A retrospective observational study of mangrove pit viper envenomation presented to selangor middle zone cluster hospitals in Malaysia.

OBJECTIVE: There is very limited published experience on mangrove pit viper envenomation in the medical literature. This study aims to analyze the clinical characteristics, treatment modalities and outcomes of patients presenting to Selangor middle zone cluster Hospitals in Malaysia with confirmed mangrove pit viper bites. METHODS: We conducted a retrospective observational study, reviewing medical records of patients treated for mangrove pit viper bites between July 1, 2020 to June 30, 2023. Data on patient demographics, clinical characteristic, laboratory findings, treatment modalities and clinical outcomes were collected and analyzed. RESULTS: A total of 25 patients were included in this study. The majority of the patients were male (n = 23, 92%) with the mean age of 38.7 ± 17.6 years. Most frequent anatomical region involved is foot (n = 12, 48%). Common clinical presentation included localized pain (n = 24, 96%), swelling (n = 22, 88%) and fang mark (n = 22, 88%). Systemic symptoms were less common, with 1 patient exhibiting coagulopathy with clinical bleeding at 28 h post bite. Antivenom was administered to 68% (n = 17) of the patients. The majority of the patients (n = 23, 92%) recovered without significant morbidity while 8% (n = 2) of the patients developed skin infection that required antibiotic therapy. No fatalities were reported. CONCLUSION: Mangrove pit viper envenomation encountered in these regions predominantly causes local symptoms while systemic symptoms were less common. This study provides a glimpse to the clinical characteristics and management of mangrove pit viper envenomation, coagulopathy may be delayed due to characteristic of the snake venom and patient's preexisting illness. Further research is needed to enhance our understanding of this snakebite envenomation.

Tiny but Mighty: Vipera ammodytes meridionalis (Eastern Long-Nosed Viper) Ontogenetic Venom Variations in Procoagulant Potency and the Impact on Antivenom Efficacies.

The Eastern Long-Nosed Viper (Vipera ammodytes meridionalis) is considered one of the most venomous snakes in Europe. However, it is unknown whether ontogenetic variation in venom effects occurs in this subspecies and how this may impact antivenom efficacy. In this study, we compared the procoagulant activities of V. a. meridionalis venom on human plasma between neonate and adult venom phenotypes. We also examined the efficacy of three antivenoms-Viperfav, ViperaTAb, and Inoserp Europe-across our neonate and adult venom samples. While both neonate and adult V. a. meridionalis venoms produced procoagulant effects, the effects produced by neonate venom were more potent. Consistent with this, neonate venom was a stronger activator of blood-clotting zymogens, converting them into their active forms, with a rank order of Factor X >> Factor VII > Factor XII. Conversely, the less potent adult venom had a rank order of FXII marginally more activated than Factor VII, and both much more so than Factor X. This adds to the growing body of evidence that activation of factors besides FII (prothrombin) and FX are significant variables in reptile venom-induced coagulopathy. Although all three examined antivenoms displayed effective neutralization of both neonate and adult V. a. meridionalis venoms, they generally showed higher efficacy on adult venom than on neonate venom. The ranking of antivenom efficacy against neonate venom, from the most effective to the least effective, were Viperfav, Inoserp Europe, ViperaTAb; for adult venom, the ranking was Inoserp Europe, Viperfav, ViperaTAb. Our data reveal ontogenetic variation in V. a meridionalis, but this difference may not be of clinical concern as antivenom was effective at neutralizing both adult and neonate venom phenotypes. Regardless, our results highlight a previously undocumented ontogenetic shift, likely driven by the documented difference in prey preference observed for this species across age classes.

Neutralizing Nanobodies against Venoms from Naja haje Species Captured in North Africa.

Snakebite envenoming (SBE) remains a severely neglected public health issue, particularly affecting tropical and subtropical regions, with Africa experiencing an estimated 435,000 to 580,000 snakebites annually, leading to high morbidity and mortality rates, especially across Africa and Asia. Recognized as a Neglected Tropical Disease, SBE management is further complicated by the inadequate efficacy of current antivenom treatments. Of particular concern are cobras (Naja sp.), whose neurotoxins can induce rapid fatal respiratory paralysis. In this study, we investigate the potential of nanobodies as a promising next-generation of immunotherapeutics against cobra venoms. Through a dual strategy of the characterization of venom toxic fractions from cobras captured for the first time in Algeria and Tunisia biotopes, coupled with in vitro assays to evaluate their interactions with acetylcholine receptors, and subsequent immunization of dromedaries to produce specific nanobodies, we identified two lethal fractions, F5 and F6, from each venom, and selected five nanobodies with significant binding and neutralizing of 3DL50 (0.74 mg/kg). The combination of these nanobodies demonstrated a synergistic effect, reaching 100% neutralizing efficacy of 2DL50 lethal venom fraction (0.88 mg/kg) doses in mice. Additionally, our findings highlighted the complex mechanism of cobra venom action through the lethal synergism among its major toxins.

