Avoiding transfusions in children undergoing cardiac surgery: a meta-analysis of randomized trials of aprotinin. (abre una nueva ventana)

Arnold DM, Fergusson DA, Chan AK, Cook RJ, Fraser GA, Lim W, Blajchman MA, Cook DJ.

Fuente‎: Anesth Analg 2006;102(3):731-7.

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https://www.ncbi.nlm.nih.gov/pubmed/16492820 (abre una nueva ventana)

A systematic review of the use of antifibrinolytic agents in pediatric surgery and implications for craniofacial use. (abre una nueva ventana)

Basta MN, Stricker PA, Taylor JA.

Fuente‎: Pediatr Surg Int 2012;28(11):1059-69.

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https://www.ncbi.nlm.nih.gov/pubmed/22940882 (abre una nueva ventana)

Aprotinin, transfusions, and kidney injury in neonates and infants undergoing cardiac surgery. (abre una nueva ventana)

Bojan M, Vicca S, Boulat C, Gioanni S, Pouard P.

Fuente‎: Br J Anaesth 2012;108(5):830-7.

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https://www.ncbi.nlm.nih.gov/pubmed/22362670 (abre una nueva ventana)

Comparison of epsilon aminocaproic acid and tranexamic acid in pediatric cardiac surgery. (abre una nueva ventana)

Chauhan S, Das SN, Bisoi A, Kale S, Kiran U.

Fuente‎: J Cardiothorac Vasc Anesth 2004;18(2):141-3.

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https://www.ncbi.nlm.nih.gov/pubmed/15073700 (abre una nueva ventana)

Efficacy of aprotinin, epsilon aminocaproic acid, or combination in cyanotic heart disease. (abre una nueva ventana)

Chauhan S, Kumar BA, Rao BH, Rao MS, Dubey B, Saxena N, Venugopal P.

Fuente‎: Ann Thorac Surg 2000;70(4):1308-12.

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The Bayer 022 compassionate-use pediatric study. (abre una nueva ventana)

Coniff RF.

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https://www.ncbi.nlm.nih.gov/pubmed/9647135 (abre una nueva ventana)

Differential effects of aprotinin and tranexamic acid on outcomes and cytokine profiles in neonates undergoing cardiac surgery. (abre una nueva ventana)

Graham EM, Atz AM, Gillis J, Desantis SM, Haney AL, Deardorff RL, Uber WE, Reeves ST, McGowan FX Jr, Bradley SM, Spinale FG.

Fuente‎: J Thorac Cardiovasc Surg 2012;143(5):1069-76.

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DOI‎: 10.1016/j.jtcvs.2011.08.051

https://www.ncbi.nlm.nih.gov/pubmed/22075061 (abre una nueva ventana)

Minimizing perioperative blood loss and transfusions in children. [Réduire les pertes sanguines et les besoins transfusionnels en chirurgie pédiatrique.] [English, French abstract] (abre una nueva ventana)

Guay J, de Moerloose P, Lasne D.

Fuente‎: Can J Anaesth 2006;53(6 Suppl):S59-67.

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https://www.ncbi.nlm.nih.gov/pubmed/16766791 (abre una nueva ventana)

Intraoperative tranexamic acid in pediatric bloodless cardiac surgery. (abre una nueva ventana)

Hasegawa T, Oshima Y, Maruo A, Matsuhisa H, Tanaka A, Noda R, Yokoyama S, Iwasaki K.

Fuente‎: Asian Cardiovasc Thorac Ann 2014;22(9):1039-45.

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The safety and efficacy of antifibrinolytic therapy in neonatal cardiac surgery. (abre una nueva ventana)

Lin CY, Shuhaiber JH, Loyola H, Liu H, Del Nido P, DiNardo JA, Pigula FA.

Fuente‎: PLoS One 2015;10(5):e0126514.

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Epsilon aminocaproic acid reduces blood transfusion and improves the coagulation test after pediatric open-heart surgery: a meta-analysis of 5 clinical trials. (abre una nueva ventana)

Lu J, Meng H, Meng Z, Sun Y, Pribis JP, Zhu C, Li Q.

Fuente‎: Int J Clin Exp Pathol 2015;8(7):7978-87.

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https://www.ncbi.nlm.nih.gov/pubmed/26339364 (abre una nueva ventana)

Tranexamic acid versus ɛ-aminocaproic acid: efficacy and safety in paediatric cardiac surgery. (abre una nueva ventana)

Martin K, Breuer T, Gertler R, Hapfelmeier A, Schreiber C, Lange R, Hess J, Wiesner G.

