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2. 598 Brûlure chimique oculaire : preuve expérimentale de l’influence de paramètres clés sur la diffusion et la décontamination

Author

M. Gerard, L. Mathieu, Harold Merle, N. Schrage, C. Fosse, S. Rihawi, Felix Spöler, and F. Burgher

Subjects
Ophthalmology
Abstract

Introduction La brulure chimique oculaire resulte de la destruction de constituents biochimiques des cellules des tissus vivants lors d’un contact avec un produit chimique irritant ou corrosif. Materiels et Methodes Des etudes in vitro ont ete realisees pour simuler une brulure oculaire par hydroxyde de sodium (NaOH). La diffusion de NaOH est simulee au travers une membrane semi-permeable de cellophane (30 g/cm 2 , 2.5 micrometres). Un volume de NaOH (3 gouttes ou 3/31 millilitre) est mis a la surface de la membrane et l’evolution du pH est mesuree dans un compartiment mimant la chambre anterieure, contenant le chlorure de sodium (6 ml, 420 mosmoles/kg). Le modele de membrane semi-permeable est egalement utilise pour simuler un rincage complet de l’exposition a NaOH 2N apres 20 secondes ou 1 minute d’exposition. La « chamber anterieure » (25 ml de chlorure de sodium 420 mosmoles/kg) est alors exposee via la membrane a 50 ml de soude 2N. Resultats Pour NaOH 0.1N, 0.2N, 1N, 2N et 5N, le pH final dans la « chamber anterieure », apres 10 minutes, est respectivement, de 8.61 et 9.91, 11.25, 11.95 et 12.34. Le rincage complet a montre une meilleure efficacite avec un lavage amphotere et hypertonique comparativement a l’eau. Pour 20 secondes de contact et apres 3 minutes de rincage, le pH externe etait respectivement de 9.12 pour la solution amphotere et 12.8 pour l’eau. Apres 45 minutes, le pH interne est de 9.25 avec le lavage amphotere et de 11.5 avec le rincage a l’eau. Pour une minute de contact, les courbes de pH sont semblables avec une diminution retardee de pH. Le pH interne est de 9.4 avec la solution amphotere et 11.85 avec l’eau. Discussion Ces resultats sont en accord avec les observations cliniques ainsi qu’avec les resultats de modeles ex vivo valides. Conclusion Une approche in vitro simple peut permettre d’evaluer precisement l’agressivite d’un produit chimique et de comparer de maniere reproductible l’efficacite de solutions de decontamination.

Published
2008
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6. New Insights into Immunopathology Associated to Bothrops lanceolatus Snake Envenomation: Focus on PLA 2 Toxin.

Author

Gabrili JJM, Pidde G, Magnoli FC, Marques-Porto R, Villas-Boas IM, Squaiella-Baptistão CC, Silva-de-França F, Burgher F, Blomet J, and Tambourgi DV

Subjects
Phospholipases A2, Humans, Venomous Snakes, Complement System Proteins, Animals, Snake Venoms toxicity, Toxins, Biological, Bothrops, Snake Bites
Abstract

The systemic increase in inflammatory mediator levels can induce diverse pathological disorders, including potentially thrombus formation, which may be lethal. Among the clinical conditions in which the formation of thrombi dictates the patient's prognosis, envenomation by Bothrops lanceolatus should be emphasized, as it can evolve to stroke, myocardial infarction and pulmonary embolism. Despite their life-threatening potential, the immunopathological events and toxins involved in these reactions remain poorly explored. Therefore, in the present study, we examined the immunopathological events triggered by a PLA 2 purified from B. lanceolatus venom, using an ex vivo human blood model of inflammation. Our results showed that the purified PLA 2 from the venom of B. lanceolatus damages human erythrocytes in a dose dependent way. The cell injury was associated with a decrease in the levels of CD55 and CD59 complement regulators on the cell surface. Moreover, the generation of anaphylatoxins (C3a and C5a) and the soluble terminal complement complex (sTCC) indicates that human blood exposure to the toxin activates the complement system. Increased production of TNF-α, CXCL8, CCL2 and CCL5 followed complement activation. The venom PLA 2 also triggered the generation of lipid mediators, as evidenced by the detected high levels of LTB 4 , PGE 2 and TXB 2 . The scenario here observed of red blood cell damage, dysfunctions of the complement regulatory proteins, accompanied by an inflammatory mediator storm, suggests that B. lanceolatus venom PLA 2 contributes to the thrombotic disorders present in the envenomed individuals.

Published
2023
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7. Bothrops lanceolatus snake (Fer-de-lance) venom triggers inflammatory mediators' storm in human blood.

