The Role of Plasma from Platelet Concentrates in Transfusion Reactions

Background/Aim. Transfusion reaction is an adverse event which manifests during or after administration of blood components to the patient. We aimed to show less known aspects of most common transfusion reactions (allergic and febrile non-hemolytic transfusion reactions ? FNHTR) in the pediatric population at the platelet concentrates. The aim of this study was to determine the role of the accumulated cytokines interleukin-6 (IL-6), interlekin- 8 (IL-8) and presence of anti-platelet antibodies in the etiology of transfusion reaction in children. Methods. The study included 239 pediatric patients, who received platelet concentrates. Data of reported transfusion reaction were collected and evaluated prospectively. The levels of IL-6 and IL-8 were determined using an immunoassay. Antihuman leukocyte antigen antibodies (anti-HLA) and antihuman platelet antigen antibodies (anti-HPA) were identified by Luminex flow cytometry. Results. Toral of 70 transfusion reactions were recorded 52 patients. Allergic reactions occurred in most of the cases (74.3%), followed by FNHTR (17.1%). Platelets derived from buffy coat caused the majority of reactions (73.5%). Patients with infection after platelet transfusion with FNHTR had the highest levels of IL-6, 483.30 ? 1,041.79 pg/mL (p = 0.020). Respectively, the febrile patients had IL-6, 302.52 ? 720.04 pg/mL (p = 0.004). The level of IL-8 in platelet units that caused transfusion reactions was 95.66 ? 319.10 pg/mL, which was significantly higher (p = 0.001) compared to the control platelet units. Conclusion. The predominant etiologic mechanism for FNHTR in our study was leukocyte derived cytokine accumulation during storage. Etiopathogenesis of FNHTR induced by IL-6 and IL- 8 presented differently. We concluded that significant factors in the etiology of FNHTR by IL-6 were the factors related to the pediatric patient (infection, inflammation).

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Platelet storage at 22 degrees C: role of gas transport across plastic containers in maintenance of viability

Blood ◽

10.1182/blood.v46.2.209.209 ◽

1975 ◽

Vol 46 (2) ◽

pp. 209-218 ◽

Cited By ~ 146

Author(s):

S Murphy ◽

FH Gardner

Keyword(s):

Platelet Count ◽

Lactate Concentration ◽

Platelet Concentrates ◽

Pasteur Effect ◽

Platelet Storage ◽

Low Levels ◽

Microscopic Morphology ◽

Plastic Containers

Abstract Containers constructed of polyvinylchloride (PVC) are used for the storage of platelet concentrates (PC) for transfusion, At 22 degrees C, pH often falls to such low levels (pH is less that 6.0) that viability is lost. Far lesser degrees of pH fall are observed in bags constructed of polyethylene (PE). In this study, pH, PO2, PCO2, platelet count, lactate concentration, microscopic morphology, and viability after 51- chromium labeling were evaluated during storage at 22 degrees C under a variety of circumstances. The results indicate that (1) pH falls because of the generation of lactic acid by platelet glycolysis and, under some circumstances, the retention of CO2. (2) Rate of pH fall is, therefore, roughly proportional to the platelet count. (3) PE is more permeable to gases, thereby allowing CO2 escape from and easier O2 entry into the stored PC; the higher O2 tensions suppress glycolysis by the Pasteur effect. (4) Adequate agitation and container size are critical if the beneficial effect of PE is to be obtained. (5) In general, platelets stored in PE containers have excellent viability in vivo although CO2 escape can result in elevations in pH which are deleterious. (6) Storage in a 10% CO2 atmosphere prevents these deletrrious pH elevations without otherwise impairing platelet viability; (7) Results similar to those achieved with PE can be achieved with PVC if this material is made thinner to allow easier penetration of gases.

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