Simone Aleandri1, Monica Schönenberger2, Andres Niederquell1, Martin Kuentz3. 1. Institute of Pharma Technology, University of Applied Sciences Northwest, Switzerland, Gründenstrasse 40, Basel, Switzerland. 2. Swiss Nanoscience Institute, Nano Imaging Lab, University of Basel, Klingelbergstrasse 82, Basel, Switzerland. 3. Institute of Pharma Technology, University of Applied Sciences Northwest, Switzerland, Gründenstrasse 40, Basel, Switzerland. martin.kuentz@fhnw.ch.
Abstract
PURPOSE: The trial-and-error approach is still predominantly used in pharmaceutical development of nanosuspensions. Physicochemical dispersion stability is a primary focus and therefore, various analytical bulk methods are commonly employed. Clearly less attention is directed to surface changes of nanoparticles even though such interface effects can be of pharmaceutical relevance. Such potential effects in drug nanosuspensions were to be studied for temperatures of 25 and 37°C by using complementary surface analytical methods. METHODS: Atomic force microscopy, inverse gas chromatography and UV surface dissolution imaging were used together for the first time to assess pharmaceutical nanosuspensions that were obtained by wet milling. Fenofibrate and bezafibrate were selected as model drugs in presence of sodium dodecyl sulfate and hydroxypropyl cellulose as anionic and steric stabilizer, respectively. RESULTS: It was demonstrated that in case of bezafibrate nanosuspension, a surface modification occurred at 37°C compared to 25°C, which notably affected dissolution rate. By contrast, no similar effect was observed in case of fenofibrate nanoparticles. CONCLUSIONS: The combined usage of analytical surface methods provides the basis for a better understanding of phenomena that take place on drug surfaces. Such understanding is of importance for pharmaceutical development to achieve desirable quality attributes of nanosuspensions.
PURPOSE: The trial-and-error approach is still predominantly used in pharmaceutical development of nanosuspensions. Physicochemical dispersion stability is a primary focus and therefore, various analytical bulk methods are commonly employed. Clearly less attention is directed to surface changes of nanoparticles even though such interface effects can be of pharmaceutical relevance. Such potential effects in drug nanosuspensions were to be studied for temperatures of 25 and 37°C by using complementary surface analytical methods. METHODS: Atomic force microscopy, inverse gas chromatography and UV surface dissolution imaging were used together for the first time to assess pharmaceutical nanosuspensions that were obtained by wet milling. Fenofibrate and bezafibrate were selected as model drugs in presence of sodium dodecyl sulfate and hydroxypropyl cellulose as anionic and steric stabilizer, respectively. RESULTS: It was demonstrated that in case of bezafibrate nanosuspension, a surface modification occurred at 37°C compared to 25°C, which notably affected dissolution rate. By contrast, no similar effect was observed in case of fenofibrate nanoparticles. CONCLUSIONS: The combined usage of analytical surface methods provides the basis for a better understanding of phenomena that take place on drug surfaces. Such understanding is of importance for pharmaceutical development to achieve desirable quality attributes of nanosuspensions.
Entities:
Keywords:
atomic force microscopy; nanosuspension; surface characterization; surface dissolution; wet-milling