Determination of median effective dose(ED_(50)) of scorpion antivenom against scorpion envenomation using a newly developed formula  

作　　者：Saganuwan Alhaji Saganuwan 

机构地区：[1]Department of Veterinary Physiology,Pharmacology and Biochemistry, College of Veterinary Medicine, University of Agriculture,Makurdi, Benue State, Nigeria

出　　处：《Animal Models and Experimental Medicine》2018年第3期228-234,共7页动物模型与实验医学（英文）

摘　　要：Background: About 50 species of scorpions cause fatal scorpionism worldwide.Most of these are members of the Buthidae family, and include, among others,Mesobuthus eupeus, Androctonus crassicauda, Leiurus abdullahbayrami, Leiurus quinquestriatus, Tityus pachyurus and Androctonus australis. Because high doses of scorpion venom and antivenom can cause death and hypersensitive reactions, there is a need to develop a formula that can be used to calculate both lethal and effective doses for scorpion venom and antivenom, respectively, thereby obviating the need for laboratory experiments.Methods: In view of this, a literature search was carried out with the aim of modifying the formula(LD_(50)=ED_(50)/3× W_a × 10^(-4))for calculation of the median lethal dose(LD_(50)) of scorpion venom and the ED_(50) of antivenom. The human equivalent dose(HED) formula was assessed for extrapolation of LD_(50) and ED_(50) from animals to human for comparison and relevance with the new formula.Results: The findings showed that the newly developed formula(LD_(50)= ED_(50)^(1/3)×W_a× 10^(-4)) yielded results that are very close to the reported values. Therefore, the newly developed and HED formulas can be used for calculation of LD_(50) and ED_(50) values for scorpion venom and antivenom, respectively.Conclusion: The new formula yielded better results than the HED formula, confirming its predictive validity, precision, and reliability, thereby obviating the need for rigorous experiments and justifying the principles of reduction, refinement, and replacement(3 Rs).Background: About 50 species of scorpions cause fatal scorpionism worldwide.Most of these are members of the Buthidae family, and include, among others,Mesobuthus eupeus, Androctonus crassicauda, Leiurus abdullahbayrami, Leiurus quinquestriatus, Tityus pachyurus and Androctonus australis. Because high doses of scorpion venom and antivenom can cause death and hypersensitive reactions, there is a need to develop a formula that can be used to calculate both lethal and effective doses for scorpion venom and antivenom, respectively, thereby obviating the need for laboratory experiments.Methods: In view of this, a literature search was carried out with the aim of modifying the formula(LD_(50)=ED_(50)/3× W_a × 10^(-4))for calculation of the median lethal dose(LD_(50)) of scorpion venom and the ED_(50) of antivenom. The human equivalent dose(HED) formula was assessed for extrapolation of LD_(50) and ED_(50) from animals to human for comparison and relevance with the new formula.Results: The findings showed that the newly developed formula(LD_(50)= ED_(50)^(1/3)×W_a× 10^(-4)) yielded results that are very close to the reported values. Therefore, the newly developed and HED formulas can be used for calculation of LD_(50) and ED_(50) values for scorpion venom and antivenom, respectively.Conclusion: The new formula yielded better results than the HED formula, confirming its predictive validity, precision, and reliability, thereby obviating the need for rigorous experiments and justifying the principles of reduction, refinement, and replacement(3 Rs).

关 键 词：ANTIVENOM ED50 human equivalent dose LD50 SCORPION VENOM 

分 类 号：R[医药卫生]