Fuente‎: Eur J Cardiothorac Surg 2011;39(6):892-7.

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Replacement of aprotinin by ε-aminocaproic acid in infants undergoing cardiac surgery: consequences for blood loss and outcome. (abre una nueva ventana)

Martin K, Gertler R, MacGuill M, Mayr NP, Hapfelmeier A, Hörer J, Vogt M, Tassani P, Wiesner G.

Fuente‎: Br J Anaesth 2013;110(4):615-21.

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Hematologic and economic impact of aprotinin in reoperative pediatric cardiac operations. (abre una nueva ventana)

Miller BE, Tosone SR, Tam VK, Kanter KR, Guzzetta NA, Bailey JM, Levy JH.

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Efficacy of tranexamic acid as compared to aprotinin in open heart surgery in children. (abre una nueva ventana)

Muthialu N, Balakrishnan S, Sundar R, Muralidharan S.

Fuente‎: Ann Card Anaesth 2015;18(1):23-6.

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Comparative analysis of antifibrinolytic medications in pediatric heart surgery. (abre una nueva ventana)

Pasquali SK, Li JS, He X, Jacobs ML, O'Brien SM, Hall M, Jaquiss RD, Welke KF, Peterson ED, Shah SS, Jacobs JP.

Fuente‎: J Thorac Cardiovasc Surg 2012;143(3):550-7.

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The efficacy of tranexamic acid versus placebo in decreasing blood loss in pediatric patients undergoing repeat cardiac surgery. (abre una nueva ventana)

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Effective tranexamic acid concentration for 95% inhibition of tissue-type plasminogen activator induced hyperfibrinolysis in children with congenital heart disease: A prospective, controlled, in-vitro study. (abre una nueva ventana)

Rozen L, Faraoni D, Sanchez Torres C, Willems A, Noubouossie DC, Barglazan D, Van der Linden P, Demulder A.

Fuente‎: Eur J Anaesthesiol 2015;32(12):844-50.

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Comparison of different doses of ε-aminocaproic acid in children for tetralogy of Fallot surgery: clinical efficacy and safety. (abre una nueva ventana)

Sarupria A, Makhija N, Lakshmy R, Kiran U.

Fuente‎: J Cardiothorac Vasc Anesth 2013;27(1):23-9.

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Comparison of three dose regimens of aprotinin in infants undergoing the arterial switch operation. (abre una nueva ventana)

Verma YS, Chauhan S, Bisoi AK, Gharde P, Kiran U, Das SN.

Fuente‎: Ann Card Anaesth 2010;13(2):110-5.

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Pharmacokinetics of tranexamic acid in neonates, infants, and children undergoing cardiac surgery with cardiopulmonary bypass. (abre una nueva ventana)

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Fuente‎: Anesthesiology 2015;122(4):746-58.

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Efficacy and safety of aprotinin in neonatal congenital heart operations. (abre una nueva ventana)

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Fuente‎: Ann Thorac Surg 2011;92(3):958-63.

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The effect of preoperative tranexamic acid on blood loss after cardiac operations in children. (abre una nueva ventana)

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Fuente‎: J Thorac Cardiovasc Surg 1996;111(5):982-7.

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https://www.ncbi.nlm.nih.gov/pubmed/8622323 (abre una nueva ventana)

Recombinant factor seven therapy for postoperative bleeding in neonatal and pediatric cardiac surgery. (abre una nueva ventana)

Agarwal HS, Bennett JE, Churchwell KB, Christian KG, Drinkwater DC Jr, He Y, Taylor MB.

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Pediatric off-label use of recombinant factor VIIa. (abre una nueva ventana)

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Fuente‎: Pediatrics 2009;123(3):1066-72.

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Factor VII for excessive bleeding following congenital heart disease surgery. (abre una nueva ventana)

Changlani DK, Devendaran V, Murmu UC, Ganesan S, Varghese R, Kumar RS.

Fuente‎: Asian Cardiovasc Thorac Ann 2012;20(2):120-5.

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Use of recombinant factor VIIa for uncontrolled bleeding in neonates after cardiopulmonary bypass. (abre una nueva ventana)

Guzzetta NA, Huch S, Fernandez JD, Tosone SR, Miller BE.

Fuente‎: Paediatr Anaesth 2009;19(4):364-70.

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Review of the off-label use of recombinant activated factor VII in pediatric cardiac surgery patients. (abre una nueva ventana)

Guzzetta NA, Russell IA, Williams GD.