Isolation and Pharmacological Characterisation of Pre-Synaptic Neurotoxins from Thai and Javanese Russell's Viper (Daboia siamensis) Venoms.

The widespread geographical distribution of Russell's vipers (Daboia spp.) is associated with marked variations in the clinical outcomes of envenoming by species from different countries. This is likely to be due to differences in the quantity and potency of key toxins and, potentially, the presence or absence of some toxins in venoms across the geographical spectrum. In this study, we aimed to isolate and pharmacologically characterise the major neurotoxic components of D. siamensis venoms from Thailand and Java (Indonesia) and explore the efficacy of antivenom and a PLA2 inhibitor, Varespladib, against the neuromuscular activity. These data will provide insights into the link between venom components and likely clinical outcomes, as well as potential treatment strategies. Venoms were fractionated using RP-HPLC and the in vitro activity of isolated toxins assessed using the chick biventer cervicis nerve-muscle preparation. Two major PLA2 fractions (i.e., fractions 8 and 10) were isolated from each venom. Fraction 8 from both venoms produced pre-synaptic neurotoxicity and myotoxicity, whereas fraction 10 from both venoms was weakly neurotoxic. The removal of the two fractions from each venom abolished the in vitro neurotoxicity, and partially abolished myotoxicity, of the whole venom. A combination of the two fractions from each venom produced neurotoxic activity that was equivalent to the respective whole venom (10 µg/mL), but the myotoxic effects were not additive. The in vitro neurotoxicity of fraction 8 (100 nM) from each venom was prevented by the pre-administration of Thai Russell's viper monovalent antivenom (2× recommended concentration) or preincubation with Varespladib (100 nM). Additionally, the neurotoxicity produced by a combination of the two fractions was partially reversed by the addition of Varespladib (100-300 nM) 60 min after the fractions. The present study demonstrates that the in vitro skeletal muscle effects of Thai and Javanese D. siamensis venoms are primarily due to key PLA2 toxins in each venom.

Managing scorpion envenomations: A Gabes emergency department case study of 60 patients.

INTRODUCTION: Scorpion envenomation constitutes a major public health issue in Tunisia, especially in arid regions such as the Gulf of Gabes. It is necessary to understand the epidemiological and clinical characteristics of this condition and the importance of early management. AIM: This study aims to assess the epidemiological and clinical profile of patients admitted to the emergency department of Gabes University Hospital for scorpion envenomation, as well as the timing of management and intra-hospital evolution. METHODS: A retrospective descriptive study of 60 patients admitted for scorpion envenomation to the Acute Assessement unit at the Emergency Department of the Gabes University Hospital from January 2020 to January 2023. RESULTS: The average age was 35 years [1-85 years]. A slight male predominance (51.7%) was noted. Patients with chronic somatic diseases accounted for (25%) of our series. The predominant scorpion species was Androctonus australis (71.7%). The majority of incidents occurred during the nighttime (71.7%). Most patients were of rural origin (58.3%). The most common sting sites were the lower limbs (48.8%) and upper limbs (36.7%). Scorpion envenomation stages at admission were: Stage I (3.3%), Stage II (83.3%), and Stage III (8.33%). The average time to management was 2 hours. Patients classified as Stage II at admission or afterward were seen after an average of 3 hours. Patients initially classified as Stage III were seen after an average of 3 hours and 30 minutes, and those classified as Stage III during the hospitalization were seen after an average of 4 hours. The average time to management for patients transferred from the Emergency Department to the Intensive Care Unit was 4 hours. CONCLUSION: This study highlights the importance of early management of scorpion envenomation.

Antivenom potential of the latex of Jatropha mutabilis baill. (Euphorbiaceae) against Tityus stigmurus venom: Evaluating its ability to neutralize toxins and local effects in mice.

