Physical key properties of antibiotic-free, PLGA/HPMC-based in-situ forming implants for local periodontitis treatment

Agossa, Kévimy; Lizambard, Martin; Rongthong, Thitiphorn; Delcourt-Debruyne, E.; Siepmann, Juergen; Siepmann, Florence

doi:10.1016/j.ijpharm.2017.02.039

Cited by 29 publications

(36 citation statements)

References 27 publications

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“…Relatively few studies have investigated the rheological properties of root canal sealers [ 82 , 83 ] and, to our knowledge, none have investigated CH-based temporary medications. Injectability and penetration resistance tests are also standard methods for evaluating the ease of handling of injectable materials and the setting time [ 62 , 84 ]. Monitoring mass changes in water also provides information on water uptake/loss, which contributes to the swelling and/or disintegration of the material [ 62 , 84 ].…”

Section: Discussionmentioning

confidence: 99%

How Adding Chlorhexidine or Metallic Nanoparticles Affects the Antimicrobial Performance of Calcium Hydroxide Paste as an Intracanal Medication: An In Vitro Study

Agossa

Maton

et al. 2021

Antibiotics

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The aim of our study was to explore the potential value of metallic (Ag, Cu, and Zn) salts, polymer/metallic nanoparticles, and chlorhexidine (CHX) for improving the antimicrobial activity of calcium hydroxide (CH) against E. faecalis and C. albicans, associated with persistent endodontic infections. A first screening was performed by determining minimum inhibitory/bactericidal concentrations (MIC/MBC). Antimicrobial activity of the CH paste mixed with metallic salts, chitosan or cyclodextrin polymer metallic nanoparticles was compared to the antimicrobial activity of CH paste alone and CH + CHX using a time-kill kinetics assay. The effect of the antimicrobials on the rheological and the key mechanical properties were also examined. Copper and zinc were discarded because of their MIC/MBC values and silver because of its kill time curve profile. Except for a slower setting time after 24 h and a higher weight loss after 1 week of incubation, the mechanical behavior of the CH paste was unaffected by the addition of CHX. Polymeric/metallic nanoparticles failed to potentiate the antimicrobial effect of CH. By contrast, CHX increased this effect and thus could help eradicate E. faecalis associated with persistent root canal infections without altering the desired key physical properties of the CH paste.

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Section: Discussionmentioning

confidence: 99%

How Adding Chlorhexidine or Metallic Nanoparticles Affects the Antimicrobial Performance of Calcium Hydroxide Paste as an Intracanal Medication: An In Vitro Study

Agossa

Maton

et al. 2021

Antibiotics

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“…For designing effective injectable hydrogels, besides biocompatibility and biodegradability [2,11], their ability to be introduced inside the targeted site by injection from a syringe—a property referred to as an injectability—is a major requirement [3]. In this respect, injectable in situ forming hydrogels have exhibited many advantages, e.g., mechanical strength and sticking properties [12]. However, most in situ forming hydrogels are based on a chemical crosslinking reaction, e.g., using glutaraldehyde [13] or genipin during the gelation [14], which are time-sensitive and could diffuse some toxic components into the tissues and decrease the efficiency of hydrogel formation [3,15].…”

Section: Introductionmentioning

confidence: 99%

Influence of the SolubleInsoluble Ratios of Cyclodextrins Polymers on the Viscoelastic Properties of Injectable ChitosanBased Hydrogels for Biomedical Application

et al. 2019

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Injectable pre-formed physical hydrogels provide many advantages for biomedical applications. Polyelectrolyte complexes (PEC) formed between cationic chitosan (CHT) and anionic polymers of cyclodextrin (PCD) render a hydrogel of great interest. Given the difference between water-soluble (PCDs) and water-insoluble PCD (PCDi) in the extension of polymerization, the present study aims to explore their impact on the formation and properties of CHT/PCD hydrogel obtained from the variable ratios of PCDi and PCDs in the formulation. Hydrogels CHT/PCDi/PCDs at weight ratios of 3:0:3, 3:1.5:1.5, and 3:3:0 were elaborated in a double–syringe system. The chemical composition, microstructure, viscoelastic properties, injectability, and structural integrity of the hydrogels were investigated. The cytotoxicity of the hydrogel was also evaluated by indirect contact with pre-osteoblast cells. Despite having similar shear–thinning and self-healing behaviors, the three hydrogels showed a marked difference in their rheological characteristics, injectability, structural stability, etc., depending on their PCDi and PCDs contents. Among the three, all the best above-mentioned properties, in addition to a high cytocompatibility, were found in the hydrogel 3:1.5:1.5. For the first time, we gained a deeper understanding of the role of the PCDi/PCDs in the injectable pre-formed hydrogels (CHT/PCDi/PCDs), which could be further fine-tuned to enhance their performance in biomedical applications.

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“…10,7 ± 0,6 A behelyezett anyag megfelelő tapadását is biztosítani kell az adott felszínhez, annak elkerülésére, hogy idő előtt kiessen és lenyelésre kerüljön [1]. Az általunk elkészített rendszerrel összefüggésben az alábbi szempontokat támasztottuk: megfelelő szilárdsággal rendelkezzen szobahőmérsékleten a jó behelyezhetőség miatt, de testhőmérsékleten lágyabbá váljon, hogy a szubgingivális tér lehetőség szerinti teljes kitöltése és a lágyszövetek elaszticitásának gyógyulás hatására bekövetkező változása miatt a helyben maradása biztosított legyen.…”

Section: Megbeszélésunclassified

“…Az eredmények azt mutatják, hogy a de for má ció hoz szükséges erőbehatás jelentősen csökken 37 °C-on, vizes közegben, azonban nem olyan nagymértékben, hogy az a rendszer teljes el fo lyó so dásá hoz és gyors eliminációjához vezessen az üregből, sokkal inkább alkalmassá válik a szub gin gi vá lis tér szabálytalan alakjának felvételére. Ez az érték nagyságrendben megközelíti Agossa K. és munkatársai által kifejlesztett injektálható, majd megszilárduló, ideálisnak tűnő hatóanyag-leadó rendszer fizikai paraméterét [1].…”

Section: Megbeszélésunclassified

Klórhexidint tartalmazó, kontrollált hatóanyag-leadást biztosító, szubgingiválisan alkalmazható készítmény keménységének és hatóanyag-leadásának vizsgálata

et al. 2020

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Physical key properties of antibiotic-free, PLGA/HPMC-based in-situ forming implants for local periodontitis treatment

Cited by 29 publications

References 27 publications

How Adding Chlorhexidine or Metallic Nanoparticles Affects the Antimicrobial Performance of Calcium Hydroxide Paste as an Intracanal Medication: An In Vitro Study

How Adding Chlorhexidine or Metallic Nanoparticles Affects the Antimicrobial Performance of Calcium Hydroxide Paste as an Intracanal Medication: An In Vitro Study

Influence of the SolubleInsoluble Ratios of Cyclodextrins Polymers on the Viscoelastic Properties of Injectable ChitosanBased Hydrogels for Biomedical Application

Klórhexidint tartalmazó, kontrollált hatóanyag-leadást biztosító, szubgingiválisan alkalmazható készítmény keménységének és hatóanyag-leadásának vizsgálata

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