Neutralisation of Local Haemorrhage Induced by the Saw-Scaled Viper<i>Echis carinatus sochureki</i>Venom Using Ethanolic Extract of<i>Hibiscus aethiopicus</i>L.

Hasson, Sidgi S.; Al-Balushi, Mohammed S.; Said, Elias A.; Habbal, Omar; Idris, Mohamed A.; Mothana, Ramzi A.; Sallam, Talal A.; Al-Jabri, Ali A.

doi:10.1155/2012/540671

Cited by 6 publications

(2 citation statements)

References 28 publications

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“…It provides a number of benefits, including enhanced stability and activity. (Hasson et al, 2012). In the present study the developed MHNC had significant neutralization of snake venoms and led to survival of sensitized animals.…”

Section: Log Dosesupporting

confidence: 58%

Animal Studies on Venom Neutralization potential of Metal-Herbal (Copper-Leucas zeylanica) Nanocomposites (MHNC) Against Naja naja and Bungarus Caeruleus Venoms

Dev¹,

Meenatchisundaram²

2021

JUSST

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Objectives: The present study focuses on development of novel Metal-Herbal Nano composite (MHNC) formulation against Naja naja and Bungarus Caeruleus venoms on animal models. Methods: The venoms were procured from Irula snake catchers society in lyophilised forms. Herbal-metal nanocomposites were prepared in 1:1 combinations. Single strength concentration of Leucas zeylanica extracts and copper oxide metal nanoparticles was used to attain these ratio’s. In vivo venom neutralization analysis was carried out in Swiss albino mice. The LD50 and ED50 of the MHNC were determined. Results: The LD50 of the Naja naja venom was observed to be 0.19μg/g and 0.174μg/g for Bungarus Caeruleus venom. The ED50 of the MHNC against Naja naja venom was observed to be 14.22mg and 63.39mg for Bungarus Caeruleus venom. Conclusion: The MHNC developed in this study has significant venom neutralization potential against Naja naja and Bungarus Caeruleus venoms. Therefore, the MHNC can be used for development of anti-venom drugs.

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Section: Log Dosesupporting

confidence: 58%

Animal Studies on Venom Neutralization potential of Metal-Herbal (Copper-Leucas zeylanica) Nanocomposites (MHNC) Against Naja naja and Bungarus Caeruleus Venoms

Dev¹,

Meenatchisundaram²

2021

JUSST

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“…Apart from this, fibrinolytic activity of ECV results in clot dissolution contributing to haemorrhage. Haemorrhage in turn leads to hypoxia, a secondary event, which is the onset for progressive local tissue damage and necrosis (Hasson et al 2012;Nanjaraj Urs et al 2015b).…”

Section: Resultsmentioning

confidence: 99%

Albizia lebbeckseed methanolic extract as a complementary therapy to manage local toxicity ofEchis carinatusvenom in a murine model

Amog

Manjuprasanna

Manjunath

et al. 2016

Pharmaceutical Biology

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Context and objective: Viperid venom-induced chronic local-toxicity continues even after anti-snake venom treatment. Therefore, traditional antidote Albizia lebbeck L. (Fabaceae) seed extract was tested against Echis carinatus S. (Viperidae) venom (ECV)-induced local toxicity to evaluate its complementary remedy. Materials and methods: Soxhlet extraction of A. lebbeck seeds was performed with the increasing polarity of solvents (n-hexane to water); the extract was screened for phytochemicals (alkaloids, anthraquinones, flavonoids, glycosides, phenolics, saponins, steroids and tannins). In preliminary in vitro analysis, A. lebbeck methanolic extract (ALME) demonstrated significant inhibition of ECV proteases, the major enzyme-toxin responsible for local-toxicity. Therefore, in vitro neutralizing potential of ALME was further evaluated against hyaluronidases and phospholipase A 2 (1:1-1:100 w/w). In addition, alleviation of ECV induced characteristic local-toxicity [haemorrhage (i.d.) and myotoxicity (i.m.)] was determined in mice. Results: ALME contained high concentrations of phenolics and flavonoids and demonstrated significant in vitro inhibition of ECV protease (IC 50 ¼ 36.32 lg, p < 0.0001) and hyaluronidase (IC 50 ¼ 91.95 lg, p < 0.0001) at 1:100 w/w. ALME significantly neutralized ECV induced haemorrhage (ED 50 ¼ 26.37 lg, p < 0.0001) and myotoxicity by significantly reducing serum creatinine kinase (ED 50 ¼ 37.5 lg, p < 0.0001) and lactate dehydrogenase (ED 50 ¼ 31.44 lg, p ¼ 0

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Immunoreactivity and neutralization efficacy of Pakistani Viper Antivenom (PVAV) against venoms of Saw-scaled Vipers (Echis carinatus subspp.) and Western Russell's Vipers (Daboia russelii) from the Indian subcontinent

Lim,

Tan,

Tan

2024

Acta Tropica

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Neutralisation of Local Haemorrhage Induced by the Saw-Scaled ViperEchis carinatus sochurekiVenom Using Ethanolic Extract ofHibiscus aethiopicusL.

Cited by 6 publications

References 28 publications

Animal Studies on Venom Neutralization potential of Metal-Herbal (Copper-Leucas zeylanica) Nanocomposites (MHNC) Against Naja naja and Bungarus Caeruleus Venoms

Animal Studies on Venom Neutralization potential of Metal-Herbal (Copper-Leucas zeylanica) Nanocomposites (MHNC) Against Naja naja and Bungarus Caeruleus Venoms

Albizia lebbeckseed methanolic extract as a complementary therapy to manage local toxicity ofEchis carinatusvenom in a murine model

Immunoreactivity and neutralization efficacy of Pakistani Viper Antivenom (PVAV) against venoms of Saw-scaled Vipers (Echis carinatus subspp.) and Western Russell's Vipers (Daboia russelii) from the Indian subcontinent

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