Snakebite Envenoming - A Combined Density Equalizing Mapping and Scientometric Analysis of the Publication History.

Estimates suggest that more than 25,000 to 125,000 people die annually from snakebite envenomation worldwide. In contrast to this major disease burden, thorough bibliometric studies do not exist so far that illustrate the overall research activity over a long time span. Therefore, the NewQIS-platform conducted an analysis on snakebite envenoming using the Thomson Reuters database Web of Science. To determine and assess changes regarding the scientific activities and to specifically address the more recent situation we analyzed two time intervals (t). During the first time interval from 1900 to 2007 (t1) 13,015 publications (p) were identified. In the following period (2008-2016 = t2) 4,982 publications were identified by the same search strategy. They originate from 114 (t1) respectively 121 countries (t2), with the USA (p = 3518), Brazil (p = 1100) and Japan (p = 961) being most productive in the first period, and the USA (p = 1087), Brazil (p = 991) and China (p = 378) in the second period, respectively. Setting the publication numbers in relation to GDP/capita, Brazil leads with 92 publications per 10,000 Int$GDP/capita, followed by India with 79 publications per 10000 Int$GDP/capita (t1). Comparing the country's publication activity with the Human Development Index level indicates that the majority of the publications is published by highly developed countries. When calculating the average citation rates (citations per published item = CR) mainly European countries show the highest ranks: From 1900-2007 Sweden ranks first with a CR = 27, followed by the Netherlands (CR = 24.8), Switzerland (CR = 23), Spain, Austria and the USA (CR = 22). From 2008 to 2016 the highest rate achieves Switzerland with a value of 24.6, followed by Belgium (CR = 18.1), Spain (CR = 16.7), Costa Rica (CR = 14.9) and Netherlands (CR = 14). Compared with this, the USA was placed at rank 13 (CR = 9,5). In summary, the present study represents the first density-equalizing map projection and in-depth scientometric analysis of the global research output on snakebites and its venoms. So it draws a sketch of the worldwide publication architecture and indicates that countries with a high incidence of snakebites and a low economical level still need to be empowered in carrying out research in this area.

Fatal neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal: a case report.

BACKGROUND: Neurotoxic envenomation following bites by kraits (Bungarus species) is a leading cause of snakebite mortality in South Asia. Over a long time, this had been attributed only to one species, the common krait (Bungarus caeruleus). However, recent research has provided increasing evidence of the involvement of several krait species. Here, we report a fatal case of neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal. CASE PRESENTATION: A 33-year-old man was bitten in the outdoor corridor of his home in the eastern hills of Ilam district while handling a snake he thought to be non-venomous. He subsequently developed severe abdominal pain, frequent vomiting, and signs of neurotoxic envenomation leading to respiratory paralysis. The patient did not respond to Indian polyvalent antivenom given 4 h after the bite and died under treatment 8 h after the bite. This is the second time that a B. niger was observed in Nepal, the first documented case of envenomation by this species in the country and the sixth reported case worldwide. CONCLUSIONS: Previous distribution records - from eastern India and western Nepal, from western hills in Nepal, and from lowland localities in India and Bangladesh - indicate risk of envenomation by B. niger throughout the low and intermediate elevations of Nepal up to at least 1,500 m above sea level. As very few people in Nepal bring killed snakes to healthcare centers and because there is a general belief among local people that there are no kraits in the hills, bites by B. niger are likely to be misdiagnosed and underreported.

Fatal neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal: a case report

Neurotoxic envenomation following bites by kraits (Bungarus species) is a leading cause of snakebite mortality in South Asia. Over a long time, this had been attributed only to one species, the common krait (Bungarus caeruleus). However, recent research has provided increasing evidence of the involvement of several krait species. Here, we report a fatal case of neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal. Case presentation A 33-year-old man was bitten in the outdoor corridor of his home in the eastern hills of Ilam district while handling a snake he thought to be non-venomous. He subsequently developed severe abdominal pain, frequent vomiting, and signs of neurotoxic envenomation leading to respiratory paralysis. The patient did not respond to Indian polyvalent antivenom given 4 h after the bite and died under treatment 8 h after the bite. This is the second time that a B. niger was observed in Nepal, the first documented case of envenomation by this species in the country and the sixth reported case worldwide. Conclusions Previous distribution records from eastern India and western Nepal, from western hills in Nepal, and from lowland localities in India and Bangladesh indicate risk of envenomation by B. niger throughout the low and intermediate elevations of Nepal up to at least 1,500 m above sea level. As very few people in Nepal bring killed snakes to healthcare centers and because there is a general belief among local people that there are no kraits in the hills, bites by B. niger are likely to be misdiagnosed and underreported.(AU)

