The purpose of this study was to address the effect of feedstock properties and process variables on the characteristics of antitubercular drug-palladium (Pd) containing poly(lactic) acid (PLA) microparticles (MP) obtained by spray-drying of noncolloidal particle dispersions in fast drying regime. Two different systems were compared: capreomycin-Pd (C-Pd) and ofloxacin-Pd (Ofx-Pd) dispersions in acetonitrile PLA solution. Particle size, dynamic light scattering, differential scanning calorimetry, SEM-energy dispersive X-ray, and spectrophotometric methods were used for MP characterization. C-Pd-loaded MP were optimized preliminarily by experimental design and compared with Ofx-Pd-loaded MP investigated in our previous work. Morphology of feedstock particles had a dominant role in determining MP morphology. The Charlesworth and Marshall theory was used to explain such behavior. The smaller and homogeneous C-Pd microparticulates favored MP inflation and buckling by forming a thick and nonporous shell. A percolation effect was proposed for the larger and irregular Ofx-Pd particles that produced smaller MP with a more porous shell. Increasing feedstock concentration led to higher particle loss. A tentative descriptive scheme of MP formation according to feedstock particle arrangement was proposed. This work suggested that spray-drying of drug dispersions should carefully consider the morphology of feedstock particles as a major parameter influencing final MP properties. (c) 2014 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 103:1255-1268, 2014

The influence of feedstock and process variables on the encapsulation of drug suspensions by spray-drying in fast drying regime: The case of novel antitubercular drug-palladium complex containing polymeric microparticles / Giovagnoli S.; Palazzo F.; Di Michele A.; Schoubben A.; Blasi P.; Ricci M.. - In: JOURNAL OF PHARMACEUTICAL SCIENCES. - ISSN 0022-3549. - STAMPA. - 103:4(2014), pp. 1255-1268. [10.1002/jps.23902]

The influence of feedstock and process variables on the encapsulation of drug suspensions by spray-drying in fast drying regime: The case of novel antitubercular drug-palladium complex containing polymeric microparticles

Blasi P.;
2014

Abstract

The purpose of this study was to address the effect of feedstock properties and process variables on the characteristics of antitubercular drug-palladium (Pd) containing poly(lactic) acid (PLA) microparticles (MP) obtained by spray-drying of noncolloidal particle dispersions in fast drying regime. Two different systems were compared: capreomycin-Pd (C-Pd) and ofloxacin-Pd (Ofx-Pd) dispersions in acetonitrile PLA solution. Particle size, dynamic light scattering, differential scanning calorimetry, SEM-energy dispersive X-ray, and spectrophotometric methods were used for MP characterization. C-Pd-loaded MP were optimized preliminarily by experimental design and compared with Ofx-Pd-loaded MP investigated in our previous work. Morphology of feedstock particles had a dominant role in determining MP morphology. The Charlesworth and Marshall theory was used to explain such behavior. The smaller and homogeneous C-Pd microparticulates favored MP inflation and buckling by forming a thick and nonporous shell. A percolation effect was proposed for the larger and irregular Ofx-Pd particles that produced smaller MP with a more porous shell. Increasing feedstock concentration led to higher particle loss. A tentative descriptive scheme of MP formation according to feedstock particle arrangement was proposed. This work suggested that spray-drying of drug dispersions should carefully consider the morphology of feedstock particles as a major parameter influencing final MP properties. (c) 2014 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 103:1255-1268, 2014
2014
The influence of feedstock and process variables on the encapsulation of drug suspensions by spray-drying in fast drying regime: The case of novel antitubercular drug-palladium complex containing polymeric microparticles / Giovagnoli S.; Palazzo F.; Di Michele A.; Schoubben A.; Blasi P.; Ricci M.. - In: JOURNAL OF PHARMACEUTICAL SCIENCES. - ISSN 0022-3549. - STAMPA. - 103:4(2014), pp. 1255-1268. [10.1002/jps.23902]
Giovagnoli S.; Palazzo F.; Di Michele A.; Schoubben A.; Blasi P.; Ricci M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/703532
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