Cellulose Acetate Microparticles Synthesized from <i>Agave sisalana</i> Perrine for Controlled Release of Simvastatin
Larissa Pereira Alves,
Kevin da Silva Oliveira,
Ana Cláudia Gonçalves dos Santos,
Demis Ferreira de Melo,
Lívia Maria Coelho de Carvalho Moreira,
João Augusto Oshiro Junior,
Dayanne Tomaz Casimiro da Silva,
Airlla Laana de Medeiros Cavalcanti,
Bolívar Ponciano Goulart de Lima Damasceno
Affiliations
Larissa Pereira Alves
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Kevin da Silva Oliveira
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Ana Cláudia Gonçalves dos Santos
Laboratory of Development and Characterization of Pharmaceutical Products, Department of Pharmacy, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Demis Ferreira de Melo
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Lívia Maria Coelho de Carvalho Moreira
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
João Augusto Oshiro Junior
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Dayanne Tomaz Casimiro da Silva
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Airlla Laana de Medeiros Cavalcanti
Laboratory of Development and Characterization of Pharmaceutical Products, Department of Pharmacy, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Bolívar Ponciano Goulart de Lima Damasceno
Graduate Program of Pharmaceutical Sciences, Paraíba State University, Campina Grande 58429-600, PB, Brazil
Simvastatin (SIM) is widely prescribed to treat hyperlipidemia, despite its limitations, such as a short half-life and low oral bioavailability. To overcome these drawbacks, the development of a controlled-release formulation is desirable. This study aims to develop a microparticulate system based on cellulose acetate (ACT) obtained from Agave sisalana Perrine to promote a controlled SIM release. SIM-loaded microparticles (SMP) were prepared using the solvent emulsification-evaporation method. Several parameters were evaluated, including particle size, surface charge, morphology, encapsulation efficiency, thermochemical characteristics, crystallinity, and in vitro release profile. ACT exhibited favorable flow properties after acetylation, with a degree of substitution values superior to 2.5, as confirmed by both the chemical route and H-NMR, indicating the formation of cellulose triacetate. The obtained SMP were spherical with an average size ranging from 1842 to 1857 nm, a zeta potential of −4.45 mV, and a high SIM incorporation efficiency (98%). Thermal and XRD analyses revealed that SIM was homogeneously dispersed into the polymeric matrix in its amorphous state. In vitro studies using dialysis bags revealed that the controlled SIM release from microparticles was higher under simulated intestinal conditions and followed the Higuchi kinetic model. Our results suggest that ACT-based microparticles are a promising system for SIM delivery, which can improve its bioavailability, and result in better patient compliance.
