J. Blanco Mendez scite author profile

In the treatment of intracanal and periodontal infections, the local application of antibiotics and other therapeutic agents in the root canal or in periodontal pockets may be a promising approach to achieve sustained drug release, high antimicrobial activity and low systemic side effects. Microparticles made from biodegradable polymers have been reported to be an effective means of delivering antibacterial drugs in endodontic and periodontal therapy. The aim of this review article is to assess recent therapeutic strategies in which biocompatible microparticles are used for effective management of periodontal and endodontic diseases. In vitro and in vivo studies that have investigated the biocompatibility or efficacy of certain microparticle formulations and devices are presented. Future directions in the application of microencapsulation techniques in endodontic and periodontal therapies are discussed.

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Cyclodextrin–polysaccharide-based, in situ-gelled system for ocular antifungal delivery

Fernández‐Ferreiro¹,

Bargiela²,

Santiago-Varela³

et al. 2014

Beilstein J. Org. Chem.

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SummaryFluconazole was studied with two different hydrophilic cyclodextrins (hydroxypropyl-β-cyclodextrin (HPBCD) and sulfobutyl ether-β-cyclodextrin (SBECD)) for the formation of inclusion complexes. HPBCD and SBECD showed low cell cytotoxicity in human keratocytes as assessed by the label-free xCELLigence system for real-time monitoring. The fluconazole–HPBCD complex was incorporated into an ion-sensitive ophthalmic gel composed of the natural polysaccharides gellan gum and κ-carrageenan. This system showed good bioadhesive properties and effective control of fluconazole release.

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Reduction in the ulcerogenicity of naproxen by complexation with β-cyclodextrin

Otero-Espinar

Anguiano-Igea

Mendez

et al. 1991

International Journal of Pharmaceutics

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Phospholipid Vesicles as Carriers in Aquaculture: Preparation and Stability Study of Thiamine Hydrochloride-Loaded Liposomes

Lai¹,

Valenti²,

Sinico³

et al. 2004

CDD

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The aim of this work is to study liposomes as carriers of nutrients and therapeutic agents in aquaculture with Venerupis decussatus and Venerupis pullastra larvae. Multilamellar (MLVs) and large unilamellar (LUVs) vesicles were prepared from a commercial mixture of soy phosphatidylcholine, rich in unsaturated and polyunsaturated fatty acids, cholesterol, and hydrated with a solution of vitamin B1 both in distilled and sea water. Carboxyfluorescein-loaded liposomes were also prepared in order to test the uptake of vesicles by larvae. The stability of formulations was checked by monitoring the size of vesicles and their drug leakage. In order to limit the vitamin loss, liposome freeze-drying was studied. Dried formulations were also prepared by using different amounts of trehalose as cryoprotectant. We found that freeze-dried vesicles, rehydrated after two weeks, had a vitamin retention (R%) equal to 95%, while their diameter significantly increased. By contrast, liposomes freeze-dried in the presence of trehalose displayed a lower R%, but higher bilayer stability. Finally, when CF-loaded vesicles were added to Venerupis decussatus and Venerupis pullastra larvae incubated in filtered sea water, a bright and diffused fluorescence was present in most of the larvae, a fact which can be regarded as evidence of liposome uptake by Venerupis larvae.

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J. Blanco Mendez

The Application of Microencapsulation Techniques in the Treatment of Endodontic and Periodontal Diseases

Cyclodextrin–polysaccharide-based, in situ-gelled system for ocular antifungal delivery

Reduction in the ulcerogenicity of naproxen by complexation with β-cyclodextrin

Phospholipid Vesicles as Carriers in Aquaculture: Preparation and Stability Study of Thiamine Hydrochloride-Loaded Liposomes

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