Page 106 - Read Online

P. 106

Page 20 of 21 Calafiore et al. Vessel Plus 2023;7:18 https://dx.doi.org/10.20517/2574-1209.2023.42

during retrograde cerebral perfusion. J Thorac Cardiovasc Surg 1997;114:440-7. DOI PubMed
92. Boeckxstaens CJ, Flameng WJ. Retrograde cerebral perfusion does not perfuse the brain in nonhuman primates. Ann Thorac Surg
1995;60:319-27; discussion 327-8. PubMed
93. Safi HJ, Miller CC 3rd, Lee TY, Estrera AL. Repair of ascending and transverse aortic arch. J Thorac Cardiovasc Surg
2011;142:630-3. DOI PubMed
94. Brown JA, Navid F, Serna-Gallegos D, et al. Long-term outcomes of hemiarch replacement with hypothermic circulatory arrest and
retrograde cerebral perfusion. J Thorac Cardiovasc Surg 2023;166:396-406.e2. DOI
95. Tanaka A, Chehadi M, Smith HN, et al. Deep hypothermic circulatory arrest with retrograde cerebral perfusion: how long is safe?
Ann Thorac Surg 2023;116:27-33. DOI
96. Hu Z, Wang Z, Ren Z, et al. Similar cerebral protective effectiveness of antegrade and retrograde cerebral perfusion combined with
deep hypothermia circulatory arrest in aortic arch surgery: a meta-analysis and systematic review of 5060 patients. J Thorac
Cardiovasc Surg 2014;148:544-60. DOI
97. Harrington DK, Bonser M, Moss A, Heafield MT, Riddoch MJ, Bonser RS. Neuropsychometric outcome following aortic arch
surgery: a prospective randomized trial of retrograde cerebral perfusion. J Thorac Cardiovasc Surg 2003;126:638-44. DOI PubMed
98. Okita Y, Minatoya K, Tagusari O, Ando M, Nagatsuka K, Kitamura S. Prospective comparative study of brain protection in total
aortic arch replacement: deep hypothermic circulatory arrest with retrograde cerebral perfusion or selective antegrade cerebral
perfusion. Ann Thorac Surg 2001;72:72-9. DOI
99. Bissonnette B, Pellerin L, Ravussin P, Daven VB, Magistretti PJ. Deep hypothermia and rewarming alters glutamate levels and
glycogen content in cultured astrocytes. Anesthesiology 1999;91:1763-9. DOI PubMed
100. Newburger JW, Jonas RA, Wernovsky G, et al. A comparison of the perioperative neurologic effects of hypothermic circulatory
arrest versus low-flow cardiopulmonary bypass in infant heart surgery. N Engl J Med 1993;329:1057-64. DOI
101. Bellinger DC, Wernovsky G, Newburger JW, et al. Cognitive development of children following early repair of transposition of the
great arteries using deep hypothermic circulatory arrest. Pediatrics 1991;87:701-7. DOI
102. Gemba T, Oshima T, Ninomiya M. Glutamate efflux via the reversal of the sodium-dependent glutamate transporter caused by
glycolytic inhibition in rat cultured astrocytes. Neuroscience 1994;63:789-95. DOI PubMed
2+
103. Warren DE, Bickler PE, Clark JP, et al. Hypothermia and rewarming injury in hippocampal neurons involve intracellular Ca and
glutamate excitotoxicity. Neuroscience 2012;207:316-25. DOI
104. Ehrlich MP, McCullough J, Wolfe D, et al. Cerebral effects of cold reperfusion after hypothermic circulatory arrest. J Thorac
Cardiovasc Surg 2001;121:923-31. DOI
105. Di Mauro M, Iacò AL, Di Lorenzo C, et al. Cold reperfusion before rewarming reduces neurological events after deep hypothermic
circulatory arrest. Eur J Cardiothorac Surg 2013;43:168-73. DOI
106. Calafiore AM, de Paulis R, Iesu S, et al. Brain and lower body protection during aortic arch surgery. J Card Surg 2022;37:4982-90.
DOI
107. Damberg A, Ziganshin BA, Elefteriades JA. Data support continued role for straight deep hypothermic circulatory arrest. J Thorac
Cardiovasc Surg 2018;155:1975-6. DOI PubMed
108. Svensson LG, Blackstone EH, Apperson-Hansen C, et al. Implications from neurologic assessment of brain protection for total arch
replacement from a randomized trial. J Thorac Cardiovasc Surg 2015;150:1140-7.e11. DOI
109. Lau C, Gaudino M, Iannacone EM, et al. Retrograde cerebral perfusion is effective for prolonged circulatory arrest in arch aneurysm
repair. Ann Thorac Surg 2018;105:491-7. DOI
110. Pearsall C, Blitzer D, Zhao Y, et al. Long-term outcome of hemiarch replacement in a proximal aortic aneurysm repair: analysis of
over 1000 patients. Eur J Cardiothorac Surg 2022;62:ezab571. DOI PubMed PMC
111. Nakamura T, Mikamo A, Matsuno Y, et al. Impact of acute kidney injury on prognosis of chronic kidney disease after aortic arch
surgery. Interact Cardiovasc Thorac Surg 2020;30:273-9. DOI
112. Seese L, Chen EP, Badhwar V, et al. Optimal circulatory arrest temperature for aortic hemiarch replacement with antegrade brain
perfusion. J Thorac Cardiovasc Surg 2023;165:1759-70.e3. DOI
113. Ghoreishi M, Sundt TM, Cameron DE, et al. Factors associated with acute stroke after type A aortic dissection repair: an analysis of
the society of thoracic surgeons national adult cardiac surgery database. J Thorac Cardiovasc Surg 2020;159:2143-54.e3. DOI
114. Conzelmann LO, Hoffmann I, Blettner M, et al. Analysis of risk factors for neurological dysfunction in patients with acute aortic
dissection type A: data from the german registry for acute aortic dissection type A (GERAADA). Eur J Cardiothorac Surg
2012;42:557-65. DOI
115. Keenan JE, Wang H, Gulack BC, et al. Does moderate hypothermia really carry less bleeding risk than deep hypothermia for
circulatory arrest? A propensity-matched comparison in hemiarch replacement. J Thorac Cardiovasc Surg 2016;152:1559-69.e2.
DOI PubMed PMC
116. Leshnower BG, Thourani VH, Halkos ME, et al. Moderate versus deep hypothermia with unilateral selective antegrade cerebral
perfusion for acute type A dissection. Ann Thorac Surg 2015;100:1563-8; discussion 1568-9. PubMed
117. Leshnower BG, Myung RJ, Thourani VH, et al. Hemiarch replacement at 28 °C: an analysis of mild and moderate hypothermia in
500 patients. Ann Thorac Surg 2012;93:1910-5; discussion 1915-6. PubMed
118. Preventza O, Coselli JS, Akvan S, et al. The impact of temperature in aortic arch surgery patients receiving antegrade cerebral
perfusion for > 30 minutes: how relevant is it really? J Thorac Cardiovasc Surg 2017;153:767-76. DOI

101 102 103 104 105 106 107 108 109 110 111