摘要
BACKGROUND Botulinum toxin(BoNT)is a bacterial poison that acts by blocking the release of acetylcholine-containing vesicles at the neuromuscular junction.Notably,a mild amount of BoNT is known to exert therapeutic benefits against various diseases,including migraine,movement disorders,anxiety and neurocognitive deficits.BoNT treatment appears to increase platelet count in circulation.Therefore,BoNT treatment may be associated with the regulation of blood coagulation upon haemorrhagic events.However,the effects of BoNT on the degree of bleeding and clotting events have not yet been determined.AIM To investigate the effect of BoNT on the bleeding parameters and blood coagulation events in experimental mice.METHODS A group of 7-8-month-old mice was intramuscularly injected with a mild single dose of BoNT.After a month of BoNT injection,animals were subjected to tail bleeding assay,assessment of clotting time,and degree of platelet aggregation in comparison with the control group.RESULTS Results revealed that BoNT injection significantly reduced blood loss and bleeding time in experimental aging mice upon tail tip transection.Moreover,the blood samples collected from the BoNT-treated mice showed enhanced platelet aggregation and intense formation of the fibrin clot compared to the control.This study indicates a putative therapeutic value of BoNT in mitigating bleeding episodes,possibly through its platelet-enhancing property.CONCLUSION BoNT treatment effectively facilitates blood coagulation.Upon further validation,this approach can be translated to treat traumatic blood vessel injuries,haemorrhagic diseases,and bleeding complications associated with surgical procedures.
基金
Supported by The Science and Engineering Research Board,No.SERB-EEQ/2016/000639
The University Grants Commission-Faculty Recharge Programme(UGC-FRP),No.F4-5(97)/2014
Rashtriya Uchchatar Shiksha Abhiyan(RUSA)2.0,Biological Sciences,Bharathidasan University,No.TN RUSA:311/RUSA(2.0)/2018
Infrastructure of the Department of Animal Science,Bharathidasan University,UGC-SAP-DRS and DST-FIST
and CSIR-SRF Direct,No.09/0475(23353)/2025-EMR-I.