Author

Silva de França F, Gabrili JJM, Mathieu L, Burgher F, Blomet J, and Tambourgi DV

Subjects
Animals, Humans, Inflammation pathology, Inflammation Mediators blood, Thrombosis etiology, Thrombosis pathology, Bothrops, Crotalid Venoms toxicity, Inflammation etiology, Inflammation Mediators metabolism
Abstract

Systemic increased inflammatory mediators' levels are a hallmark in a plethora of pathological conditions, including thrombotic diseases as the envenomation by Bothrops lanceolatus snake. Multiple organ infarctions, which are not prevented by anticoagulant therapy, are the main cause of death on this envenomation. However, the potential mechanisms involved in these systemic reactions are underexplored. This study aimed to explore the potential systemic events which could contribute to thrombotic reactions on the envenomation by B. lanceolatus in an ex vivo human whole-blood model. B. lanceolatus venom elicited an inflammatory reaction, which was characterized by a strong complement activation, since we detected high C3a, C4a and C5a anaphylatoxins levels. Besides, the venom promoted soluble Terminal Complement Complex (sTCC) assembly. Complement activation was accompanied by intense lipid mediators' release, which included LTB 4 , PGE 2 and TXB 2 . In addition, in the blood exposed to B. lanceolatus venom, we detected IL-1β, IL-6 and TNF-α interleukins production. Chemokines, including CCL2, CCL5 and CXCL8 were upregulated in the venom presence. These outcomes show that B. lanceolatus venom causes a strong inflammatory reaction in the blood favoring a potential setting to thrombi formation. Thus, inhibiting inflammatory mediators or their receptors may help in the envenomed patients' management.

Published
2021
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8. The Ex vivo Eye Irritation Test (EVEIT) model as a mean of improving venom ophthalmia understanding.

Author

Delafontaine M, Panfil C, Spöler F, Kray S, Burgher F, Mathieu L, Blomet J, Schrage NF, and Tambourgi DV

Subjects
Animals, Elapidae, Rabbits, Cornea drug effects, Elapid Venoms toxicity, Toxicity Tests methods
Abstract

Snakes belonging to the genus Naja (Elapid family), also known as "spitting cobras", can spit venom towards the eyes of the predator as a defensive strategy, causing painful and potentially blinding ocular envenoming. Venom ophthalmia is characterized by pain, hyperemia, blepharitis, blepharospasm and corneal erosions. Elapid venom ophthalmia is not well documented and no specific treatment exists. Furthermore, accidental ejection of venom by non-spitting vipers, as Bothrops, also occurs. The Ex vivo Eye Irritation Test model (EVEIT) has enabled important progress in the knowledge of chemical ocular burns. Considering the lack of experimental animal model, we adapted the EVEIT to study venom ophthalmia mechanisms. Ex vivo rabbit corneas were exposed to venoms from spitting (Naja mossambica, Naja nigricollis) and non-spitting (Naja naja, Bothrops jararaca and Bothrops lanceolatus) snakes, and rinsed or not with water. The corneal thickness and the depth of damage were assessed using high-resolution optical coherence tomography (HR-OCT) imaging and histological analysis. All Naja venoms induced significant corneal edema, collagen structure disorganization and epithelial necrosis. Corneas envenomed by African N. mossambica and N. nigricollis venoms were completely opaque. Opacification was not observed in corneas treated with venoms from non-spitting snakes, such as the Asian cobra, N. naja, and the vipers, B. jararaca and B. lanceolatus. Moreover, Bothrops venoms were able to damage the epithelium and cause collagen structure disorganization, but not edema. Immediate water rinsing improved corneal status, though damage and edema could still be observed. In conclusion, the present study shows that the EVEIT model was successfully adapted to set a new experimental ex vivo animal model of ophthalmia, caused by snake venoms, which will enable to explore new therapies for venom ophthalmia., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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10. Part 2. Comparison of emergency washing solutions in 70% hydrofluoric acid-burned human skin in an established ex vivo explants model.

Author

Burgher F, Mathieu L, Lati E, Gasser P, Peno-Mazzarino L, Blomet J, Hall AH, and Maibach HI

Subjects
Adult, Burns, Chemical pathology, Decontamination, Female, Humans, Models, Biological, Tissue Culture Techniques, Burns, Chemical therapy, Calcium Gluconate pharmacology, Emergency Treatment, Fluorine Compounds pharmacology, Hydrofluoric Acid toxicity, Water
Abstract

Background: Hydrofluoric acid (HF) is a small and partially dissociated acid (pK(a) 3.2), able to deeply penetrate into human skin in addition to the corrosiveness of the hydrogen ion (H(+)) and the toxicity of the fluoride ion (F(-)). However, there has been a lack of experimental studies to objectively characterize the results of human HF skin exposure decontamination., Methodology/principal Findings: A previously established experimental method using a human skin explants ex vivo model (Part 1. Experimental 70% hydrofluoric acid (HF) burns: Histological observations in an established human skin explants ex vivo model) described the lesions that appeared following 70% HF penetration. Within 5 min, 70% HF penetrates to the dermis. Using the same experimental conditions, a comparison study of two different washing protocols was performed: water + topical calcium gluconate (CaG) versus Hexafluorine(®). In these conditions, washing for 15 min with running tap water followed by topical CaG ointment only delayed burn onset, while severe tissue damage appeared later. In contrast, after washing with Hexafluorine(®) over 10 min, no histological lesions developed. These results are in accordance with the results of accidental human industrial case reports., Conclusion/significance: Amphoteric and hypertonic Hexafluorine(®) can deactivate H(+) and chelate F(-) ions. Based on these results, it should be considered as a promising first-aid decontamination solution to prevent or minimize significant local and systemic consequences of concentrated HF skin exposures.