ETHNOPHARMACOLOGICAL RELEVANCE: Species of the Jatropha genus (Euphorbiaceae) are used indiscriminately in traditional medicine to treat accidents involving venomous animals. Jatropha mutabilis Baill., popularly known as "pinhão-de-seda," is found in the semi-arid region of Northeastern Brazil. It is widely used as a vermifuge, depurative, laxative, and antivenom. AIM OF THE STUDY: Obtaining the phytochemical profile of the latex of Jatropha mutabilis (JmLa) and evaluate its acute oral toxicity and inhibitory effects against the venom of the scorpion Tityus stigmurus (TstiV). MATERIALS AND METHODS: The latex of J. mutabilis (JmLa) was obtained through in situ incisions in the stem and characterized using HPLC-ESI-QToF-MS. Acute oral toxicity was investigated in mice. The protein profile of T. stigmurus venom was obtained by electrophoresis. The ability of latex to interact with venom components (TstiV) was assessed using SDS-PAGE, UV-Vis scanning spectrum, and the neutralization of fibrinogenolytic and hyaluronidase activities. Additionally, the latex was evaluated in vivo for its ability to inhibit local edematogenic and nociceptive effects induced by the venom. RESULTS: The phytochemical profile of the latex revealed the presence of 75 compounds, including cyclic peptides, glycosides, phenolic compounds, alkaloids, coumarins, and terpenoids, among others. No signs of acute toxicity were observed at a dose of 2000 mg/kg (p.o.). The latex interacted with the protein profile of TstiV, inhibiting the venom's fibrinogenolytic and hyaluronidase activities by 100%. Additionally, the latex was able to mitigate local envenomation effects, reducing nociception by up to 56.5% and edema by up to 50% compared to the negative control group. CONCLUSIONS: The latex of Jatropha mutabilis exhibits a diverse phytochemical composition, containing numerous classes of metabolites. It does not present acute toxic effects in mice and has the ability to inhibit the enzymatic effects of Tityus stigmurus venom in vitro. Additionally, it reduces nociception and edema in vivo. These findings corroborate popular reports regarding the antivenom activity of this plant and indicate that the latex has potential for treating scorpionism.

Novel insights into the application of recombinant mutated phospholipases D as antigens for developing new strategies against Loxoscelism.

Loxoscelism is the pathological condition triggered by a brown spider bite. The venom of these spiders is rich in phospholipases D (PLDs), which can induce virtually all local and systemic manifestations. Recombinant mutated PLDs from clinically relevant Loxosceles species in South America have been investigated as potential antigens to develop novel therapeutic strategies for loxoscelism. However, certain gaps need to be addressed before a clinical approach can be implemented. In this study, we examined the potential of these recombinant mutated PLDs as antigens by testing some variations in the immunization scheme. Furthermore, we evaluated the efficacy of the produced antibodies in neutralizing the nephrotoxicity and sphingomyelinase activity of brown spider venoms. Our findings indicate that the number of immunizations has a greater impact on the effectiveness of neutralization compared to the amount of antigen. Specifically, two or three doses were equally effective in reducing dermonecrosis and edema. Additionally, three immunizations proved to be more effective in neutralizing mice lethality than one or two. Moreover, immunizations mitigated the signs of kidney injury, a crucial aspect given that acute renal failure is a serious systemic complication. In vitro inhibition of the sphingomyelinase activity of Loxosceles venoms, a key factor in vivo toxicity, was nearly complete after incubation with antibodies raised against these antigens. These findings underscore the importance of implementing an effective immunization scheme with multiple immunizations, without the need for high antigen doses, and enhances the spectrum of neutralization exhibited by antibodies generated with these antigens. In summary, these results highlight the strong potential of these antigens for the development of new therapeutic strategies against cutaneous and systemic manifestations of loxoscelism.

Development and characterization of nanobody against envenomation by Naja naja oxiana.

Snakebites are considered a significant health issue. Current antivenoms contain polyclonal antibodies, which vary in their specificity against different venom components. Development and characterization of next generation antivenoms including nanobodies against Naja naja oxiana was the main aim of this study. Crude venom was injected into the Sephadex G50 filtration gel chromatography column and then toxic fractions were obtained. Then the corresponding fraction was injected into the HPLC column and the toxic peaks were identified. N. naja oxiana venom was injected into a camel and specific nanobodies screening was performed against the toxic peak using phage display technique. The obtained results showed that among the 12 clones obtained, N24 nanobody was capable of neutralizing P1, the most toxic peak obtained from HPLC chromatography. The molecular weight of P1 was measured with a mass spectrometer and was found to be about seven kDa. The results of the neutralization test of crude N. naja oxiana venom with N24 nanobody showed that 250 µg of recombinant nanobody could neutralize the toxic effects of 20 µg equivalent to LD50 × 10 of crude venom in mice. The findings indicate the potential of the developed nanobody to serve as a novel antivenom therapy.

