [PDF]

				M. Di Eusanio, M. A. A. M. Schepens, W. J. Morshuis, K. M. Dossche, T. Kazui, K. Ohkura, N. Washiyama, R. Di Bartolomeo, D. Pacini, and A. Pierangeli Separate grafts or en bloc anastomosis for arch vessels reimplantation to the aortic arch Ann. Thorac. Surg., June 1, 2004; 77(6): 2021 - 2028. [Abstract] [Full Text] [PDF]

				J. T. Strauch, D. Spielvogel, P. L. Haldenwang, A. Lauten, N. Zhang, D. Weisz, C. A. Bodian, and R. B. Griepp Cerebral physiology and outcome after hypothermic circulatory arrest followed by selective cerebral perfusion Ann. Thorac. Surg., December 1, 2003; 76(6): 1972 - 1981. [Abstract] [Full Text] [PDF]

				J. M. Murkin Retrograde cerebral perfusion: more risk than benefit? J. Thorac. Cardiovasc. Surg., September 1, 2003; 126(3): 631 - 633. [Full Text] [PDF]

				D.K. Harrington, M. Bonser, A. Moss, M.T.E. Heafield, M.J. Riddoch, and R.S. Bonser Neuropsychometric outcome following aortic arch surgery: a prospective randomized trial of retrograde cerebral perfusion J. Thorac. Cardiovasc. Surg., September 1, 2003; 126(3): 638 - 644. [Abstract] [Full Text] [PDF]

				E. A. Hessel II and L. H. Edmunds Jr. Extracorporeal Circulation: Perfusion Systems Card. Surg. Adult, January 1, 2003; 2(2003): 317 - 338. [Full Text]

				D. Spielvogel, M. N. Mathur, and R. B. Griepp Aneurysms of the Aortic Arch Card. Surg. Adult, January 1, 2003; 2(2003): 1149 - 1168. [Full Text]

				L. G. Svensson, E. M. Nadolny, and W. A. Kimmel Multimodal protocol influence on stroke and neurocognitive deficit prevention after ascending/arch aortic operations Ann. Thorac. Surg., December 1, 2002; 74(6): 2040 - 2046. [Abstract] [Full Text] [PDF]

				M. R. Moon and T. M. Sundt III Influence of retrograde cerebral perfusion during aortic arch procedures Ann. Thorac. Surg., August 1, 2002; 74(2): 426 - 431. [Abstract] [Full Text] [PDF]

				P. Romsi, J. Heikkinen, F. Biancari, M. Pokela, J. Rimpilainen, V. Vainionpaa, J. Hirvonen, V. Jantti, K. Kiviluoma, V. Anttila, et al. Prolonged mild hypothermia after experimental hypothermic circulatory arrest in a chronic porcine model J. Thorac. Cardiovasc. Surg., April 1, 2002; 123(4): 724 - 734. [Abstract] [Full Text] [PDF]

				D. Harrington, C. H. Wong, and R. S. Bonser Neurological Complications of Aortic Surgery Seminars in Cardiothoracic and Vascular Anesthesia, March 1, 2002; 6(1): 7 - 16. [Abstract] [PDF]

				J. Rimpilainen, P. Romsi, M. Pokela, J. Hirvonen, V. Vainionpaa, K. T. Kiviluoma, F. Biancari, P. Ohtonen, V. Jantti, V. Anttila, et al. Lamotrigine plus leukocyte filtration as a neuroprotective strategy in experimental hypothermic circulatory arrest Ann. Thorac. Surg., January 1, 2002; 73(1): 163 - 172. [Abstract] [Full Text] [PDF]

				M. P. Ehrlich, J. N. McCullough, N. Zhang, D. J. Weisz, T. Juvonen, C. A. Bodian, and R. B. Griepp Effect of hypothermia on cerebral blood flow and metabolism in the pig Ann. Thorac. Surg., January 1, 2002; 73(1): 191 - 197. [Abstract] [Full Text] [PDF]

				D. L. Reich, S. Uysal, M. A. Ergin, and R. B. Griepp Retrograde cerebral perfusion as a method of neuroprotection during thoracic aortic surgery Ann. Thorac. Surg., November 1, 2001; 72(5): 1774 - 1782. [Abstract] [Full Text] [PDF]

				M. P. Ehrlich, C. Hagl, J. N. McCullough, N. Zhang, H. Shiang, C. Bodian, and R. B. Griepp Retrograde cerebral perfusion provides negligible flow through brain capillaries in the pig J. Thorac. Cardiovasc. Surg., August 1, 2001; 122(2): 331 - 338. [Abstract] [Full Text] [PDF]

				L. G. Svensson, E. M. Nadolny, D. L. Penney, J. Jacobson, W. A. Kimmel, M. H. Entrup, and R. S. D'Agostino Prospective randomized neurocognitive and S-100 study of hypothermic circulatory arrest, retrograde brain perfusion, and antegrade brain perfusion for aortic arch operations Ann. Thorac. Surg., June 1, 2001; 71(6): 1905 - 1912. [Abstract] [Full Text] [PDF]