Published
2011
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11. Experimental 70% hydrofluoric acid burns: histological observations in an established human skin explants ex vivo model.

Author

Burgher F, Mathieu L, Lati E, Gasser P, Peno-Mazzarino L, Blomet J, Hall AH, and Maibach HI

Subjects
Adult, Female, Humans, Skin pathology, Tissue Culture Techniques, Burns, Chemical pathology, Hydrofluoric Acid toxicity, Models, Biological, Skin injuries
Abstract

Background: Hydrofluoric acid (HF) is particularly dangerous due to the potential for systemic effects and induction of severe skin necrosis through two mechanisms: corrosiveness and local tissue toxicity. In addition, because it is only partially dissociated (pK(a) 3.2), it is capable of penetrating deeply into tissues. There is a lack of experimental studies that objectively characterize the behavior of HF diffusion into human skin, specifically the kinetics of tissue penetration resulting in severe cellular lesions., Methodology/principal Findings: We describe the cutaneous effects of HF using an established ex vivo human skin model. The diffusion of 70% HF starts within the first minute of contact at the epidermal surface and after 2 min reaches the basal layer. In the subsequent minute, the epidermis is destroyed and lesions appear in the papillary dermis after 4 min. Soon after, damage appears in the upper reticular dermis. Thus, 70% HF needs only 5 min of contact to completely penetrate human skin explants. This experiment is reproducible and corroborates previous studies and clinical effects reported in accidental HF exposures., Conclusion/significance: This study shows that the management of HF chemical skin exposure is a question of minutes, especially for initial decontamination. These experimental observations could be useful for objectively comparing skin decontamination methods. Further studies should help to confirm these preliminary results.

Published
2011
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12. Decontamination of tetramethylammonium hydroxide (TMAH) splashes: promising results with Diphoterine in vitro.

Author

Fosse C, Mathieu L, Hall AH, Bocchietto E, Burgher F, Fischbach M, and Maibach HI

Subjects
Burns, Chemical pathology, Cell Line, Cell Survival drug effects, Coloring Agents, Epidermis pathology, Humans, Organic Chemicals therapeutic use, Skin pathology, Skin Diseases pathology, Tetrazolium Salts, Therapeutic Irrigation, Thiazoles, Water, Burns, Chemical drug therapy, Occupational Exposure adverse effects, Ophthalmic Solutions therapeutic use, Quaternary Ammonium Compounds toxicity, Skin Diseases chemically induced, Skin Diseases prevention & control
Abstract

Tetramethylammonium hydroxide (TMAH), used in microelectronic industries and research and development, has both corrosive properties and systemic toxicity. Two fatal TMAH occupational exposure cases have been published. Studies comparing initial TMAH decontamination with Diphoterine versus tap water were performed: an in vitro pH titration study and an MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) in vitro cytotoxicity cell viability assay. For pH normalization, 17 times more tap water than Diphoterine was required. In the cytotoxicity test, two-thirds of the cells remained viable after Diphoterine washing, compared with only one-third after tap water washing (p < .001). Diphoterine washing is a promising TMAH decontamination method.

Published
2010
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13. Diphoterine chemical splash decontamination solution: skin sensitization study in the guinea pig.

Author

Mathieu L, Burgher F, and Hall AH

Subjects
Administration, Cutaneous, Animals, Female, Guinea Pigs, Injections, Intradermal, Male, Ophthalmic Solutions toxicity, Organic Chemicals administration & dosage, Organic Chemicals toxicity, Pharmaceutical Solutions administration & dosage, Severity of Illness Index, Skin Tests, Therapeutic Irrigation, Time Factors, Burns, Chemical therapy, Decontamination methods, Dermatitis, Allergic Contact etiology, Erythema chemically induced, Eye Burns therapy, Pharmaceutical Solutions toxicity, Skin drug effects
Abstract

Diphoterine is an active eye/skin chemical splash decontamination solution. It was evaluated for sensitization potential in the guinea pig with primary induction (day 1, intradermal injection), sensitization (day 9, topical application), and challenge (day 22, topical application). Allergenicity degree at 24 and 48 hours was based on the percentage of animals showing a reaction. Under these conditions, no irritation was noted at 24 and 48 hours in negative controls and in animals treated with Diphoterine during the challenge phase. Diphoterine showed no allergenicity at 24 and 48 hours. In this study, Diphoterine lacked sensitizing capacity in the guinea pig.

Published
2007
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