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European Journal of Pediatrics
Published in: European Journal of Pediatrics 6/2016

01-06-2016 | Original Article

The effect of red blood cell transfusion on the microcirculation of anemic children

Authors: Carina M. Schinagl, Zuzana H. Mormanova, Alexandra Puchwein-Schwepcke, Irene Schmid, Orsolya Genzel-Boroviczény

Published in: European Journal of Pediatrics | Issue 6/2016

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Abstract

Red blood cell transfusion can improve but also might temporarily reduce the microcirculation. The buccal microcirculation was visualized and total vessel density (TVD) determined with sidestream dark field imaging in 19 pediatric anemic (Hb 7.2 g/dL, 95 % CI 6.5–7.9) oncology or hematology patients receiving red blood cell transfusions (Tx) and in 18 age-matched healthy non-anemic controls. After transfusion, Hb (8.0 g/dL, 95 % CI 7.3–8.6) and TVD increased (14.7 ± 1.7 versus 16.6 ± 2.0 mm/mm2) significantly with a concomitant decrease in RBC velocity in medium-sized vessels (pre-Tx 711 ± 199 versus post-Tx 627 ± 163 μm/s). Compared to the controls, pre-Tx TVD (17.5 ± 1.3 mm/mm2) was lower and RBC velocity (476 ± 77 μm/s) was significantly higher. After transfusion, TVD and RBC velocity remained significantly lower and higher, respectively. In a subgroup, analysis of the transfused children with infection of TVD at baseline was lower with a larger increase after transfusion compared to anemic children without infection (ΔTVD 3.4 ± 2.6 versus ΔTVD 1.3 ± 1.5 mm/mm2).
Conclusion: With the rise of hemoglobin after transfusion, significant improvements of tissue perfusion were demonstrated but differences to non-anemic controls persisted. In particular, the microcirculation of anemic oncology patients with infection improved after transfusion.
What is Known:
Transfusions can improve but also temporarily reduce the microcirculation.
In neonates, transfusion significantly increases total vessel density.
What is New:
Pretransfusion, the microcirculation of the anemic children differed significantly from the controls.
After transfusion, the microcirculation improved but still differed from the controls.
These changes were most profound in anemic patients with concurrent infection, therefore transfusion threshholds might need to be higher.
Literature
1.
Basran S, Frumento RJ, Cohen A, Lee S, Du Y, Nishanian E, Kaplan HS, Stafford-Smith M, Bennett-Guerrero E (2006) The association between duration of storage of transfused red blood cells and morbidity and mortality after reoperative cardiac surgery. Anesth Analg 103:15–20, table of contentsCrossRefPubMed
2.
Bosman GJCGM, Werre JM, Willekens FLA, Novotný VMJ (2008) Erythrocyte ageing in vivo and in vitro: structural aspects and implications for transfusion. Transfus Med 18:335–347CrossRefPubMed
3.
4.
De Backer D, Creteur J, Preiser JC, Dubois MJ, Vincent JL (2002) Microvascular blood flow is altered in patients with sepsis. Am J Respir Crit Care Med 166:98–104CrossRefPubMed
5.
De Backer D, Hollenberg S, Boerma C, Goedhart P, Buchele G, Ospina-Tascon G, Dobbe I, Ince C (2007) How to evaluate the microcirculation? Report of a round table conference. Crit Care 11:R101–R101CrossRefPubMedPubMedCentral
6.
7.
Friedlander MH, Simon R, Machiedo GW (1998) The relationship of packed cell transfusion to red blood cell deformability in systemic inflammatory response syndrome patients. Shock 9:84–88CrossRefPubMed
8.
Gauvin F, Spinella PC, Lacroix J, Choker G, Ducruet T, Karam O, Hébert PC, Hutchison JS, Hume HA, Tucci M et al (2010) Association between length of storage of transfused red blood cells and multiple organ dysfunction syndrome in pediatric intensive care patients. Transfusion 50:1902–1913. doi:10.​1111/​j.​1537-2995.​2010.​02661.​x CrossRefPubMed
9.
Glas V, Genzel-Borovicz O, Christ F (2004) Elective transfusion leads to an increase in functional capillary density in the skin of preterm neonates. Pediatr Res 54:599–599
10.
