Comparative efficacy of hemorrhage control of a novel mesoporous bioactive glass versus two commercial hemostats
Document Type
Article
Publication Date
1-1-2018
Abstract
Mesoporous bioactive glass containing 1% Ga 2 O 3 (1%Ga-MBG) is attractive for hemorrhage control because of its surface chemistry which can promote blood-clotting. The present study compares this proprietary inorganic coagulation accelerator with two commercial hemostats, Celox™ (CX) and QuikClot Advanced Clotting Sponge Plus™ (ACS + ). The results indicate that the number of adherent platelets were higher on the 1%Ga-MBG and CX surfaces than ACS + whereas a greater contact activation was seen on 1%Ga-MBG and ACS + surfaces than CX. 1%Ga-MBG not only resulted in larger platelet aggregates and more extensive platelet pseudopodia compared to CX and ACS + but also significantly accelerated the intrinsic pathways of the clotting cascade. In vitro thrombin generation assays also showed that CX and ACS + induced low levels of thrombin formation while 1%Ga-MBG had significantly higher values. 1%Ga-MBG formed a larger red blood cell aggregate than both CX and ACS + . Direct exposure of 1%Ga-MBG to fibroblast cells increased cell viability after 3 days relative to CX and ACS + , inferring excellent cytocompatibility. The results of this study promote 1%Ga-MBG as a promising hemostat compared to the commercially available products as it possesses essential factors required for coagulation activation.
Keywords
Celox™, hemostasis, hemostatic activity, mesoporous bioactive glass, platelet activation, quikclot advanced clotting sponge plus™
Divisions
fac_eng,fac_med
Funders
Ministry of Higher Education (MOHE), Government of Malaysia, under the High Impact Research (UM.C/625/1/HIR/MoE/ ENG/58),University of Malaya Research Grants scheme (UMRG, RP038A-15HTM),Post-graduate Research Grant (PPP: PG077-2015B)
Publication Title
Biomedical Materials
Volume
13
Issue
2
Publisher
IOP Publishing