Fatal neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal: a case report

Background Neurotoxic envenomation following bites by kraits (Bungarus species) is a leading cause of snakebite mortality in South Asia. Over a long time, this had been attributed only to one species, the common krait (Bungarus caeruleus). However, recent research has provided increasing evidence of the involvement of several krait species. Here, we report a fatal case of neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal. Case presentation A 33-year-old man was bitten in the outdoor corridor of his home in the eastern hills of Ilam district while handling a snake he thought to be non-venomous. He subsequently developed severe abdominal pain, frequent vomiting, and signs of neurotoxic envenomation leading to respiratory paralysis. The patient did not respond to Indian polyvalent antivenom given 4 h after the bite and died under treatment 8 h after the bite. This is the second time that a B. niger was observed in Nepal, the first documented case of envenomation by this species in the country and the sixth reported case worldwide. Conclusions Previous distribution records - from eastern India and western Nepal, from western hills in Nepal, and from lowland localities in India and Bangladesh - indicate risk of envenomation by B. niger throughout the low and intermediate elevations of Nepal up to at least 1,500 m above sea level. As very few people in Nepal bring killed snakes to healthcare centers and because there is a general belief among local people that there are no kraits in the hills, bites by B. niger are likely to be misdiagnosed and underreported.(AU)

Fatal neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal: a case report

Neurotoxic envenomation following bites by kraits (Bungarus species) is a leading cause of snakebite mortality in South Asia. Over a long time, this had been attributed only to one species, the common krait (Bungarus caeruleus). However, recent research has provided increasing evidence of the involvement of several krait species. Here, we report a fatal case of neurotoxic envenomation following the bite of a greater black krait (Bungarus niger) in Nepal. Case presentation A 33-year-old man was bitten in the outdoor corridor of his home in the eastern hills of Ilam district while handling a snake he thought to be non-venomous. He subsequently developed severe abdominal pain, frequent vomiting, and signs of neurotoxic envenomation leading to respiratory paralysis. The patient did not respond to Indian polyvalent antivenom given 4 h after the bite and died under treatment 8 h after the bite. This is the second time that a B. niger was observed in Nepal, the first documented case of envenomation by this species in the country and the sixth reported case worldwide. Conclusions Previous distribution records from eastern India and western Nepal, from western hills in Nepal, and from lowland localities in India and Bangladesh indicate risk of envenomation by B. niger throughout the low and intermediate elevations of Nepal up to at least 1,500 m above sea level. As very few people in Nepal bring killed snakes to healthcare centers and because there is a general belief among local people that there are no kraits in the hills, bites by B. niger are likely to be misdiagnosed and underreported.

A multicomponent strategy to improve the availability of antivenom for treating snakebite envenoming.

Snakebite envenoming is a common but neglected public health problem, particularly in impoverished rural regions of sub-Saharan Africa, Asia and Latin America. The only validated treatment for this condition is passive immunotherapy with safe and effective animal-derived antivenoms. However, there is a long-lasting crisis in the availability of these life-saving medications, particularly in sub-Saharan Africa and parts of Asia. We herein advocate a multicomponent strategy to substantially improve the availability of safe and effective antivenoms at the global level. This strategy is based on: (i) preparing validated collections of representative venom pools from the most medically dangerous snakes in high-risk regions of the world; (ii) strengthening the capacity of national antivenom manufacturing and quality control laboratories and their regulatory authorities and establishing new facilities in developing countries through technology transfer, as an integral part of efforts to develop their biological products industry; (iii) getting established laboratories to generate antivenoms for various regions of the world; and (iv) getting governments and relevant organizations to give snakebite envenoming due recognition within national and international public health policy frameworks. These ways of making antivenom available should be complemented by actions to improve health information systems, the accessibility of antivenoms, the training of medical and nursing staff, and community-based education. Such a multicomponent strategy involving stakeholders on many levels could help consolidate sustainable improvements in antivenom availability worldwide.

L'envenimation par morsure de serpent est un problème de santé publique fréquent, mais négligé, en particulier dans les régions rurales pauvres de l'Afrique subsaharienne, de l'Asie et de l'Amérique latine. Le seul traitement validé pour soigner cet état est l'immunothérapie passive avec des sérums antivenimeux d'origine animale sûrs et efficaces. Cependant, une crise durable limite actuellement la disponibilité de ces médicaments vitaux, surtout en Afrique subsaharienne et dans certaines parties de l'Asie. Nous préconisons ici une stratégie à composants multiples pour améliorer considérablement la disponibilité des sérums antivenimeux sûrs et efficaces à l'échelle mondiale. Cette stratégie repose sur: (i) la préparation de collections validées de groupes représentatifs de venins prélevés sur les serpents les plus dangereux sur le plan médical dans les régions à haut risque du monde; (ii) le renforcement de la capacité de production nationale des sérums antivenimeux, des laboratoires de contrôle qualité et de leurs organismes de réglementation, et la création de nouvelles installations dans les pays en développement par transfert de technologies, en tant que partie intégrante de la stratégie de développement de leur industrie de produits biologiques; (iii) la production par les laboratoires déjà établis de sérums antivenimeux pour les différentes régions du monde; et (iv) la reconnaissance officielle par les gouvernements et les organisations compétentes de l'envenimation par morsure de serpent dans le cadre des politiques de santé publique nationales et internationales. Ces façons de rendre disponibles les sérums antivenimeux devraient être complétées par des actions visant à améliorer les systèmes d'informations sanitaires, l'accessibilité des sérums antivenimeux, la formation du personnel médical et infirmier et les programmes communautaires d'éducation. Une telle stratégie à composants multiples impliquant des acteurs à différents niveaux pourrait contribuer à consolider les améliorations durables en matière de disponibilité des sérums antivenimeux dans le monde entier.

