A randomized, blinded, comparative trial of one pepsin-digested and two whole IgG antivenoms for Bothrops snake bites in Uraba, Colombia. The Regional Group on Antivenom Therapy Research (REGATHER).

Otero-Patiño, Rafael; Cardoso, João Luiz Costa; Higashi, Hisako Gondo; Núñez, Vitelbina; Dı́az, Abel; Toro, María Eugenia; Garcı́a, Mildred; Sierra, Arturo; García, Laura Pérez; Moreno, Antonio Javier Márquez; Médina, Margarita; Castaneda, Natalia; Silva-Diaz, J. E.; Murcia, Marta; Cárdenas, Silvia; Silva, W. D. Dias Da

doi:10.4269/ajtmh.1998.58.183

Cited by 113 publications

(81 citation statements)

References 22 publications

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“…Segura et al (6) observed that the reduction of phenol to a concentration of 0.15 g% maintains the physical stability of antivenoms and decreases their liability of forming aggregates (6). Other researchers corroborate such finding, especially if the protein content is elevated, which may lead to loss of antivenom activity and to adverse reactions due to activation of the immune response (4,21,(26)(27)(28)(29)(30). At the same time, the decrease of m-cresol concentrations may diminish antivenom toxicity to humans, particularly in certain circumstances in which high doses are required, such as in the two cases mentioned by Buntain (31) and Ganthavorn (32) (750 to 1150 mL of antivenom).…”

Section: Discussionsupporting

confidence: 59%

What is the optimum concentration of m-cresol in antivenoms?

Abd-Elsalam¹,

Abdoon²,

Al-Ahaidib³

2011

J. Venom. Anim. Toxins incl. Trop. Dis

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Antivenoms against snake and scorpion envenomations are usually equine in nature and composed mostly of F(ab`)2; additionally, phenol and m-cresol are mainly employed for their preservation. Although there is no study on this subject, m-cresol is utilized by most manufacturers in a concentration that ranges from 0.15 to 0.35 g%. Decreasing the concentration of m-cresol to its minimal effective level may protect victims from its toxic effects and keep the antivenom stable during its shelf life without forming any aggregates. In the present work, different concentrations of m-cresol, ranging from 0.1 to 0.35 g%, were used with some selected batches of snake and scorpion antivenoms. A low concentration of 0.15 g% showed an acceptable preserving result that complies perfectly with antimicrobial specifications stated by the British Pharmacopoeia. Tested antivenoms (in 12 batches), when kept in a cold room for 39 months (more than their shelf life), retained their physical, chemical and microbiological activities according to the specifications of pharmacopeias. The present data demonstrated that reduction of m-cresol concentration to 0.15 g% in case of equine F(ab`)2 antivenoms will improve safety of such preparations and preserve their stability during their shelf life.Key words: antivenoms, preservative, m-cresol, stability. Original PaPer The Journal of Venomous Animals and Toxins including Tropical Diseases ISSN 1678-9199 | 2011 | volume 17 | issue 1 | pages 12-22 INTRODUCTIONAntivenoms are refined and concentrated preparations of equine serum globulins -mostly F(ab`)2 -obtained by fractionating blood from healthy horses that were previously immunized with different type of venoms (1, 2). For more than a century, antivenoms have been used effectively as the only treatment for snakebites and envenomations caused by other poisonous animals including spiders and scorpions (3). Most antivenoms are produced in liquid form to lower their cost and ease their use. Currently, there are eight antimicrobial preservatives commonly used in licensed parenteral products of which m-cresol and phenol are habitually employed by manufacturers as preservatives in antivenom formulations (4-6). Usually, phenol concentrations in antivenoms range from 0.15 to 0.5 g% (7-10). Combinations of phenol and thimerosal in different ratios have also been effectively used in some antivenom preparations (11,12). M-cresol, a phenol derivative, is frequently utilized as preservative in numerous antivenom preparations in concentrations that range between 0.15 and 0.35 g% (4,7,13).Despite their efficacy as additive, the use of these agents involves the possibility of some adverse effects. It is well known that phenol and cresol are toxic to humans in certain amounts (5,(14)(15)(16)(17)(18)(19). Repeated exposure may cause harmful effects on the liver and kidney. Additionally, potential development of multiple organ failure with persistence of organ dysfunction associated with the overdose of injectable phenol was already reported (20). Turbi...