Fuente‎: Anesth Analg 2012;115(2):364-78.

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Is recombinant activated factor VII effective in the treatment of excessive bleeding after paediatric cardiac surgery? (abre una nueva ventana)

Okonta KE, Edwin F, Falase B.

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Cardiac surgery without blood products in a Jehovah's Witness child with factor VII deficiency. (abre una nueva ventana)

Pérez-Ferrer A, Gredilla E, de Vicente J, Laporta Y.

Fuente‎: J Cardiothorac Vasc Anesth 2012;26(4):651-3.

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Use of recombinant activated factor VII for controlling refractory postoperative bleeding in children undergoing cardiac surgery with cardiopulmonary bypass. (abre una nueva ventana)

Pychyńska-Pokorska M, Pągowska-Klimek I, Krajewski W, Moll JJ.

Fuente‎: J Cardiothorac Vasc Anesth 2011;25(6):987-94.

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https://www.ncbi.nlm.nih.gov/pubmed/21835642 (abre una nueva ventana)

Increased recombinant activated factor VII use and need for surgical reexploration following a switch from aprotinin to epsilon-aminocaproic acid in infant cardiac surgery. (abre una nueva ventana)

Scott JP, Costigan DJ, Hoffman GM, Simpson PM, Dasgupta M, Punzalan R, Berens RJ, Tweddell JS, Stuth EA.

Fuente‎: J Clin Anesth 2014;26(3):204-11.

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https://www.ncbi.nlm.nih.gov/pubmed/24809789 (abre una nueva ventana)

Recombinant activated factor VII for hemorrhage after pediatric cardiac surgery. (abre una nueva ventana)

Singh SP, Chauhan S, Choudhary M, Vasdev S, Talwar S.

Fuente‎: Asian Cardiovasc Thorac Ann 2012;20(1):19-23.

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https://www.ncbi.nlm.nih.gov/pubmed/22371937 (abre una nueva ventana)

Recombinant factor VIIa to treat bleeding after cardiac surgery in an infant. (abre una nueva ventana)

Tobias JD, Berkenbosch JW, Russo P.

Fuente‎: Pediatr Crit Care Med 2003;4(1):49-51.

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https://www.ncbi.nlm.nih.gov/pubmed/12656542 (abre una nueva ventana)

Recombinant factor VIIa to control excessive bleeding following surgery for congenital heart disease in pediatric patients. (abre una nueva ventana)

Tobias JD, Simsic JM, Weinstein S, Schechter W, Kartha V, Michler R.

Fuente‎: J Intensive Care Med 2004;19(5):270-3.

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Recombinant activated factor VII in cardiac surgery: a systematic review. (abre una nueva ventana)

Warren O, Mandal K, Hadjianastassiou V, Knowlton L, Panesar S, John K, Darzi A, Athanasiou T.

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Defining the role of recombinant activated factor VII in pediatric cardiac surgery: where should we go from here? (abre una nueva ventana)

Warren OJ, Rogers PL, Watret AL, de Wit KL, Darzi AW, Gill R, Athanasiou T.

Fuente‎: Pediatr Crit Care Med 2009;10(5):572-82.

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https://www.ncbi.nlm.nih.gov/pubmed/19451849 (abre una nueva ventana)

Decreasing the need for transfusion: infant cardiac surgery using hemodilution and recombinant factor VIIa. (abre una nueva ventana)

Winch PD, Naguib AN, Bradshaw JR, Galantowicz M, Tobias JD.

Fuente‎: Pediatr Cardiol 2013;34(1):119-24.

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https://www.ncbi.nlm.nih.gov/pubmed/22760694 (abre una nueva ventana)

Single-center experience: use of recombinant factor VIIa for acute life-threatening bleeding in children without congenital hemorrhagic disorder. (abre una nueva ventana)

Yilmaz D, Karapinar B, Balkan C, Akisü M, Kavakli K.

Fuente‎: Pediatr Hematol Oncol 2008;25(4):301-11.

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Perioperative monitoring of thromboelastograph on blood protection and recovery for severely cyanotic patients undergoing complex cardiac surgery. (abre una nueva ventana)

Cui Y, Hei F, Long C, Feng Z, Zhao J, Yan F, Wang Y, Liu J.

Fuente‎: Artif Organs 2010;34(11):955-60.