El envenenamiento por mordedura de serpiente es un problema de salud pública común pero desatendido, especialmente en las regiones rurales más pobres de África subsahariana, Asia y América Latina. El único tratamiento reconocido contra estas mordeduras es la inmunoterapia pasiva con sueros antiofídicos de origen animal seguros y eficaces. Sin embargo, la disponibilidad de estos medicamentos esenciales para salvar vidas lleva mucho tiempo en crisis, en particular en África subsahariana y en algunas zonas de Asia. En el presente documento, abogamos por una estrategia multicomponente para mejorar de forma sustancial la disponibilidad de sueros antiofídicos seguros y eficaces en todo el mundo. La estrategia se basa en: (i) preparar colecciones reconocidas de sueros antiofídicos representativos de las serpientes más peligrosas en zonas de alto riesgo del mundo; (ii) reforzar la capacidad nacional de producción de sueros antiofídicos y la calidad de los laboratorios de control y sus autoridades normativas, así como crear instalaciones nuevas en los países en desarrollo por medio de la transferencia de tecnología como parte integral de los esfuerzos por desarrollar su industria de productos biológicos; (iii) conseguir que los laboratorios consolidados fabriquen sueros antiofídicos para varias regiones del mundo; y (iv) conseguir que los gobiernos y las organizaciones pertinentes otorguen al envenenamiento por mordedura de serpiente el reconocimiento debido dentro del marco de las políticas nacionales e internacionales de salud pública. Estas tareas dirigidas a facilitar el suero antiofídico deben complementarse con acciones para mejorar los sistemas de información sobre la salud, la accesibilidad de los antiofídicos, la formación del personal médico y de enfermería, y la educación comunitaria. Una estrategia multicomponente de ese tipo, que incluye a los interesados a varios niveles, podría ayudar a consolidar mejoras sostenibles en la disponibilidad de antiofídicos en todo el mundo.

Crystal structure of a novel myotoxic Arg49 phospholipase A2 homolog (zhaoermiatoxin) from Zhaoermia mangshanensis snake venom: insights into Arg49 coordination and the role of Lys122 in the polarization of the C-terminus.

The venom of Zhaoermia mangshanensis, encountered solely in Mt Mang in China's Hunan Province, exhibits coagulant, phosphodiesterase, l-amino acid oxidase, kallikrein, phospholipase A2 and myotoxic activities. The catalytically inactive PLA2 homolog referred to as zhaoermiatoxin is highly myotoxic and displays high myonecrotic and edema activities. Zhaoermiatoxin possesses a molecular weight of 13,972Da, consists of 121 amino-acid residues cross-linked by seven disulfide bridges and shares high sequence homology with Lys49-PLA2s from the distantly related Asian pitvipers. However, zhaoermiatoxin possesses an arginine residue at position 49 instead of a lysine, thereby suggesting a secondary Lys49-->Arg substitution which results in a catalytically inactive protein. We have determined the first crystal structure of zhaoermiatoxin, an Arg49-PLA2, from Zhaoermia mangshanensis venom at 2.05 angstroms resolution, which represents a novel member of phospholipase A2 family. In this structure, unlike the Lys49 PLA2s, the C-terminus is well ordered and an unexpected non-polarized state of the putative calcium-binding loop due to the flip of Lys122 towards the bulk solvent is observed. The orientation of the Arg-49 side chain results in a similar binding mode to that observed in the Lys49 PLA2s; however, the guadinidium group is tri-coordinated by carbonyl oxygen atoms of the putative calcium-binding loop, whereas the Nzeta atom of lysine is tetra-coordinated as a result of the different conformation adopted by the putative calcium-binding loop.

Crystallization and preliminary X-ray diffraction analysis of a novel Arg49 phospholipase A2 homologue from Zhaoermia mangshanensis venom.

Zhaoermiatoxin, an Arg49 phospholipase A2 homologue from Zhaoermia mangshanensis (formerly Trimeresurus mangshanensis, Ermia mangshanensis) venom is a novel member of the PLA2-homologue family that possesses an arginine residue at position 49, probably arising from a secondary Lys49-->Arg substitution that does not alter the catalytic inactivity towards phospholipids. Like other Lys49 PLA2 homologues, zhaoermiatoxin induces oedema and strong myonecrosis without detectable PLA2 catalytic activity. A single crystal with maximum dimensions of 0.2 x 0.2 x 0.5 mm was used for X-ray diffraction data collection to a resolution of 2.05 A using synchrotron radiation and the diffraction pattern was indexed in the hexagonal space group P6(4), with unit-cell parameters a = 72.9, b = 72.9, c = 93.9 A.