Abstract:
The objective of this study was to prepare and characterize floating pulsatile tablet of
Captopril giving pulsatile release for hypertension. floating pulsatile drug delivery
gives highest concentration at the early morning when it is needed the most. Hence,
increase the patience compliance and decreases the side effects. Floating pulsatile
tablet were prepared by direct compression method using HPMC K4M, avicel PH101,
sodium starch glycolate and sodium bicarbonate polymers to achieve pulsatile drug
release. Effects of all the polymers, with different concentrations, on physical
properties of floating pulsatile tablet were investigated. To evaluate the effect of
HPMC and sodium bicarbonate concentrations, 32 factorial design was employed and
for avicel PH101 and sodium starch glycolate, 22 factorial design was employed. The
optimization of core tablet was done on the basis of disintegration time. The
optimization of floating pulsatile tablet was done based on the floating lag time &
release rate. The core tablet formulation C3 and floating pulsatile tablet formulation
F1 was selected as optimum production formulation. The Floating lag time , floating time, drug content, disintegration time and in-vitro drug release were found to be 43.4
sec, >8hrs, 99.06%,45.6 sec, 95.3% respectively. From regression value it revealed
that all formulations followed Hixon Crowell model, which indicates that the drug
release follows swelling-erosion. Stability study at 400C±20C / 75 ± 5 % RH revealed
that there was no significant change in disintegration time, drug content and % CDR
after 45 days. So, prepared formulation was stable during stability study. The
developed floating pulsatile tablet can be effectively used for oral administration in
case of hypertension as it releases the drug in a pulsatile manner up to 7 hours thus
improving patient compliance.
