Nano-suspension coating as a technique to modulate the drug release from controlled porosity osmotic pumps for a soluble agent

Abstract

In controlled porosity osmotic pumps (CPOP), usually finding a single solvent with a capability to dissolve both film former (hydrophobic) and pore former (hydrophilic) is extremely challenging. Therefore, the aim of the present investigation was to tackle the issue associated with controlled porosity osmotic pump (CPOP) system using nano-suspension coating method. In the present study 4-Amino pyridine was used as a highly water soluble drug. In this method, a hydrophilic pore former (sucrose or mannitol) in nano range was suspended in polymeric coating solution using ball-mill. The performance of the prepared formulations was assessed in terms of D-12h (cumulative release percent after 12 h), Dev(zero) (mean percent deviation of drug release from zero order kinetic), t(L) (lag time of the drug release) and RSQ(zero). The results revealed that gelling agent amount (HPMC E-15LV) in core and pore former concentration in SPM had crucial effect on SPM,integrity. All the optimised formulations showed a burst drug release due to fast dissolving nature of the pore formers. Results obtained from scanning electron microscopy demonstrated the formation of nanopores in the membrane where the drug release takes place via these nanopores. Nano suspension coating method can be introduced as novel method in formulation of CPOPs. (C) 2017 Elsevier B.V. All rights reserved.