Product quality is of paramount importance to pharmaceutical manufacturers, and implementing a strategy for impurity control is crucial. Organic impurities cover a wide spectrum of compounds that have varying structures, behaviors, and characteristics. Organic impurities can result from the manufacturing process, storage conditions, or degradation resulting from light, heat, and other external factors. Deciding what technology or analytical methods to use to detect and measure organic impurities is a challenge. Pharmaceutical Technology will hold a live educational webcast, “Meeting Regulatory and Technical Requirements for Organic Impurity Analysis, on Tuesday Sept. 24 at 11:00 AM EDT to 12:00 PM EDT to provide insight on the regulatory, compendial, and ICH requirements for organic impurity control and analysis as well as best practices in analytical method development, method selection, and method validation for detecting and quantifying organic impurities in drug substances and drug products.
The panelists for the webcast will be: Timothy Watson, PhD, and research fellow in the GCMC Advisory Office at Pfizer and a member of the PhRMA Expert Working Group on the ICH Q11 regulatory guidance document for drug substances; Mark Argentine, PhD, senior research advisor, analytical sciences R&D with Eli Lilly; and Hildegard Bruemmer, PhD, operational laboratory manager, SGS Life Science Services, Berlin. The panelists will provide insight on the regulatory and compendial requirements for organic impurity control and analysis in drug substances and drug products. They will also share insight on selecting the appropriate analytical methods for the detection, analysis, and quantification of organic impurities and offer related case studies on how best to ensure product quality.
Audience members may ask questions of the panelists during the live webcast. Information on how to register for the webcast, “Meeting Regulatory and Technical Requirements for Organic Impurity Analysis” for Tuesday Sept. 24 at 11:00 AM EDT to 12:00 PM EDT and for on-demand viewing is available here.