Martin Koerber scite author profile

This study was performed to obtain prolonged drug release with biodegradable in situ forming implants for the local delivery of metronidazole to periodontal pockets. The effect of polymer type (capped and uncapped PLGA), solvent type (water-miscible and water-immiscible) and the polymer/drug ratio on in vitro drug release studies were investigated. In situ implants with sustained metronidazole release and low initial burst consisted of capped PLGA and N-methyl-2-pyrolidone as solvent. Mucoadhesive polymers were incorporated into the in situ implants in order to modify the properties of the delivery systems towards longer residence times in vivo. Addition of the polymers changed the adhesiveness and increased the viscosity and drug release of the formulations. However, sustained drug release over 10 days was achievable. Biodegradable in situ forming implants are therefore an attractive delivery system to achieve prolonged release of metronidazole at periodontal therapy.

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Improved physical stability and injectability of non-aqueous in situ PLGA microparticle forming emulsions

Voigt

Koerber

Bodmeier

2012

International Journal of Pharmaceutics

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Blot-Wellens¹,

Koerber²,

Wrobel³

2022

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Martin Koerber

PLGA in situ implants formed by phase inversion: Critical physicochemical parameters to modulate drug release

The effect of polymer properties on direct compression and drug release from water-insoluble controlled release matrix tablets

In situforming implants for the delivery of metronidazole to periodontal pockets: formulation and drug release studies

Improved physical stability and injectability of non-aqueous in situ PLGA microparticle forming emulsions

Orwo

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