Dependence of Punch Sticking on Compaction Pressure-Roles of Particle Deformability and Tablet Tensile Strength.
J Pharm Sci. 2017 08; 106(8):2060-2067.JP

Abstract

Punch sticking is a complex phenomenon influenced primarily by particle size, tooling surface roughness, tooling design, and tooling construction material. When particle and environmental factors are controlled, compaction pressure has a distinct effect on punch sticking behavior for a given active pharmaceutical ingredient (API). This research focuses on the effect of compaction pressure on punch sticking using 5 compounds with different sticking propensities. The results collectively show that sticking tends to be more problematic under higher compaction pressures and for more ductile compounds. This is attributed to the greater punch surface coverage by the API and the stronger cohesion of API to the existing API layer on the punch.

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Authors+Show Affiliations

Paul S
Department of Pharmaceutics, Pharmaceutical Materials Science and Engineering Laboratory, College of Pharmacy, University of Minnesota, Minneapolis, Minnesota 55455.
Wang K
Department of Pharmaceutics, Pharmaceutical Materials Science and Engineering Laboratory, College of Pharmacy, University of Minnesota, Minneapolis, Minnesota 55455.
Taylor LJ
Pfizer Worldwide Research & Development, Sandwich, UK.
Murphy B
Pfizer Worldwide Research & Development, Groton, Connecticut 06340.
Krzyzaniak J
Pfizer Worldwide Research & Development, Groton, Connecticut 06340.
Dawson N
Pfizer Worldwide Research & Development, Sandwich, UK.
Mullarney MP
Pfizer Worldwide Research & Development, Groton, Connecticut 06340.
Meenan P
Pfizer Worldwide Research & Development, Groton, Connecticut 06340.
Sun CC
Department of Pharmaceutics, Pharmaceutical Materials Science and Engineering Laboratory, College of Pharmacy, University of Minnesota, Minneapolis, Minnesota 55455. Electronic address: sunx0053@umn.edu.

MeSH

Compressive StrengthDrug CompoundingElasticityHardnessParticle SizePressureSurface PropertiesTabletsTensile Strength

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

28478129