Characterization and optimization of a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid-modified zirconia particles

Sabyasachi Sarkar, Peter W. Carr, Clayton V. McNeff, Anuradha Subramanian

Research output: Contribution to journalArticle

19 Citations (Scopus)

Abstract

The primary objective of work was to characterize, optimize and model a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid (EDTPA)-modified zirconia particles. Zirconia particles were produced by spray-drying colloidal zirconia. Zirconia spheres produced were further classified, calcined and modified with EDTPA to yield a solid-phase support for use in bio-chromatography (r_PEZ). Specifically, the ability of r_PEZ to selectively bind and enrich IgG, IgA, and IgM from biological fluids was evaluated and demonstrated. To better understand the force of interaction between the IgG and the r_PEZ, the equilibrium disassociation constant (Kd) was determined by static binding isotherms, as a function of temperature and by frontal analysis at different linear velocities. The maximum static binding capacity (Qmax) was found to be in the range 55-65 mg IgG per ml of beads, and unaffected by temperature. The maximum dynamic binding capacity (Qx) was found to be in the range 20-12 mg IgG per ml of beads. The adsorption rate constant (ka) was determined by a split-peak approach to be between 982 and 3242 l mol-1 s-1 depending on the linear velocity. The standard enthalpy and entropy values were estimated for this interaction of IgG with this novel support.

Original languageEnglish (US)
Pages (from-to)143-152
Number of pages10
JournalJournal of Chromatography B: Analytical Technologies in the Biomedical and Life Sciences
Volume790
Issue number1-2
DOIs
StatePublished - Jun 25 2003

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ethylenediamine
Immunoglobulin G
Spray drying
Temperature
Equilibrium constants
Entropy
Chromatography
Immunoglobulin A
Adsorption
Immunoglobulin M
Isotherms
Enthalpy
Rate constants
methylphosphonic acid
zirconium oxide

Keywords

  • Adsorption constants
  • Antibodies
  • Dynamic capacity
  • Zirconia

ASJC Scopus subject areas

  • Analytical Chemistry
  • Biochemistry
  • Clinical Biochemistry
  • Cell Biology

Cite this

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title = "Characterization and optimization of a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid-modified zirconia particles",
abstract = "The primary objective of work was to characterize, optimize and model a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid (EDTPA)-modified zirconia particles. Zirconia particles were produced by spray-drying colloidal zirconia. Zirconia spheres produced were further classified, calcined and modified with EDTPA to yield a solid-phase support for use in bio-chromatography (r_PEZ). Specifically, the ability of r_PEZ to selectively bind and enrich IgG, IgA, and IgM from biological fluids was evaluated and demonstrated. To better understand the force of interaction between the IgG and the r_PEZ, the equilibrium disassociation constant (Kd) was determined by static binding isotherms, as a function of temperature and by frontal analysis at different linear velocities. The maximum static binding capacity (Qmax) was found to be in the range 55-65 mg IgG per ml of beads, and unaffected by temperature. The maximum dynamic binding capacity (Qx) was found to be in the range 20-12 mg IgG per ml of beads. The adsorption rate constant (ka) was determined by a split-peak approach to be between 982 and 3242 l mol-1 s-1 depending on the linear velocity. The standard enthalpy and entropy values were estimated for this interaction of IgG with this novel support.",
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T1 - Characterization and optimization of a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid-modified zirconia particles

AU - Sarkar, Sabyasachi

AU - Carr, Peter W.

AU - McNeff, Clayton V.

AU - Subramanian, Anuradha

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AB - The primary objective of work was to characterize, optimize and model a chromatographic process based on ethylenediamine-N,N,N′,N′-tetra(methylphosphonic) acid (EDTPA)-modified zirconia particles. Zirconia particles were produced by spray-drying colloidal zirconia. Zirconia spheres produced were further classified, calcined and modified with EDTPA to yield a solid-phase support for use in bio-chromatography (r_PEZ). Specifically, the ability of r_PEZ to selectively bind and enrich IgG, IgA, and IgM from biological fluids was evaluated and demonstrated. To better understand the force of interaction between the IgG and the r_PEZ, the equilibrium disassociation constant (Kd) was determined by static binding isotherms, as a function of temperature and by frontal analysis at different linear velocities. The maximum static binding capacity (Qmax) was found to be in the range 55-65 mg IgG per ml of beads, and unaffected by temperature. The maximum dynamic binding capacity (Qx) was found to be in the range 20-12 mg IgG per ml of beads. The adsorption rate constant (ka) was determined by a split-peak approach to be between 982 and 3242 l mol-1 s-1 depending on the linear velocity. The standard enthalpy and entropy values were estimated for this interaction of IgG with this novel support.

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