La frequence elevee et les consequences considerables des maladies parodontales sur la qualite de vie orale et la sante generale font de ces pathologies une preoccupation de sante publique. Le developpement de traitements innovants est un moteur essentiel du progres dans la prise en charge de ces maladies. Ce travail s’interesse a l’utilisation d’agents antimicrobiens (non-antibiotiques) et anti-inflammatoires comme adjuvants au debridement mecanique des poches parodontales. Il est consacre a la mise au point et a l’optimisation d’une forme galenique appelee implant forme in-situ (IFIS), a base de polymeres biocompatibles et resorbables, concue pour le traitement des poches parodontales. Ce dispositif est injecte dans la lesion ou il libere de facon prolongee une combinaison d’antiseptique (chlorhexidine) et d’anti-inflammatoire (ibuprofene). Nos resultats montrent (i) in-vitro la superiorite de l’IFIS en termes de proprietes mecaniques et antimicrobiennes sur des systemes actuellement commercialises pour le meme usage et (ii) in-vivo, chez l’animal, un effet positif de l’IFIS sur la cicatrisation parodontale. Cette etude valide l’usage d’IFIS a base d’acide Poly(D,L-lactique-co-glycolique) (PLGA) comme support de liberation controlee de principes actifs dans la poche parodontale. Elle montre egalement que la combinaison d’un antiseptique et d’un anti-inflammatoire au sein du meme systeme de liberation locale pourrait ameliorer le traitement des parodontites tout en limitant le recours aux antibiotiques. / Periodontal diseases are highly prevalent oral conditions which strongly impact the oral quality of life and general health. Progress in the management of periodontal diseases depends, at least partly, on the development of novative and effective periodontal treatments. This work is concerned with the use of non-antibiotic antimicrobials and antiinflammatory drugs as adjunctive periodontal therapy. The aim was to develop a novel polymer-based, biocompatible and resorbable local drug delivery system (in-situ forming implants -ISFI-), which could be injected into periodontal pockets and control the delivery of both an antiseptic (chlorhexidine) and an anti-inflammatory agent (Ibuprofen). The physical key properties and antimicrobial activity of the proposed implants were very promising in vitro suggesting an improvement as compared to currently marketed drug delivery systems for periodontitis treatment. In vivo results are consistent with the latters, showing a positive effect of ISFI on periodontal wound healing in an experimental mice model of periodontitis. Data from this study support Poly(D,L-lactic-co-glycolic) acid (PLGA) as an attractive formulation for local drug-delivery into periodontal pockets. Our results further suggest that the local delivery of both an antiseptic and an anti-inflammatory drug is a promising adjunctive treatment of periodontitis. This should additionnaly reduce the use of systemic antibiotics in periodontal treatment and contribute to the combat against the development of bacterial resistances.
Identifer | oai:union.ndltd.org:theses.fr/2018LIL2S037 |
Date | 27 November 2018 |
Creators | Agossa, Kevimy |
Contributors | Lille 2, Delcourt-Debruyne, Elisabeth |
Source Sets | Dépôt national des thèses électroniques françaises |
Language | French |
Detected Language | English |
Type | Electronic Thesis or Dissertation, Text, Image |
Page generated in 0.0018 seconds