Laboratory of Venoms and Toxins, Pasteur Institute of Morocco, 1 Place Louis Pasteur, Casablanca 20250, Morocco.
Laboratory of Molecular Genetics, Physiopathology and Biotechnology, Faculty of Sciences Ain Chock, Hassan II University of Casablanca, B.P 5366 Maarif, Casablanca 20000, Morocco.
Toxins (Basel). 2024 May 4;16(5):214. doi: 10.3390/toxins16050214.
Scorpion envenomation poses a global public health issue, with an estimated 1,500,000 cases worldwide annually resulting in 2600 deaths. North Africa, particularly Morocco, experiences severe envenomations, mainly attributed to and in Morocco, and and in Algeria and Tunisia, with case numbers often underestimated. Current treatment relies mainly on symptomatic approaches, except in Morocco, where management is limited to symptomatic treatment due to controversies regarding specific treatment. In Morocco, between 30,000 and 50,000 scorpion envenomation cases are reported annually, leading to hundreds of deaths, mainly among children. Controversies among clinicians persist regarding the appropriate course of action, often limiting treatments to symptomatic measures. The absence of a specific antivenom for the venoms of the most lethal scorpions further exacerbates the situation. This study aims to address this gap by developing a monovalent antivenom against the endemic and most dangerous scorpion, . The antivenom was produced by immunizing albino rabbits with a mixture of venom collected from high-risk areas in Morocco. Immunizations were performed by subcutaneous injections at multiple sites near the lymphatic system, following an immunization schedule. Production control of neutralizing antibody titers was conducted through immunodiffusion. Once a sufficient antibody titer was achieved, blood collection was performed, and the recovered plasma underwent affinity chromatography. The efficacy of purified IgG was evaluated by determining the ED in mice, complemented by histological and immunohistochemical studies on its ability to neutralize venom-induced tissue alterations and the neutralization of toxins bound to receptors in the studied organs. The monovalent antivenom demonstrated specificity against venom and effective cross-protection against the venom of the scorpions and , highly implicated in lethal envenomations in the Maghreb. This study shows that the developed monovalent antivenom exhibits notable efficacy against local scorpions and a surprising ability to neutralize the most lethal envenomations in North Africa. These results pave the way for a new, more specific, and promising therapeutic approach to countering severe scorpion envenomations, especially in Morocco, where specific treatment is lacking.
蝎子螫伤是一个全球性的公共卫生问题,全球每年估计有 150 万例病例,导致 2600 人死亡。北非,特别是摩洛哥,经历了严重的螫伤,主要归因于摩洛哥的 和 ,以及阿尔及利亚和突尼斯的 和 ,病例数量往往被低估。目前的治疗主要依赖于对症治疗,摩洛哥除外,由于对特定治疗方法的争议,摩洛哥的管理仅限于对症治疗。在摩洛哥,每年报告有 3 万至 5 万例蝎子螫伤病例,导致数百人死亡,主要是儿童。临床医生之间关于适当治疗方法的争议仍然存在,通常将治疗限于对症措施。缺乏针对最致命蝎子毒液的特效抗毒液进一步加剧了这种情况。本研究旨在通过开发针对本地和最危险蝎子 的单价抗毒液来解决这一差距。抗毒液是通过用从摩洛哥高风险地区收集的 毒液混合物免疫白化兔产生的。免疫是通过在靠近淋巴系统的多个部位进行皮下注射,按照免疫计划进行的。通过免疫扩散法进行中和抗体滴度的生产控制。一旦获得足够的抗体滴度,就进行采血,回收的血浆进行亲和层析。通过测定 ED 来评估纯化 IgG 的功效,并用组织学和免疫组织化学研究来补充,以确定其中和毒液引起的组织改变的能力以及中和结合在研究器官受体上的毒素的能力。单价抗毒液对 毒液具有特异性,并对 和 毒液具有有效的交叉保护作用,这两种毒液在马格里布的致命螫伤中高度涉及。这项研究表明,开发的单价抗毒液对当地蝎子具有显著疗效,并且令人惊讶地能够中和北非最致命的螫伤。这些结果为一种新的、更特异的、有前途的治疗方法开辟了道路,以应对严重的蝎子螫伤,特别是在摩洛哥,那里缺乏特效治疗。
