International Journal of Pharma and Bio Sciences
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editorijpbs@rediffmail.com (or) editorofijpbs@yahoo.com (or) prasmol@rediffmail.com
10.22376/ijpbs.2019.10.1.p1-12
Volume 6 Issue 1
2015 (January - March)
PHARMACOKINETIC SIMULATION TO DETERMINE TARGET IN VITRO DRUG RELEASE PROFILE FOR RIVASTIGMINE CONTROLLED RELEASE FORMULATION
Rivastigmine, an anti-Alzheimer's drug, is effective in the treatment of mild to moderate dementia. Oral immediate release (IR) formulation suffers from limitation like severe GI adverse effects which may even result in treatment interruption, like vomiting, diarrhea and anorexia resulting in wide fluctuations in drug plasma levels and calling for altered frequency of dosing. Even the Novel Drug Delivery System such as transdermal formulation suffers from poor patient compliance. The present work aims at pharmacokinetic simulation to determine the required dose and target lessThan i greaterThan in vitro lessThan /i greaterThan drug release profile required for the development of once a day controlled release drug delivery system (CRDDS) of Rivastigmine with a steady state maximum and minimum plasma concentrations (Css max and Css min) similar to that of a transdermal formulation with reduced frequency of dosing and GI adverse events. Using zero order and absorption models, dose and the lessThan i greaterThan in vitro lessThan /i greaterThan drug release rate per hour for controlled release formulation of Rivastigmine were found to be 10.9 mg and 0.48 mg h lessThan sup greaterThan -1 lessThan /sup greaterThan respectively. There is a rapid decline in the fluctuation index of controlled release formulations of rivastigmine, 0.73 as compared to 6.53 of IR formulation, indicating more constant plasma concentrations than the IR formulation, thereby reducing the adverse event. Based on the simulation study, the feasibility of Controlled release formulation of Rivastigmine is explored with a predetermined target lessThan i greaterThan in vitro lessThan /i greaterThan release profile and dose prior to initiation of the formulation development, thereby reducing the cost and development timelines.
MOHAMMED ABDUL RAZACK, Dr. G.S. PRASAD,R. SANKAR AND Dr. JAYANARAYAN KULATHINGAL
Rivastigmine, Pharmacokinetic simulation, Controlled release, Target Invitro drug release
333-342