The Preclinical Evaluation of a Second-Generation Antivenom for Treating Snake Envenoming in India

Saurabh Attarde,Ashwin Iyer,Suyog Khochare,Mayur Vikharankar,Umesh Shaligram,Kartik Sunagar

doi:10.3390/toxins14030168

Saurabh Attarde, Ashwin Iyer + Show 4 more

Open Access

https://doi.org/10.3390/toxins14030168

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Abstract

Snake envenoming afflicts the Indian subcontinent with the highest rates of mortality (47,000) and morbidity globally. The only effective treatment for snakebites is the administration of antivenom, which is produced by the hyperimmunisation of equines. Commercial Indian antivenoms, however, have been shown to exhibit a poor preclinical performance in neutralising venom, as a result of inter- and intrapopulation snake venom variation. Additionally, their poor dose effectiveness necessitates the administration of larger volumes of antivenom for treatment, leading to several harmful side effects in snakebite victims, including serum sickness and fatal anaphylaxis. In this study, we employed chromatographic purification to enhance the dose efficacy of commercial Indian antivenoms. The efficacy of this ‘second-generation’ antivenom was comparatively evaluated against six other marketed antivenoms using a number of in vitro and in vivo preclinical assays, which revealed its superior venom recognition capability. Enhanced purity also resulted in significant improvements in dose effectiveness, as the ‘second-generation’ antivenom exhibited a 3 to 4.5 times increased venom neutralisation potential. Furthermore, preclinical assays revealed the increased effectiveness of the ‘second-generation’ antivenom in countering morbid effects inflicted by the ‘big four’ Indian snakes. Thus, we demonstrate the role of simpler purification steps in significantly enhancing the effectiveness of snakebite therapy in regions that are most affected by snakebites.

Highlights

The purification steps implemented in the production of the second-generation antivenom in this study revealed the impact of preprocessing steps, as these resulted in a significant improvement in the overall quality of the product
The second-generation antivenoms exhibited clean Size-Exclusion HPLC (SE-HPLC) profiles in comparison to their conventional counterparts, highlighting the significant improvements made in purity (Figure 2)
Recent studies have documented the inefficacy of these antivenoms against geographically disparate populations of the ‘big four’ snakes, as well as against other medically important yet neglected species [3,4,8,9,10,11,12,13]

Summary

Introduction

Commercial Indian antivenoms have been documented to exhibit a poor preclinical efficacy in neutralising venom due to inter- and intrapopulation venom variation in targeted species [3,4,5,6,7], as well as closely related and medically important yet neglected snakes (a.k.a., the ‘neglected many’) [8,9,10,11,12,13] They are known to exhibit a poor dose efficacy, resulting in the need for larger volumes of antivenom doses in order to effect a cure. In addition to exploring recombinant technology for the production of effective snakebite therapeutics, there is an urgent need to improve the efficacy of existing antivenom products

Methods

Discussion

Conclusion