				S. A. LeMaire, J. K. Bhama, Z. C. Schmittling, P. J. Oberwalder, C. Koksoy, S. A. Raskin, P. E. Curling, and J. S. Coselli S100{beta} correlates with neurologic complications after aortic operation using circulatory arrest Ann. Thorac. Surg., June 1, 2001; 71(6): 1913 - 1919. [Abstract] [Full Text] [PDF]

				D. L. Reich, S. Uysal, M. A. Ergin, C. A. Bodian, S. Hossain, and R. B. Griepp Retrograde cerebral perfusion during thoracic aortic surgery and late neuropsychological dysfunction Eur. J. Cardiothorac. Surg., May 1, 2001; 19(5): 594 - 600. [Abstract] [Full Text] [PDF]

				M. P. Ehrlich, J. McCullough, D. Wolfe, N. Zhang, H. Shiang, D. Weisz, C. Bodian, and R. B. Griepp Cerebral effects of cold reperfusion after hypothermic circulatory arrest J. Thorac. Cardiovasc. Surg., May 1, 2001; 121(5): 923 - 931. [Abstract] [Full Text] [PDF]

CARDIOPULMONARY SUPPORT AND PHYSIOLOGY

Can retrograde perfusion mitigate cerebal injury after particulate embolization? A study in a chronic porcine model

				J. Rimpilainen, M. Pokela, K. Kiviluoma, V. Vainionpaa, J. Hirvonen, P. Ohtonen, V. Jantti, V. Anttila, H. Heinonen, and T. Juvonen The N-methyl-D-aspartate antagonist memantine has no neuroprotective effect during hypothermic circulatory arrest: A study in the chronic porcine model J. Thorac. Cardiovasc. Surg., May 1, 2001; 121(5): 957 - 968. [Abstract] [Full Text] [PDF]

				P. Sekaran, M. Ehrlich, C. Hagl, M. L. Leavitt, R. Jacobs, J. N. McCullough, and E. Bennett-Guerrero A Comparison of Complete Blood Replacement With Varying Hematocrit Levels on Neurological Recovery in a Porcine Model of Profound Hypothermic (<5{degrees}C) Circulatory Arrest Anesth. Analg., February 1, 2001; 92(2): 329 - 334. [Abstract] [Full Text] [PDF]

				S. C. Sung, H. J. Jun, and J. S. Woo Simplified retrograde systemic perfusion for removal of air from the aorta in an infant Ann. Thorac. Surg., January 1, 2001; 71(1): 362 - 364. [Abstract] [Full Text] [PDF]

				V. Anttila, J. Rimpilainen, M. Pokela, K. Kiviluoma, M. Makiranta, V. Jantti, V. Vainionpaa, J. Hirvonen, and T. Juvonen Lamotrigine improves cerebral outcome after hypothermic circulatory arrest: A study in a chronic porcine model J. Thorac. Cardiovasc. Surg., August 1, 2000; 120(2): 247 - 255. [Abstract] [Full Text] [PDF]

				C. Wong and R. S. Bonser Retrograde perfusion and true reverse brain blood flow in humans Eur. J. Cardiothorac. Surg., May 1, 2000; 17(5): 597 - 601. [Abstract] [Full Text] [PDF]

				V. Anttila, M. Pokela, K. Kiviluoma, M. Makiranta, J. Hirvonen, and T. Juvonen Is maintained cranial hypothermia the only factor leading to improved outcome after retrograde cerebral perfusion? An experimental study with a chronic porcine model J. Thorac. Cardiovasc. Surg., May 1, 2000; 119(5): 1021 - 1029. [Abstract] [Full Text] [PDF]

				J. A. Kern and S. Arnold Massive cerebral embolization: successful treatment with retrograde perfusion Ann. Thorac. Surg., April 1, 2000; 69(4): 1266 - 1268. [Abstract] [Full Text] [PDF]

				V. Anttila, K. Kiviluoma, M. Pokela, J. Rimpilainen, M. Makiranta, V. Jantti, J. Hirvonen, and T. Juvonen COLD RETROGRADE CEREBRAL PERFUSION IMPROVES CEREBRAL PROTECTION DURING MODERATE HYPOTHERMIC CIRCULATORY ARREST: A LONG-TERM STUDY IN A PORCINE MODEL J. Thorac. Cardiovasc. Surg., November 1, 1999; 118(5): 938 - 945. [Abstract] [Full Text] [PDF]

				C H Wong and R S Bonser Retrograde cerebral perfusion: clinical and experimental aspects Perfusion, July 1, 1999; 14(4): 247 - 256. [PDF]

				T. Juvonen, N. Zhang, D. Wolfe, D. J. Weisz, C. A. Bodian, H. H. Shiang, J. N. McCullough, and R. B. Griepp Retrograde cerebral perfusion enhances cerebral protection during prolonged hypothermic circulatory arrest: a study in a chronic porcine model Ann. Thorac. Surg., July 1, 1998; 66(1): 38 - 50. [Abstract] [Full Text] [PDF]