Es segura y efectiva después del trauma | 17 AGO 16

Transfusión de glóbulos rojos criopreservados empacados (trauma)

Los autores hipotetizaron que es segura y efectiva en los pacientes de trauma y obtiene resultados clínicos equivalentes comparada con los glóbulos rojos líquidos empacados.
Autor/a: Schreiber MA, McCully BH, Holcomb JB, Robinson BR, Minei JP, Stewart R, Kiraly L, Gordon NT, Martin DT, Rick EA, Dean RK, Wiles C, Anderson N, Sosnovske D, Houser B, Lape D, Cotton B, Gomaa D, Cripps Ann Surg 2015; 262(2): 426-433
INDICE:  1.  | 2. Bibliografía
Bibliografía


1. Holcomb JB, Spinella PC. Optimal use of blood in trauma patients. Biologicals. 2010;38:72–77.
2. Shapiro MJ, Gettinger A, Corwin HL. Anemia and blood transfusion in trauma patients admitted to the intensive care unit. J Trauma. 2003;55:269–273.
3. Sullivan MT, Cotten R, Read EJ, et al. Blood collection and transfusion in the United States in 2001. Transfusion. 2007;47:385–394.Napolitano LM, Corwin HL. Efficacy of red blood cell transfusion in the critically ill. Crit Care Clin. 2004;20:255–268.
5. Corwin HL, Gettinger A, Pearl RG, et al. The CRIT Study: Anemia and blood transfusion in the critically ill—current clinical practice in the United States. Crit Care Med. 2004;32:39–52.
6. Vamvakas EC. White-blood-cell-containing allogeneic blood transfusion and postoperative infection or mortality: an updated meta-analysis. Vox Sang. 2007;92:224–232.
7. Marik PE, Corwin HL. Efficacy of red blood cell transfusion in the critically ill: a systematic review of the literature. Crit Care Med. 2008;36:2667–2674.
8. Vamvakas EC. Meta-analysis of clinical studies of the purported deleterious effects of old versus fresh red blood cells: are we at equipoise? Transfusion. 2010;50:600–610.
9. Offner PJ, Moore EE, Biffl WL, et al. Increased rate of infection associated with transfusion of old blood after severe injury. Arch Surg. 2002;137:711–716.
10. Basran S, Frumento RJ, Cohen A, et al. The association between duration of storage of transfused red blood cells and morbidity and mortality after reoperative cardiac surgery. Anesth Analg. 2006;103:15–20.
11. Högman CF, Meryman HT. Red blood cells intended for transfusion: quality criteria revisited. Transfusion. 2006;46:137–142.
12. Högman CF, Meryman HT. Storage parameters affecting red blood cell survival and function after transfusion. Transfus Med Rev. 1999;13:275–296.
13. Scott KL, Lecak J, Acker JP. Biopreservation of red blood cells: past, present, and future. Transfus Med Rev. 2005;19:127–142.
14. Hess JH. An update on solutions for red cell storage. Vox Sang. 2006;91:13–19.
15. Bank HL, Brockbank KG. Basic principles of cryobiology. J Card Surg. 1987;2:137–143.
16. Sumida S. Transfusion and transplantation of cryopreserved cells and tissues. Cell Tissue Bank. 2006;7:265–305.
17. Meryman HT. Preservation of blood by freezing: a review. Cryobiology. 1964;1:52–56.
18. Valeri CR, Pivacek LE, Cassidy GP, et al. Posttransfusion survival (24-hour) and hemolysis of previously frozen, deglycerolized RBCs after storage at 4°C for up to 14 days in sodium chloride alone or sodium chloride supplemented with additive solutions. Transfusion. 2000;40:1337–1340.
19. Valeri CR, Srey R, Tilahun D, et al. The in vitro quality of red blood cells frozen with 40 percent (wt/vol) glycerol at -80 degrees C for 14 years, deglycerolized with the Haemonetics ACP 215, and stored at 4 degrees C in additive solution-1 or additive solution-3 for up to 3 weeks. Transfusion. 2004;44:990–995.
20. Whitaker BI, Green J, King M, et al. The 2007 National Blood Collection and Utilization Survey Report. Washington, DC: US Department of Health and Human Services; 2007.
21. Valeri CR, Ragno G, Pivacek LE, et al. An experiment with glycerol-frozen red blood cells stored at -80 degrees C for up to 37 years. Vox Sang. 2000;79:168–174.
22. Fabricant L, Kiraly L, Wiles C, et al. Cryopreserved deglycerolized blood is safe and achieves superior tissue oxygenation compared with refrigerated red blood cells: a prospective randomized pilot study. J Trauma Acute Care Surg. 2013;74:371–376; discussion 376–377.
23. Hampton DA, Wiles C, Fabricant LJ, et al. Cryopreserved red blood cells are superior to standard liquid red blood cells. J Trauma Acute Care Surg. 2014;77:20–27; discussion 26–27.
