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Hydrodynamic investigation of USP dissolution test apparatus II.
J Pharm Sci. 2007 Sep; 96(9):2327-49.JP

Abstract

The USP Apparatus II is the device commonly used to conduct dissolution testing in the pharmaceutical industry. Despite its widespread use, dissolution testing remains susceptible to significant error and test failures, and limited information is available on the hydrodynamics of this apparatus. In this work, laser-Doppler velocimetry (LDV) and computational fluid dynamics (CFD) were used, respectively, to experimentally map and computationally predict the velocity distribution inside a standard USP Apparatus II under the typical operating conditions mandated by the dissolution test procedure. The flow in the apparatus is strongly dominated by the tangential component of the velocity. Secondary flows consist of an upper and lower recirculation loop in the vertical plane, above and below the impeller, respectively. A low recirculation zone was observed in the lower part of the hemispherical vessel bottom where the tablet dissolution process takes place. The radial and axial velocities in the region just below the impeller were found to be very small. This is the most critical region of the apparatus since the dissolving tablet will likely be at this location during the dissolution test. The velocities in this region change significantly over short distances along the vessel bottom. This implies that small variations in the location of the tablet on the vessel bottom caused by the randomness of the tablet descent through the liquid are likely to result in significantly different velocities and velocity gradients near the tablet. This is likely to introduce variability in the test.

Links

Publisher Full Text
linkinghub.elsevier.com
onlinelibrary.wiley.com

Authors+Show Affiliations

Bai G
Department of Chemical Engineering, New Jersey Institute of Technology, Otto H. York Newark, 323 M. L. King Boulevard, Newark, New Jersey 07102-1982, USA.
Armenante PM
No affiliation info available
Plank RV
No affiliation info available
Gentzler M
No affiliation info available
Ford K
No affiliation info available
Harmon P
No affiliation info available

MeSH

AlgorithmsChemistry, PharmaceuticalComputer SimulationKineticsLaser-Doppler FlowmetryPharmaceutical PreparationsPharmacopoeias as TopicSolubilityTabletsUnited States

Pub Type(s)

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

Language

eng

PubMed ID

17573698

Citation

Bai, Ge, et al. "Hydrodynamic Investigation of USP Dissolution Test Apparatus II." Journal of Pharmaceutical Sciences, vol. 96, no. 9, 2007, pp. 2327-49.
Bai G, Armenante PM, Plank RV, et al. Hydrodynamic investigation of USP dissolution test apparatus II. J Pharm Sci. 2007;96(9):2327-49.
Bai, G., Armenante, P. M., Plank, R. V., Gentzler, M., Ford, K., & Harmon, P. (2007). Hydrodynamic investigation of USP dissolution test apparatus II. Journal of Pharmaceutical Sciences, 96(9), 2327-49.
Bai G, et al. Hydrodynamic Investigation of USP Dissolution Test Apparatus II. J Pharm Sci. 2007;96(9):2327-49. PubMed PMID: 17573698.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Hydrodynamic investigation of USP dissolution test apparatus II. AU - Bai,Ge, AU - Armenante,Piero M, AU - Plank,Russell V, AU - Gentzler,Michael, AU - Ford,Kenneth, AU - Harmon,Paul, PY - 2007/6/19/pubmed PY - 2007/12/6/medline PY - 2007/6/19/entrez SP - 2327 EP - 49 JF - Journal of pharmaceutical sciences JO - J Pharm Sci VL - 96 IS - 9 N2 - The USP Apparatus II is the device commonly used to conduct dissolution testing in the pharmaceutical industry. Despite its widespread use, dissolution testing remains susceptible to significant error and test failures, and limited information is available on the hydrodynamics of this apparatus. In this work, laser-Doppler velocimetry (LDV) and computational fluid dynamics (CFD) were used, respectively, to experimentally map and computationally predict the velocity distribution inside a standard USP Apparatus II under the typical operating conditions mandated by the dissolution test procedure. The flow in the apparatus is strongly dominated by the tangential component of the velocity. Secondary flows consist of an upper and lower recirculation loop in the vertical plane, above and below the impeller, respectively. A low recirculation zone was observed in the lower part of the hemispherical vessel bottom where the tablet dissolution process takes place. The radial and axial velocities in the region just below the impeller were found to be very small. This is the most critical region of the apparatus since the dissolving tablet will likely be at this location during the dissolution test. The velocities in this region change significantly over short distances along the vessel bottom. This implies that small variations in the location of the tablet on the vessel bottom caused by the randomness of the tablet descent through the liquid are likely to result in significantly different velocities and velocity gradients near the tablet. This is likely to introduce variability in the test. SN - 0022-3549 UR - https://www.unboundmedicine.com/medline/citation/17573698/Hydrodynamic_investigation_of_USP_dissolution_test_apparatus_II_ L2 - https://linkinghub.elsevier.com/retrieve/pii/S0022-3549(16)32344-9 DB - PRIME DP - Unbound Medicine ER -