Skip to main content
Join CMKC members for a complimentary virtual event on December 10, 11am ET: CM MythBusters: https://bit.ly/3YXJynA. This is a fantastic opportunity to connect, collaborate, and debunk common myths about continuous manufacturing!
3.144.2.5

Effect of High Shear Blending Protocols and Blender Parameters on the Degree of API Agglomeration in Solid Formulations

By Llusa, M; Sturm, K; Sudah, O; Stamato, H; Goldfarb, DJ; Ramachandruni, H; Hammond, S; Smith, MR; Muzzio, FJ

Published on

Abstract

This paper examines the effect of three protocols with several units and blender parameters on the mitigation of active pharmaceutical ingredient (API) agglomeration in solid formulations. The three protocols either preblend API with a portion of excipients in a high shear unit followed by dilution in a large blender or prepare the entire blend in a single blender followed by milling. In general, the three protocols yield blends with statistically similar API concentration variance and deagglorneration. The scale-up of the three protocols leads to more extensive API deagglomeration, which suggests that blender parameters still influence the degree of API deagglomeration, even when high shear units are present in the protocol. Lower blender fill levels and larger blenders lead to blends with fewer API agglomerates. Regarding the use of blender internals, results show that baffles have no substantial effect on API agglomeration. The inclusion of a moving internal (i.e., impeller) in a bin blender may not always lead to blends with fewer API agglomerates. The design and the positioning of the impeller play an important role as well.

Journal

Industrial & Engineering Chemistry Research. Volume 48, 2009, 93-101

DOI

10.1021/ie8007055

Type of publication

Peer-reviewed journal

Affiliations

  • Rutgers State University
  • Bristol-Myers Squibb Co
  • Schering Plough Corp, Harborside Financial Center (now part of Merck & Co., Inc.), Pfizer Inc.

Article Classification

Research article

Classification Areas

  • Oral solid dose

Tags