Composition, pharmacology, and pathophysiology of the venom of monocled cobra (Naja kaouthia)- a medically crucial venomous snake of southeast Asia: An updated review.

The Monocled Cobra (Naja kaouthia), a category one medically significant snake from the Elapidae family, inflicts severe envenomation in South and Southeast Asian countries. N. kaouthia is distributed throughout the eastern and northeastern parts of India, Nepal, Bangladesh, Myanmar, Thailand, Vietnam, Malaysia, and southwestern China. Envenomation by N. kaouthia is a medical emergency, and the primary clinical symptoms are neurotoxicity and localized tissue destruction. Unfortunately, data on the actual magnitude of N. kaouthia envenomation is scarce due to poor record keeping, lack of diagnostic kits, and region-wise well-coordinated epidemiological surveys. The present review highlights the diversity in the composition of N. Kaouthia venom (NKV) across various geographical regions, as revealed through biochemical and proteomic analyses. The qualitative and quantitative differences in the toxin isoforms result in differences in lethality and pathophysiological manifestation that may limit the effectiveness of antivenom therapy. Studies on commercial polyvalent antivenom (PAV) effectiveness against distinct NKV samples have revealed varying toxicity and enzymatic activity neutralization. Additionally, the identification of snake venom's poorly immunogenic toxins by mass spectrometry, quantification of venom-specific antibodies, and implications for antivenom therapy against snakebites are highlighted. Future directions involve clinical studies on NK envenomation where the snake is frequently encountered and the correlation of this data with NKV composition in that region. For more efficient and superior hospital management of NK envenomation, research should enhance the current immunization procedure to boost the development of antibodies against less immunogenic venom components of this snake.

Paraspecific neutralization capacity of polyvalent snake antivenom against Montivipera wagneri venom.

PURPOSE: This study aims to measure the paraspecific neutralization capacity of nationally produced HSGM polyvalent snake antivenom (HSGM-PSAV), produced using Macrovipera lebetina obtusa, Montivipera xanthina, and Vipera ammodytes montandoni venom, against the lethal effect of the venom of Montivipera wagneri, which is endemic to the Eastern Black Sea and Eastern Anatolia regions of Turkey. METHODS: The neutralization capacity of HSGM-PSAV against the lethal effect of M. wagneri venom was studied using the potency determination testing method specified in the Turkish and European Pharmacopoeia. Lethal dose 50 (LD50) values of the venoms used in immunization, M. wagneri venom in mice, and effective dose 50 (ED50) values of HSGM-PSAV against four types of venoms were calculated using two-fold dilutions. RESULTS: HSGM-PSAV neutralized the lethal effect of M. wagneri venom in mice. The ED50 of the HSGM-PSAV against M. wagneri venom was calculated as 304.42 LD50/mL. CONCLUSION: As a result of this in-vivo study, it was determined that HSGM-PSAV neutralized M.wagneri venom above the antivenom neutralization capacity threshold values (≥50 LD50/mL) specified in the Turkish and European Pharmacopoeia. This result is important preclinical data regarding the usability of HSGM-PSAV in the treatment of poisoning due to M. wagneri bites.

Hypersensitivity vs. uncommonly severe local envenoming by the red-back spider, Latrodectus hasselti Thorell, 1870 (Araneae: Theridiidae).

