Composition of plasma in apheresis-derived platelet concentrates under cold storage.
Journal
Blood transfusion = Trasfusione del sangue
ISSN: 2385-2070
Titre abrégé: Blood Transfus
Pays: Italy
ID NLM: 101237479
Informations de publication
Date de publication:
07 2023
07 2023
Historique:
received:
08
03
2022
accepted:
08
07
2022
medline:
13
7
2023
pubmed:
16
8
2022
entrez:
15
8
2022
Statut:
ppublish
Résumé
Compared to room temperature (RT, 22-24°C) storage, refrigeration of platelet concentrates (PC) may provide advantages due to lower risks of bacterial growth and increased responsiveness of platelets. However, storage at cold temperature (CT, 2-6°C) may also strongly influence the plasmatic composition of PC. This study analysed the content of plasma in apheresis-derived platelet concentrates (APC). APC were stored under blood bank conditions at CT or RT. On days 0 and 6, samples were drawn for analysis. Coagulation parameters comprised global coagulation assays, single factors or inhibitors. The distribution pattern of von Willebrand multimers was investigated by immunoblotting. Thrombin generation was assessed with a fluorescence assay. Immunological and clinical chemistry parameters were determined on automated analysers. After storage at CT, coagulation factors V, VII, IX or protein S activity are partially reduced, but less compromised than under RT. There was a large reduction in Factor VIII levels and this was similar at both temperatures. In contrast to RT, von Willebrand Factor (vWF) activity was remarkably decreased at CT, and this was accompanied by the shift from high molecular to low molecular weight multimers. Thrombin generation showed improved preservation at CT. Other plasma proteins like immunoglobulins were stable at both conditions. Refrigeration mediates a bivalent effect on plasmatic coagulation in APC. At CT, the partial reduction of labile coagulation factors is less emphasised. However, CT does not prevent Factor VIII depletion, but induces an additional loss of vWF activity by multimer cleavage. Preserved thrombin generation may indicate a higher hemostatic capacity for cold storage.
Sections du résumé
BACKGROUND
Compared to room temperature (RT, 22-24°C) storage, refrigeration of platelet concentrates (PC) may provide advantages due to lower risks of bacterial growth and increased responsiveness of platelets. However, storage at cold temperature (CT, 2-6°C) may also strongly influence the plasmatic composition of PC. This study analysed the content of plasma in apheresis-derived platelet concentrates (APC).
MATERIALS AND METHODS
APC were stored under blood bank conditions at CT or RT. On days 0 and 6, samples were drawn for analysis. Coagulation parameters comprised global coagulation assays, single factors or inhibitors. The distribution pattern of von Willebrand multimers was investigated by immunoblotting. Thrombin generation was assessed with a fluorescence assay. Immunological and clinical chemistry parameters were determined on automated analysers.
RESULTS
After storage at CT, coagulation factors V, VII, IX or protein S activity are partially reduced, but less compromised than under RT. There was a large reduction in Factor VIII levels and this was similar at both temperatures. In contrast to RT, von Willebrand Factor (vWF) activity was remarkably decreased at CT, and this was accompanied by the shift from high molecular to low molecular weight multimers. Thrombin generation showed improved preservation at CT. Other plasma proteins like immunoglobulins were stable at both conditions.
DISCUSSION
Refrigeration mediates a bivalent effect on plasmatic coagulation in APC. At CT, the partial reduction of labile coagulation factors is less emphasised. However, CT does not prevent Factor VIII depletion, but induces an additional loss of vWF activity by multimer cleavage. Preserved thrombin generation may indicate a higher hemostatic capacity for cold storage.
Identifiants
pubmed: 35969131
pii: 2022.0057-22
doi: 10.2450/2022.0057-22
pmc: PMC10335340
doi:
Substances chimiques
Factor VIII
9001-27-8
von Willebrand Factor
0
Thrombin
EC 3.4.21.5
Blood Coagulation Factors
0
Hemostatics
0
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
327-336Références
Thromb Haemost. 2014 Apr 1;111(4):598-609
pubmed: 24573248
Transfusion. 2016 Jun;56(6):1320-8
pubmed: 26853912
Semin Thromb Hemost. 1997;23(5):425-31
pubmed: 9387201
Transfus Apher Sci. 2019 Feb;58(1):12-15
pubmed: 30639086
Blood Coagul Fibrinolysis. 2006 Jan;17(1):39-45
pubmed: 16607078
Clin Chem. 2016 May;62(5):699-707
pubmed: 26955824
Transfusion. 2005 Aug;45(8):1342-8
pubmed: 16078924
Transfusion. 2014 Mar;54(3):633-9
pubmed: 23789907
Vox Sang. 2015 Feb;108(2):160-8
pubmed: 25469449
Blood. 1993 Sep 15;82(6):1749-57
pubmed: 8400231
Transfus Med. 1993 Mar;3(1):51-7
pubmed: 8038897
Cell. 2003 Jan 10;112(1):87-97
pubmed: 12526796
Transfusion. 2017 Dec;57(12):2836-2844
pubmed: 28880362
Transfusion. 2017 Apr;57(4):881-889
pubmed: 27882572
Transfusion. 2013 Jan;53 Suppl 1:137S-149S
pubmed: 23301966
J Trauma Acute Care Surg. 2018 Jun;84(6S Suppl 1):S41-S46
pubmed: 29521797
Curr Opin Hematol. 2018 Nov;25(6):500-508
pubmed: 30281037
Transfus Med Rev. 2007 Oct;21(4):287-94
pubmed: 17900490
Blood. 2018 Apr 5;131(14):1512-1521
pubmed: 29475962
Transfusion. 2007 Mar;47(3):460-3
pubmed: 17319826
TH Open. 2020 Aug 13;4(3):e163-e172
pubmed: 32803122
Transfusion. 2020 Jan;60(1):46-53
pubmed: 31850522
Transfusion. 2009 May;49(5):913-20
pubmed: 19159416
Transfusion. 2005 Mar;45(3):427-32
pubmed: 15752162
N Engl J Med. 1969 May 15;280(20):1094-8
pubmed: 5778424
Arterioscler Thromb Vasc Biol. 2019 Oct;39(10):2028-2037
pubmed: 31315441
Transfusion. 2018 Apr;58(4):927-937
pubmed: 29330877
Transfusion. 2006 May;46(5):828-34
pubmed: 16686851
Anesthesiology. 2020 Dec 1;133(6):1173-1183
pubmed: 32902572
Transfusion. 2012 Mar;52(3):529-36
pubmed: 21880044
Arterioscler Thromb Vasc Biol. 2017 Dec;37(12):2271-2279
pubmed: 29097365
J Thromb Haemost. 2021 Dec;19(12):2918-2929
pubmed: 34592058
Vox Sang. 2007 Jul;93(1):27-36
pubmed: 17547562
Semin Thromb Hemost. 2002 Apr;28(2):173-90
pubmed: 11992241
Vox Sang. 2015 Jul;109(1):1-10
pubmed: 25833464
Res Pract Thromb Haemost. 2017 Oct 16;2(1):42-48
pubmed: 30046705