Goedhart PT, Khalilzada M, Bezemer R, Merza J, Ince C (2007) Sidestream dark field (SDF) imaging: a novel stroboscopic LED ring-based imaging modality for clinical assessment of the microcirculation. Opt Express 15:15101–15114CrossRefPubMed
11.
Gould S, Cimino MJ, Gerber DR (2007) Packed red blood cell transfusion in the intensive care unit: limitations and consequences. Am J Crit Care 16:39–48, quiz 49PubMed
12.
Harris AG, Sinitsina I, Messmer K (2002) Validation of OPS imaging for microvascular measurements during isovolumic hemodilution and low hematocrits. Am J Physiol Heart Circ Physiol 282:H1502–H1509CrossRefPubMed
13.
Kerger H, Saltzman DJ, Menger MD, Messmer K, Intaglietta M (1996) Systemic and subcutaneous microvascular Po2 dissociation during 4-h hemorrhagic shock in conscious hamsters. Am J Physiol 270:H827–H836PubMed
14.
Kneyber MCJ, Gazendam RP, Markhorst DG, Plötz FB (2009) Length of storage of red blood cells does not affect outcome in critically ill children. Intensive Care Med 35:179–180CrossRefPubMed
15.
Marik PE, Sibbald WJ (1993) Effect of stored-blood transfusion on oxygen delivery in patients with sepsis. JAMA 269:3024–3029CrossRefPubMed
16.
Nolte D, Zeintl H, Steinbauer M, Pickelmann S, Messmer K (1995) Functional capillary density: an indicator of tissue perfusion? Int J Microcirc Clin Exp 15:244–249, Sponsored by the European Society for MicrocirculationCrossRefPubMed
17.
Roseff SD, Luban NLC, Manno CS (2002) Guidelines for assessing appropriateness of pediatric transfusion. Transfusion 42:1398–1413CrossRefPubMed
18.
19.
Sakr Y (2004) Persistent microcirculatory alterations are associated with organ failure and death in patients with septic shock. Crit Care Med 32:1825–1831CrossRefPubMed
20.
21.
Salazar Vázquez BY, Martini J, Chávez Negrete A, Cabrales P, Tsai AG, Intaglietta M (2009) Microvascular benefits of increasing plasma viscosity and maintaining blood viscosity: counterintuitive experimental findings. Biorheology 46:167–179PubMed
22.
Saldivar E, Cabrales P, Tsai AG, Intaglietta M (2003) Microcirculatory changes during chronic adaptation to hypoxia. Am J Physiol Heart Circ Physiol 285:H2064–H2071CrossRefPubMed
23.
Seidl T, Genzel-Boroviczeny O, Abicht JM, Christ F (2004) Does red blood cell transfusion change the near infra red photoplethysmography signal in infants? Intensive Care Med 30:1602–1606CrossRefPubMed
24.
Stapley R, Owusu BY, Brandon A, Cusick M, Rodriguez C, Marques MB, Kerby JD, Barnum SR, Weinberg JA, Lancaster JR Jr et al (2012) Erythrocyte storage increases rates of NO and nitrite scavenging: implications for transfusion-related toxicity. Biochem J 446:499–508. doi:10.​1042/​bj20120675 CrossRefPubMedPubMedCentral
25.
Tinmouth A, Chin-Yee I (2001) The clinical consequences of the red cell storage lesion. Transfus Med Rev 15:91–107CrossRefPubMed
26.
Top AP, van Dijk M, van Velzen JE, Ince C, Tibboel D (2011) Functional capillary density decreases after the first week of life in term neonates. Neonatology 99:73–77CrossRefPubMed
27.
Tsai AG, Friesenecker B, McCarthy M, Sakai H, Intaglietta M (1998) Plasma viscosity regulates capillary perfusion during extreme hemodilution in hamster skinfold model. Am J Physiol Heart Circ Physiol 275:H2170–H2180
28.
29.
Weinberg JR, Boyle P, Thomas K, Murphy K, Tooke JE, Guz A (1991) Capillary blood cell velocity is reduced in fever without hypotension. Int J Microcirc Clin Exp 10:13–19PubMed
30.
31.
32.
Zimrin AB, Hess JR (2009) Current issues relating to the transfusion of stored red blood cells. Vox Sang 96:93–103CrossRefPubMed
Metadata
Title
The effect of red blood cell transfusion on the microcirculation of anemic children
Authors
Carina M. Schinagl
Zuzana H. Mormanova
Alexandra Puchwein-Schwepcke
Irene Schmid
Orsolya Genzel-Boroviczény
Publication date
01-06-2016
Publisher
Springer Berlin Heidelberg
Published in
European Journal of Pediatrics / Issue 6/2016
Print ISSN: 0340-6199
Electronic ISSN: 1432-1076
DOI
https://doi.org/10.1007/s00431-016-2704-z

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