The genus Latrodectus (Araneae: Theridiidae) consists of 35 widow spider species with global distribution. Envenoming by medically important species, latrodectism, commonly features bite site erythema and diaphoresis, variably severe pain that may be persistent, myalgia/cramping and/or myoclonus, autonomic symptoms, abdominal distress; severe envenoming can be prolonged and include serious effects such as oliguria, hypertension and, rarely, myocarditis/myocardial injury. Red-back spiders (Latrodectus hasselti) are the most common cause of envenoming in Australia and can cause the spectrum of effects noted for other medically important widow spiders. A 34-yr-old woman with a history of previous L. hasselti envenoming and treatment with antivenom was envenomed in her left ankle by a verified L. hasselti (hiding in her boot) while attending an appointment with her primary care physician. She reported some of the common effects of latrodectism including severe, prolonged pain, bite site diaphoresis, and malaise; however, she also developed marked edema that involved the entire left foot. She also exhibited mild hypertension and autonomic/non-specific effects limited to nausea, headache, and anxiety. She was effectively treated with red-back spider antivenom (a total of 4 ampoules) and supportive care; full resolution of the edema required almost 5 days. The uncommon clinical evolution of L. hasselti local envenoming observed in this patient may have been caused by a mixed picture of venom-induced effects and Type I hypersensitivity, but alternatively could be a rare, solely venom-induced manifestation. While provision of patient-centred care for anyone envenomed by Latrodectus spp. requires careful history collection and assessment of comorbidities, differentiation of atopic and direct venom effects may be challenging in some envenomed patients with established complex allergy history.

Snakebites and Antisnake Venom Utilization in Ghana's Oti Region: A 6-Year Retrospective Study.

Background: Snakebite is a global environmental and occupational hazard and a significant public health threat. In rural areas, snakebite cases often go unreported and undocumented due to the lack of access to well-structured healthcare facilities/infrastructure. In some cases, the need for antisnake venom (ASV) far outstrips supply, negatively affecting treatment outcomes. This study, therefore, assessed the epidemiological characteristics of snakebite cases, their management, and how antivenoms are utilised at the selected hospital in the Jasikan District Hospital. Methods: A 6-year retrospective study using secondary data from antivenom return forms (pharmacy records), clinical records (patient folders), the District Health Information Management System-2 (DHIMS-2) database, and consulting room registers was carried out in selected hospitals in the Jasikan District, Oti, Ghana. Results: The predominant symptom of snakebite was localised pain (71.4%). The snakebite commonly occurred at home (19%) and on farms (18%). Of the 98 snakebite cases, ASV was administered to 73 (74.5%) cases. Supportive treatment applied included prophylactic antitetanus immunoglobulin (ATS) (80.6%), prophylactic antibiotics (63%), corticosteroids (80.6%), and analgesics (63%). 95% (n = 94) of complete recoveries were recorded; three were discharged against medical advice, and one was mortality. The supply and use of antivenom were erratic throughout the months of high incidence, partly due to inconsistent availability at the Regional Medical Stores. The average ASV vials and hospital stay duration were 1.23 ± 0.86 vials and 2.67 ± 1.97 days, respectively. Although the peak of snakebites occurs in April, May, and June, the demand for antivenom in April and May exceeded supply. Conclusion: The outcome of most snakebite case management was appropriate, irrespective of inadequate ASV supply in certain months. The erratic antivenom supply should be aligned with seasonal and facility-use patterns to enhance regional snakebite management.

Enhancing snakebite management: The role of small molecule therapeutics in complementing antivenom strategies.

The variability in snake composition presents a significant challenge in accessing an effective broad-spectrum antivenom. These highly complex mixtures can result in numerous deleterious effects affecting thousands of individuals worldwide, particularly in Asia, sub-Saharan Africa, and Latin America. While the administration of antivenom remains a recommended treatment for snakebite envenomation and is the primary means to prevent systemic damage, there are limitations concerning specificity, reversal of local effects, and economic factors that hinder the availability of these antibodies. In this review, we have compiled information on the use of small molecule therapeutics in initial first-aid treatments before antivenom administration. These enzyme inhibitors have shown promise as viable candidates to broaden our treatment approaches, simplify procedures, reduce costs, and improve the clinical outcomes of affected patients.

Successful use of anti-venom cross-neutralization effects in the clinical management of Shore Pit Viper envenomation.

As the landscape becomes more urbanized, snakebites have increasingly become uncommon presentations to the emergency departments in Singapore, while snakebites causing significant envenomation are even rarer. In this case report, we discuss a 55-year-old man who had significant envenomation from a Shore Pit Viper (Trimeresurus Purpureomaculatus) and who was successfully treated with haemato-toxic polyvalent antivenom (HPAV). He initially presented with pain, swelling and bleeding over his wound. Due to a deterioration in his coagulation profile, he was given two doses of HPAV which is typically reserved for viperid snakes instead. Following administration of the anti-venom, the patient's coagulation profile improved, and the local soft tissue effects of the venom resolved. He did not manifest any adverse effects and was discharged uneventfully about 72 h after the snakebite. The cross-neutralization potential of HPAV for Shore Pit Viper (Trimeresurus Purpureomaculatus) venom in this case study suggests that there may be a possible common underlying chemical structure and pathophysiology among the venom proteins of various snake species. Given that Trimeresurus-specific antivenom is unavailable in most countries, this cross-neutralization strategy deserves further consideration and evaluation in similar circumstances.

