Two novel platelet biotinylation methods and their impact on stored platelet concentrates in a blood bank environment.
Détails
ID Serval
serval:BIB_FEDC4542E651
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Two novel platelet biotinylation methods and their impact on stored platelet concentrates in a blood bank environment.
Périodique
Transfusion
ISSN
1537-2995 (Electronic)
ISSN-L
0041-1132
Statut éditorial
Publié
Date de publication
11/2022
Peer-reviewed
Oui
Volume
62
Numéro
11
Pages
2324-2333
Langue
anglais
Notes
Publication types: Journal Article
Publication Status: ppublish
Publication Status: ppublish
Résumé
Storage of platelet concentrates (PCs) has an impact on platelet quality and possibly affects their functions after transfusion. The influence of processing and storage conditions of PCs on their in vivo function upon transfusion is unknown. One option for investigating this question is to implement an ex vivo labeling of human platelets, to analyze them after transfusion into heathy volunteers and/or patients. In this study, we developed two labeling methods employing biotin.
Two methods of biotinylation were compared to a control (standard PC). The "Bio-Wash" process used washing steps to label all platelets within the PC; for the other method, "Bio-Direct," one fifth of the PC were directly labeled without washing steps. The control and the two biotinylated PCs were analyzed over 7 days of storage. Labeling efficiency, platelet counts, phenotypes, and functions, along with time and costs, were evaluated to select the best process.
Both methods achieved a stable labeling through the storage, with similar platelet counts and metabolism in comparison to control PCs. Bio-Wash showed higher activation phenotype and lower aggregation response in comparison to the Bio-Direct method. The Bio-Direct was performed within 1.5 h versus 3 h for the Bio-Wash. However, the Bio-Direct required 12 mg of biotin instead of 8 mg for the other process.
We set up two methods of biotinylation that can be easily implemented in a blood bank environment. The Bio-Direct process was preferred to the Bio-Wash because of its similarity, from a functional and phenotypic point of view, with standard PCs.
Two methods of biotinylation were compared to a control (standard PC). The "Bio-Wash" process used washing steps to label all platelets within the PC; for the other method, "Bio-Direct," one fifth of the PC were directly labeled without washing steps. The control and the two biotinylated PCs were analyzed over 7 days of storage. Labeling efficiency, platelet counts, phenotypes, and functions, along with time and costs, were evaluated to select the best process.
Both methods achieved a stable labeling through the storage, with similar platelet counts and metabolism in comparison to control PCs. Bio-Wash showed higher activation phenotype and lower aggregation response in comparison to the Bio-Direct method. The Bio-Direct was performed within 1.5 h versus 3 h for the Bio-Wash. However, the Bio-Direct required 12 mg of biotin instead of 8 mg for the other process.
We set up two methods of biotinylation that can be easily implemented in a blood bank environment. The Bio-Direct process was preferred to the Bio-Wash because of its similarity, from a functional and phenotypic point of view, with standard PCs.
Mots-clé
Humans, Blood Platelets/metabolism, Platelet Transfusion/methods, Blood Banks, Biotinylation, Biotin/pharmacology, Biotin/metabolism, Blood Preservation/methods, biotin, blood, innovative process, labeling, platelet activations, platelet functions, platelet lesion, storage, transfusion
Pubmed
Web of science
Création de la notice
11/10/2022 11:57
Dernière modification de la notice
24/11/2022 6:46