Towards the understanding of the UV light, riboflavin and additive solution contributions to the in vitro lesions observed in Mirasol®-treated platelets.
Détails
ID Serval
serval:BIB_A0276809FF39
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Towards the understanding of the UV light, riboflavin and additive solution contributions to the in vitro lesions observed in Mirasol®-treated platelets.
Périodique
Transfusion clinique et biologique
ISSN
1953-8022 (Electronic)
ISSN-L
1246-7820
Statut éditorial
Publié
Date de publication
11/2019
Peer-reviewed
Oui
Volume
26
Numéro
4
Pages
209-216
Langue
anglais
Notes
Publication types: Comparative Study ; Journal Article
Publication Status: ppublish
Publication Status: ppublish
Résumé
Pathogen reduction technologies are implemented to increase the safety of blood products. We previously showed that the UVB alone significantly contributes to the storage lesions observed in platelets treated with riboflavin/UVB using a home-made illuminator. The present study aims at confirming these observations using the commercial Mirasol® technology.
A three-arm study (untreated, UV-, Mirasol®-treated platelets) was conducted to investigate the platelet storage lesions throughout storage (n=4). A two-arm study was then designed to compare Intersol and T-PAS+ additive solutions (n=3). Phenotype and functional platelet characteristics were assessed using flow cytometry, aggregometry, antioxidant assays and metabolic parameters.
Mirasol®-treated platelets exhibit enhanced storage lesions compared to controls (increase of activation markers and glycolysis rate, lower hypotonic shock and double-agonist activation responses, and decrease of total antioxidant capacity). Here, we also confirmed that the UV radiation alone is causing platelet lesions. Riboflavin tends to have an intracellular protective role while it decreases the extracellular antioxidant defenses. Furthermore, benefits of platelet additive solutions containing potassium and magnesium were confirmed as it reduces the extent of storage lesions.
The photosensitizer, UV illumination and composition of the platelet additive solutions are key parameters influencing the platelet storage lesion. The clinical relevance of these findings is not fully understood and recent published clinical studies could not show increase in bleeding in patients receiving Mirasol-treated platelets. New developments in storage solutions might help to improve storage conditions of PRT-treated platelets and should be prioritised as research subject in the future.
A three-arm study (untreated, UV-, Mirasol®-treated platelets) was conducted to investigate the platelet storage lesions throughout storage (n=4). A two-arm study was then designed to compare Intersol and T-PAS+ additive solutions (n=3). Phenotype and functional platelet characteristics were assessed using flow cytometry, aggregometry, antioxidant assays and metabolic parameters.
Mirasol®-treated platelets exhibit enhanced storage lesions compared to controls (increase of activation markers and glycolysis rate, lower hypotonic shock and double-agonist activation responses, and decrease of total antioxidant capacity). Here, we also confirmed that the UV radiation alone is causing platelet lesions. Riboflavin tends to have an intracellular protective role while it decreases the extracellular antioxidant defenses. Furthermore, benefits of platelet additive solutions containing potassium and magnesium were confirmed as it reduces the extent of storage lesions.
The photosensitizer, UV illumination and composition of the platelet additive solutions are key parameters influencing the platelet storage lesion. The clinical relevance of these findings is not fully understood and recent published clinical studies could not show increase in bleeding in patients receiving Mirasol-treated platelets. New developments in storage solutions might help to improve storage conditions of PRT-treated platelets and should be prioritised as research subject in the future.
Mots-clé
Blood Platelets/drug effects, Blood Platelets/metabolism, Blood Platelets/radiation effects, Blood Preservation/methods, Blood Proteins/analysis, Blood Safety, Blood-Borne Pathogens/drug effects, Blood-Borne Pathogens/radiation effects, Epinephrine/pharmacology, Humans, Organ Preservation Solutions/pharmacology, Osmotic Pressure, Phosphates/pharmacology, Photosensitizing Agents/pharmacology, Platelet Aggregation/drug effects, Platelet-Rich Plasma, Potassium Chloride/pharmacology, Riboflavin/pharmacology, Riboflavin/radiation effects, Sodium/pharmacology, Sodium Acetate/pharmacology, Sodium Chloride/pharmacology, Sodium Citrate/pharmacology, Ultraviolet Rays/adverse effects, Additive solution, Inactivation des pathogènes, Lésion de stockage, Pathogen inactivation, Pathogen reduction, Platelet storage lesion, Riboflavin, Riboflavine, Réduction des pathogènes, Solution additive
Pubmed
Web of science
Création de la notice
30/09/2019 15:20
Dernière modification de la notice
19/06/2020 5:21