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Section: Discussionsupporting

confidence: 59%

What is the optimum concentration of m-cresol in antivenoms?

Abd-Elsalam¹,

Abdoon²,

Al-Ahaidib³

2011

J. Venom. Anim. Toxins incl. Trop. Dis

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show abstract

“…7,8 However, various studies have shown that both types of antivenoms can activate the complement system in vitro 9,10 and induce EARs in patients. 11,12 Some data highlight the impact of the fractionation protocol on the induction of EARs. It was shown that IgG antivenom precipitated by ammonium sulphate had more aggregates and induced a higher incidence of EARs than IgG antivenom precipitated by caprylic acid.…”

Section: Introductionmentioning

confidence: 99%

Anticomplementary Activity of Horse IgG and F(ab')2 Antivenoms

Squaiella-Baptistão¹,

Marcelino²,

Cunha³

et al. 2014

The American Journal of Tropical Medicine and Hygiene

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“…In several experimental and clinical trials it has been demonstrated that antivenoms are of limited value to stop edema progression within the first 12-24 h of treatment, while they are highly efficient in restoring blood coagulation status within the same time interval (7,22,23).…”

Section: Discussionmentioning

confidence: 99%

“…The antivenoms commonly used for the serotherapy of snakebites show a very limited efficacy in the neutralization of edema, not only due to the variety of components inducing this alteration, but also due to its rapid onset (6)(7)(8). Defibrinating (in vivo) and coagulant (in vitro) effects are produced by thrombin-like toxins present in the venom which induce fibrinogen consumption and incoagulable blood that may favor systemic bleeding (9).…”

Section: Introductionmentioning

confidence: 99%

Neutralization of the edema-forming, defibrinating and coagulant effects of Bothrops asper venom by extracts of plants used by healers in Colombia

Núñez

Otero

Barona

et al. 2004

Braz J Med Biol Res

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We determined the neutralizing activity of 12 ethanolic extracts of plants against the edema-forming, defibrinating and coagulant effects of Bothrops asper venom in Swiss Webster mice. The material used consisted of the leaves and branches of Bixa orellana (Bixaceae), Ficus nymphaeifolia (Moraceae), Struthanthus orbicularis (Loranthaceae) and Gonzalagunia panamensis (Rubiaceae); the stem barks of Brownea rosademonte (Caesalpiniaceae) and Tabebuia rosea (Bignoniaceae); the whole plant of Pleopeltis percussa (Polypodiaceae) and Trichomanes elegans (Hymenophyllaceae); rhizomes of Renealmia alpinia (Zingiberaceae), Heliconia curtispatha (Heliconiaceae) and Dracontium croatii (Araceae), and the ripe fruit of Citrus limon (Rutaceae). After preincubation of varying amounts of each extract with either 1.0 µg venom for the edema-forming effect or 2.0 µg venom for the defibrinating effect, the mixture was injected subcutaneously (sc) into the right foot pad or intravenously into the tail, respectively, to groups of four mice (18-20 g). All extracts (6.2-200 µg/mouse) partially neutralized the edema-forming activity of venom in a dose-dependent manner (58-76% inhibition), with B. orellana, S. orbicularis, G. panamensis, B. rosademonte, and D. croatii showing the highest effect. Ten extracts (3.9-2000 µg/mouse) also showed 100% neutralizing ability against the defibrinating effect of venom, and nine prolonged the coagulation time induced by the venom. When the extracts were administered either before or after venom injection, the neutralization of the edema-forming effect was lower than 40% for all extracts, and none of them neutralized the defibrinating effect of venom. When they were administered in situ (sc at the same site 5 min after venom injection), the neutralization of edema increased for six extracts, reaching levels up to 64% for C. limon.

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A randomized, blinded, comparative trial of one pepsin-digested and two whole IgG antivenoms for Bothrops snake bites in Uraba, Colombia. The Regional Group on Antivenom Therapy Research (REGATHER).

Cited by 113 publications

References 22 publications

What is the optimum concentration of m-cresol in antivenoms?

What is the optimum concentration of m-cresol in antivenoms?

Anticomplementary Activity of Horse IgG and F(ab')2 Antivenoms

Neutralization of the edema-forming, defibrinating and coagulant effects of Bothrops asper venom by extracts of plants used by healers in Colombia

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