Formulation and evaluation of chitosan microspheres of aceclofenac for colon-targeted drug delivery

The objective of this investigation was to develop novel colon specific drug delivery. Aceclofenac, a NSAID, was successfully encapsulated into chitosan microspheres. Various formulations were prepared by varying the ratio of chitosan, span‐85 and stirring speed and the amount of glutaraldehyde. The...

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Bibliographic Details
Published in:Biopharmaceutics & drug disposition 2010-10, Vol.31 (7), p.407-427
Main Authors: Umadevi, S. K., Thiruganesh, R., Suresh, S., Reddy, K. Bhaskar
Format: Article
Language:English
Subjects:
aceclofenac
Animals
Anti-Inflammatory Agents, Non-Steroidal - administration & dosage
Anti-Inflammatory Agents, Non-Steroidal - pharmacokinetics
Anti-Inflammatory Agents, Non-Steroidal - pharmacology
Arthritis, Experimental - drug therapy
Chitosan
Colon - metabolism
colon targeting
Computer Simulation
Diclofenac - administration & dosage
Diclofenac - analogs & derivatives
Diclofenac - pharmacokinetics
Diclofenac - pharmacology
Dose-Response Relationship, Drug
Drug Delivery Systems
Drug Stability
Eudragit coating
Excipients
Glutaral - chemistry
in vitro dissolution
Male
Microspheres
Particle Size
Polymethacrylic Acids - chemistry
Rats
Stomach
targeted delivery
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Summary:The objective of this investigation was to develop novel colon specific drug delivery. Aceclofenac, a NSAID, was successfully encapsulated into chitosan microspheres. Various formulations were prepared by varying the ratio of chitosan, span‐85 and stirring speed and the amount of glutaraldehyde. The SEM study showed that microspheres have smooth surfaces. Microspheres were characterised by Fourier transform infrared (FTIR) spectroscopy and differential scanning calorimetry (DSC) to confirm the absence of chemical interactions between drug and polymer and to know the formation of microspheres structure. The microspheres were evaluated for particle size, encapsulation efficiency, drug loading capacity, mucoadhesion studies, stability studies, in vitro and in vivo drug release studies. Particle sizes, as measured by the laser light scattering technique, were of an average size in the range 41–80 µm. The swelling index was in the range 0.37–0.82 and the entrapment efficiency range was 51–75% for all the formulations. The optimised batch ACM13 released 83.6% at 8 h and 104% at 24 h in SCF containing rat caecal content. Eudragit coated chitosan microspheres prevented the release of the aceclofenac in the physiological environment of the stomach and small intestine and released 95.9±0.34% in the colon. With regard to release kinetics, the data were best fitted with the Higuchi model and showed zero order release with non‐Fickian diffusion mechanism. The in vivo findings suggest that aceclofenac microspheres exhibit a prolonged effect of aceclofenac in rats and produce a significant anti‐inflammatory effect. The findings of the present study conclusively state that chitosan microspheres are promising for colon targeting of aceclofenac to synchronise with chronobiological symptoms of rheumatoid arthritis. Copyright © 2010 John Wiley & Sons, Ltd.
ISSN:0142-2782
1099-081X
1099-081X
DOI:10.1002/bdd.722