Webinar Series: Enabling real time release testing by NIR prediction of dissolution of tablets by Co
The methodology enables real-time release testing. Tablets were made at a target drug concentration of 9% APAP, containing 90% lactose and 1% Magnesium Stearate, and at a target compression force of 24 kN. A model for predicting dissolution profiles was developed using a fractional factorial experimental design built around this targeted condition. This experimental design consisted of a 3^(4-1) fractional design resulting into a total of 27 testing conditions with additional
Webinar Series Registration: Enabling real time release testing by NIR prediction of dissolution of
C-SOPS Webinar Series Presents Enabling real time release testing by NIR
prediction of dissolution of tablets by
Continuous Direct Compression (CDC) Pallavi Pawar, Ph.D.
Wednesday July 27th 2016 @ 1PM EST The methodology enables real-time release testing. Tablets were made at a target drug concentration of 9% APAP, containing 90% lactose and 1% Magnesium Stearate, and at a target compression force of 24 kN. A model for predicting dissolution profiles was developed using a
CSOPS Seminar: Continuous Direct Compression in the Real World
Lessons Learned, A Hands On Technical Seminar of Total Integrated Design Tuesday, May 17, 2016 Rutgers University's Pharmaceutical Research Center, C-SOPS, Piscataway, NJ A technical seminar presented by: What to expect at this seminar:
This technical seminar will offer pharmaceutical manufacturers information on continuous processing, with a focus on continuous direct compression. Presentations will be given by experts in a variety of continuous processing operations, wi
