In conclusion, the controlled-release microparticles of TmH can be developed via phase separation method. The development and optimization of controlled-release microparticles of tramadol hydrochloride (TmH) for the oral delivery and their in vitro and in vivo correlation was prime objective of the present study. Four formulations of controlled-released microparticles were developed and optimized in terms of encapsulation efficiency, dissolution study and release kinetics. Among all formulated microparticles F-3 (ratio of TmH:EC 1:2) and F-4 (ratio of TmH:EC 1:3) presented the better characteristics in reference to entrapment efficiency, release kinetics and dissolution profile compared to other formulations (F-1, F-2). For in vivo analysis a new HPLC analytical method was developed and validated. The optimized formulations were subjected to in vivo studies to calculate various pharmacokinetic parameters, i.e., C(max), t(max), AUC(0-∞) and MRT. The in vitro dissolution and in vivo absorption data was correlated with the help of Wagner-Nelson method. F-3 showed a good in vitro-in vivo correlation with a correlation determination of 0.9957. Moreover, lower T(max), t(1/2) and MRT, and higher values of C(max) and K(e) were observed for F-3. The control formulation (immediate-release) presented lowest values of t(1/2), MRT and T(max) but the highest values of C(max) and K(e). The controlled-release microparticles (F-3 and F-4) could sustain the drug release within therapeutic level up to 24 h and good IVIVC is expected from them.
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