24. Kiraly LN, Underwood S, Differding JA, et al. Transfusion of aged packed red blood cells results in decreased tissue oxygenation in critically injured trauma patients. J Trauma. 2009;67:29–32.
25. Steiner ME, Ness PM, Assmann SF, et al. Effects of red-cell storage duration on patients undergoing cardiac surgery. N Engl J Med. 2015;372:1419–1429.
26. Lacroix J, Hebert PC, Fergusson DA, et al. Age of transfused blood in critically ill adults. N Engl J Med. 2015;372:1410–1418.
27. Huggins CE. Frozen blood: theory and practice. JAMA. 1965;193:941–944.
28. Valeri CR, Brodine CE. Current methods for processing frozen red cells. Cryobiology. 1968;5:129–135
29. Meryman HT, Hornblower M. A method for freezing and washing red blood cells using a high glycerol concentration. Transfusion. 1972;12:145–156.
30. Rowe AW, Eyster E, Kellner A. Liquid nitrogen preservation of red blood cells for transfusion: A low glycerol–rapid freeze procedure. Cryobiology. 1968;5:119–128.
31. Telischi M, Hoiberg R, Rao KR, et al. The use of frozen, thawed erythrocytes in blood banking: a report of 28 months' experience in a large transfusion service. Am J Clin Pathol. 1977;68:250–257.
32. Goldfinger D, Lowe C. Prevention of adverse reactions to blood transfusion by the administration of saline-washed red blood cells. Transfusion. 1981;21:277–280.
33. Valeri CR. Status report on the quality of liquid and frozen red blood cells. Vox Sang. 2002;83:193–196
34. Valeri CR, Ragno G, Pivacek L, et al. A multicenter study of in vitro and in vivo values in human RBCs frozen with 40-percent (wt/vol) glycerol and stored after deglycerolization for 15 days at 4°C in AS-3: assessment of RBC processing in the ACP 215. Transfusion. 2001;41:933–939
35. Valeri CR, Ragno G, van Houten P, et al. Automation of the glycerolization of red blood cells with the high-separation bowl in the haemonetics ACP 215 instrument. Transfusion. 2005;45:1621–1627.
36. Umlas J, Jacobson M, Kevy SV. Suitable survival and half-life of red cells after frozen storage in excess of 10 years. Transfusion. 1991;31:648–649.
37. Valeri CR. Frozen blood. New Engl J Med. 1966;275:365–373.
38. Meryman HT. The cryopreservation of blood for clinical use. Prog Hematol. 1979;11:193–227.
39. O'Brien TG, Haynes LL, Hering AC, et al. The use of glycerolized frozen blood in vascular surgery and extracorporeal circulation. Surgery. 1961;49:109–129
40. Moss GS, Valeri CR, Brodine CE. Clinical experience with the use of frozen blood in combat casualties. N Engl J Med. 1968;278:747–752.
41. Valeri CR. Clinical effectiveness of concentrated liquid stored red cells and previously frozen red cells. Md State Med J. 1968;17:59–64.
42. Valeri CR, Bougas JA, Talarico L, et al. Behavior of previously frozen erythrocytes used during open-heart surgery. Transfusion. 1970;10:238–246.
43. Marshall LR, Campbell AL, Anderson JC. Routine freezing of red blood cells for transfusion in Western Australia. Pathology. 1976;8:281–288
44. Szymanski IO, Carrington EJ. Evaluation of a large-scale frozen blood program. Transfusion. 1977;17:431–437.
45. Haynes LL, Tullis JL, Pyle HM, et al. Clinical use of glycerolized frozen blood. JAMA. 1960;173:1657–1663.
46. Kim-Shapiro DB, Schechter AN, Gladwin MT. Unraveling the reactions of nitric oxide, nitrite, and hemoglobin in physiology and therapeutics. Arterioscler Thromb Vasc Biol. 2006;26:697–705.
47. Hess JH. Red cell freezing and its impact on the supply chain. Transfus Med. 2004;14:1–8.
48. Tan KK, Lee WS, Liaw LC, et al. A prospective study on the use of leucocyte-filters in reducing blood transfusion reactions in multi-transfused thalassemic children. Singapore Med J. 1993;34:109–111.
49. America's Blood Centers. ABC Blood Supply Status Report. Northumberland, UK: ABC Publications; 2006. Available at:www.americasblood.org. Updated 2007. Accessed July 19, 2015.
50. Gordon NT, Schreiber MA. Frozen blood and lessons learned from 9/11. J Trauma Acute Care Surg. 2014;77:479–485.

 

Comentarios

Para ver los comentarios de sus colegas o para expresar su opinión debe ingresar con su cuenta de IntraMed.

AAIP RNBD
Términos y condiciones de uso | Política de privacidad | Todos los derechos reservados | Copyright 1997-2024