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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Intégration des modèles in vitro dans la stratégie d'évaluation de la sensibilisation cutanée / Integration of in vitro models in risk assessment of skin sensitization.

Clouet, Elodie 26 January 2018 (has links)
Résumé : Depuis l'interdiction en 2013 des tests sur les animaux par le Règlement cosmétique n°1223/2009, différentes méthodes in vitro ont été développées. Toutefois, selon un consensus scientifique, aucune méthode ne peut couvrir à elle seule l’ensemble des événements clés (KE) définis pour la sensibilisation cutanée.Après un état de l’art des méthodes alternatives relatives à la sensibilisation cutanée, nous avons sélectionné et comparé 3 tests pour ensuite déterminer la meilleure stratégie à suivre. Dans le but de proposer un nouveau test intégré, nous avons adressé l’ensemble des KEs au sein d’un même type cellulaire. La cellule dendritique (DC) jouant un rôle clé dans le développement de la dermatite de contact allergique (DCA), notre choix s’est porté sur la lignée humaine pro-monocytaire THP-1. Nous avons étudié comme événements initiaux (KE1) les formes réactives à l’oxygène (FRO) et le glutathion (GSH), la voie Nrf2-Keap1 (voie centrale de détoxication) et l’expression génique pour le KE2, ainsi que les modifications phénotypiques pour le KE3.Nous avons montré que les allergisants forts induisent une production précoce des FRO associée à une réduction du GSH. Ils activent également la voie Nrf2-Keap1 et induisent l’expression des marqueurs de surface cellulaire CD54 et CD86, ainsi qu’une production de cytokines spécifiques (IL-8, IL-18,...).Pour conclure, ce travail a permis de proposer un test intégrant l’ensemble des mesures biologiques comme différents KE au sein d’un même type cellulaire. / Abstract : Since the animal testing ban in 2013 by Cosmetics Regulation n°1223/2009, various in vitro methods have been developed. However, according to a scientific consensus, no single method can stand-alone to cover the different key events (KE) defined for skin sensitization.After a state of the art of alternative methods relating to skin sensitization, we selected and compared 3 tests to determine the best strategy to follow. In order to propose a new integrated test, we wanted to address all KE within the same cell line. Because dendritic cell (DC) plays a key role in the development of allergic contact dermatitis (ACD), we have chosen the pro-monocytic human line THP-1. We have studied as initial events (KE1), reactive oxygen species (ROS) and glutathione (GSH), Nrf2-Keap1 pathway (central detoxification pathway) and gene expression for KE2 as well as phenotypic modifications for KE3.We have shown that strong allergens are correlated with early production of FRO associated with GSH reduction. They also activate the Nrf2-Keap1 pathway and induce the expression of CD54 and CD86 cell surface markers as well as production of specific cytokines (IL-8, IL-18, etc.).To conclude, this work propose a new assay integrating all the biological measures as different KEs within the same cell.
12

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David January 2009 (has links)
The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.
13

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David January 2009 (has links)
The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

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