[Snakebite in Switzerland - a potentially life-threatening event?] / Schlangenbiss im Glarnerland ­ ein potenziell lebensbedrohliches Ereignis?

INTRODUCTION: A 39-year-old healthy patient accidentally stepped barefoot on an adder and was then bitten into the foot. After initially only local complaints, severe systemic symptoms developed within 10-15 minutes with swelling of the lips and soft palate, recurrent vomiting, bradycardia, weakly palpable peripheral pulse, hypotension, dyspnea and intermittent somnolence. The potentially life-threatening consequences of this severe poisoning could be avoided by using adequate emergency measures and immediate intravenous administration of antivenin.

Snakebite incidence and healthcare-seeking behaviors in Eastern Province, Rwanda: A cross-sectional study.

BACKGROUND: Snakebite envenoming (SBE) is a potentially life-threatening event that can lead to severe physical, mental, and economic hardships, particularly in under-resourced regions like sub-Saharan Africa. In Rwanda, there have been no epidemiological assessments of SBE to guide the Ministry of Health in its efforts to reduce the burden. This study had two main objectives: first, to estimate the incidence of snakebites across districts, and second, to describe formal versus informal healthcare seeking behaviors among snakebite victims in Eastern Province, Rwanda in 2020. METHODOLOGY: This cross-sectional study utilized a cluster sampling approach, involving Community Health Workers (CHWs) who recorded snakebite cases across seven districts. The descriptive analysis considered sampling weights, and healthcare seeking behavior was assessed based on the type of care sought as the first point of treatment. FINDINGS: The study surveyed 390,546 individuals across 763 villages and estimated a provincial annual incidence rate of 4.3 cases per 1,000 individuals. Incidence estimates ranged from 1.1 cases per 1,000 in Nyagatare to 9.1 cases per 1,000 individuals in Bugesera and Ngoma districts. Among the 2,545 cases recorded by CHWs, three resulted in deaths. Regarding healthcare-seeking behavior, 13% of snakebite victims (143 out of 1,098) initially consulted formal care providers (CHWs, health post/center, or hospital), while 87% sought informal care (family/friends, pharmacist, or traditional healer). Approximately half of the victims (583, 53.1%) reported severe symptoms. Unsafe practices included skin cutting/burning, tourniquet application, use of black stones, and venom extraction; only 24 cases (2.2%) received anti-venom. CONCLUSIONS: This large-scale community-based assessment highlights variations in snakebite incidence between districts and confirms frequent involvement of traditional healers in management. Improving access to anti-venom and community education on the risks of ineffective practices, along with timely use of formal healthcare, are crucial. Collaboration between healthcare providers, traditional healers, community leaders, and policymakers is essential to implement targeted interventions for enhancing snakebite prevention and management strategies.

Importance of the Cysteine-Rich Domain of Snake Venom Prothrombin Activators: Insights Gained from Synthetic Neutralizing Antibodies.

Snake venoms are cocktails of biologically active molecules that have evolved to immobilize prey, but can also induce a severe pathology in humans that are bitten. While animal-derived polyclonal antivenoms are the primary treatment for snakebites, they often have limitations in efficacy and can cause severe adverse side effects. Building on recent efforts to develop improved antivenoms, notably through monoclonal antibodies, requires a comprehensive understanding of venom toxins. Among these toxins, snake venom metalloproteinases (SVMPs) play a pivotal role, particularly in viper envenomation, causing tissue damage, hemorrhage and coagulation disruption. One of the current challenges in the development of neutralizing monoclonal antibodies against SVMPs is the large size of the protein and the lack of existing knowledge of neutralizing epitopes. Here, we screened a synthetic human antibody library to isolate monoclonal antibodies against an SVMP from saw-scaled viper (genus Echis) venom. Upon characterization, several antibodies were identified that effectively blocked SVMP-mediated prothrombin activation. Cryo-electron microscopy revealed the structural basis of antibody-mediated neutralization, pinpointing the non-catalytic cysteine-rich domain of SVMPs as a crucial target. These findings emphasize the importance of understanding the molecular mechanisms of SVMPs to counter their toxic effects, thus advancing the development of more effective antivenoms.