Indexado en‎: PubMed 21092037

DOI‎: 10.1111/j.1525-1594.2010.01148.x

https://www.ncbi.nlm.nih.gov/pubmed/21092037 (abre una nueva ventana)

Plasma fibrinogen concentration is correlated with postoperative blood loss in children undergoing cardiac surgery. A retrospective review. (abre una nueva ventana)

Faraoni D, Willems A, Savan V, Demanet H, De Ville A, Van der Linden P.

Fuente‎: Eur J Anaesthesiol 2014;31(6):317-26.

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https://www.ncbi.nlm.nih.gov/pubmed/24503704 (abre una nueva ventana)

Efficacy and safety of fibrinogen concentrate in surgical patients: a meta-analysis of randomized controlled trials. (abre una nueva ventana)

Fominskiy E, Nepomniashchikh VA, Lomivorotov VV, Monaco F, Vitiello C, Zangrillo A, Landoni G.

Fuente‎: J Cardiothorac Vasc Anesth 2016;30(5):1196-204.

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https://www.ncbi.nlm.nih.gov/pubmed/27493092 (abre una nueva ventana)

Hemostatic effects of fibrinogen concentrate compared with cryoprecipitate in children after cardiac surgery: a randomized pilot trial. (abre una nueva ventana)

Galas FR, de Almeida JP, Fukushima JT, Vincent JL, Osawa EA, Zeferino S, Câmara L, Guimarães VA, Jatene MB, Hajjar LA.

Fuente‎: J Thorac Cardiovasc Surg 2014;148(4):1647-55.

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https://www.ncbi.nlm.nih.gov/pubmed/24951020 (abre una nueva ventana)

Four-factor prothrombin complex concentrates in paediatric patients—a retrospective case series. (abre una nueva ventana)

Noga T, Bruce AA, Blain H, Nahirniak S.

Fuente‎: Vox Sang 2016;110(3):253-7.

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Minimizing perioperative blood loss and transfusions in children. [Réduire les pertes sanguines et les besoins transfusionnels en chirurgie pédiatrique.] [English, French abstract] (abre una nueva ventana)

Guay J, de Moerloose P, Lasne D.

Fuente‎: Can J Anaesth 2006;53(6 Suppl):S59-67.

Indexado en‎: PubMed 16766791

https://www.ncbi.nlm.nih.gov/pubmed/16766791 (abre una nueva ventana)

Anesthetic management in a pediatric patient with Noonan syndrome, mastocytosis, and von Willebrand disease: a case report. (abre una nueva ventana)

Macksey LF, White B.

Fuente‎: AANA J 2007;75(4):261-4.

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https://www.ncbi.nlm.nih.gov/pubmed/17711156 (abre una nueva ventana)

A comprehensive review of topical hemostatic agents: efficacy and recommendations for use. (abre una nueva ventana)

Achneck HE, Sileshi B, Jamiolkowski RM, Albala DM, Shapiro ML, Lawson JH.

Fuente‎: Ann Surg 2010;251(2):217-28.

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Resternotomy in pediatric cardiac surgery: CoSeal initial experience. (abre una nueva ventana)

Pace Napoleone C, Oppido G, Angeli E, Gargiulo G.

Fuente‎: Interact Cardiovasc Thorac Surg 2007;6(1):21-3.

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https://www.ncbi.nlm.nih.gov/pubmed/17669759 (abre una nueva ventana)

Utility of Sonoclot analysis and tranexamic acid in tetralogy of Fallot patients undergoing intracardiac repair. (abre una nueva ventana)

Aggarwal V, Kapoor PM, Choudhury M, Kiran U, Chowdhury U.

Fuente‎: Ann Card Anaesth 2012;15(1):26-31.

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https://www.ncbi.nlm.nih.gov/pubmed/22234018 (abre una nueva ventana)

Perioperative monitoring of thromboelastograph on blood protection and recovery for severely cyanotic patients undergoing complex cardiac surgery. (abre una nueva ventana)

Cui Y, Hei F, Long C, Feng Z, Zhao J, Yan F, Wang Y, Liu J.

Fuente‎: Artif Organs 2010;34(11):955-60.

Indexado en‎: PubMed 21092037

DOI‎: 10.1111/j.1525-1594.2010.01148.x

https://www.ncbi.nlm.nih.gov/pubmed/21092037 (abre una nueva ventana)

Thromboelastometry-guided intraoperative haemostatic management reduces bleeding and red cell transfusion after paediatric cardiac surgery. (abre una nueva ventana)

Nakayama Y, Nakajima Y, Tanaka KA, Sessler DI, Maeda S, Iida J, Ogawa S, Mizobe T.

Fuente‎: Br J Anaesth 2015;114(1):91-102.

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