| 00:00:00 | Welcome! |
| 00:00:47 | Characterizing Nasal Suspensions for Regulatory and Scientific Purposes |
| 00:01:19 | About Nanopharm |
| 00:02:21 | Nanopharm Mission Statement |
| 00:04:18 | Synopsis of Webinar |
| 00:06:02 | Nasal Suspension Drug Products |
| 00:07:09 | Weight of Evidence Approach for Demonstrating Bioequivalence of Nasal Suspensions – US |
| 00:08:58 | Untitled |
| 00:10:27 | FDA-SOL-1120918 : Study to investigate the sensitivity of pharmacokinetics in detecting differences in physicochemical properties of the active in suspension nasal products for local action |
| 00:12:07 | FDA FUNDING: HHSF223201310220C: Drug Substance and Formulation Investigations |
| 00:13:56 | Morphology Directed Raman Spectroscopy (MDRS) Approach to Characterize Nasal Suspensions |
| 00:17:32 | Morphological Analysis of Nasonex and Placebo |
| 00:18:49 | Morphological Analysis of Nasonex and Placebo |
| 00:19:42 | MDRS Analysis of Nasonex |
| 00:20:23 | Raw API Particle Size Distribution of Batches of Mometasone Furoate Monohydrate – Laser Diffraction |
| 00:21:22 | As-received and formulated API MDRS PSD – Batch 1 |
| 00:21:43 | As-received and formulated API MDRS PSD – Batch 2 |
| 00:21:52 | As-received and formulated API MDRS PSD – Batch 3 |
| 00:22:12 | As-received and formulated API MDRS PSD – Batch 4 |
| 00:22:42 | PSD Comparability of Reference and Formulated Drug Substance – MDRS |
| 00:24:03 | Dissolution Analysis of Drug Product |
| 00:25:02 | Relationship Between MDRS PSD of Formulated API and Dissolution |
| 00:26:31 | Force Vs. Displacement Studies of Nasonex |
| 00:27:26 | Measuring Viscoelastic Properties of the Different Commercial Formulations |
| 00:29:47 | Relationship Between Formulation and Droplet Size |
| 00:30:51 | Effect of Avicel Concentration on Formulation Rheology |
| 00:32:34 | Summary |
| 00:33:57 | Thank you for your attentionAny questions? |
| 00:35:13 | Contact Information |
Demonstrating bioequivalence (BE) for complex generics such as nasal spray suspension drug products is a challenging task. Sponsors not only have to consider device requirements but also understand the properties of the API in the presence of functional excipients. The process of achieving equivalence to the reference listed drug product is therefore complex.
In this presentation we explore the requirements for BE and the application of in vitro techniques for API and formulation characteristics. A systematic approach for measuring and assessing the API particle size changes within the formulation will be discussed, alongside the link these measurements have to API solubility and bioavailability. We also explore how the formulation and device interact through considering the force required to actuate during dose delivery. Together, these analytical methods facilitate the determination of critical material and process attributes that may affect drug product quality. As part of the presentation we will reference research carried out during the development of a generic mometasone furoate product.