Ian D. Pitfield scite author profile

‘Multi‐dimensional’ liquid separations have a history almost as long as chromatography. In multi‐dimensional chromatography the sample is subjected to more than one separation mechanism; each mechanism is considered an independent separation dimension. The separations can be carried out either offline via fraction collection, or directly coupled online. Early multi‐dimensional separations using combinations of paper chromatography, electrophoresis and gels, in both planar and columnar modes are reviewed. Developments in HPLC have increased the number of measurable analytes in ever more complex matrices, and this has led to the concept of ‘global metabolite profiling’. This review focuses on the theory and practice of modern ‘comprehensive’ multi‐dimensional liquid chromatography when applied to biomedical and pharmaceutical analysis. Copyright © 2006 John Wiley & Sons, Ltd.

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Protein interactions with model chromatographic stationary phases constructed using self‐assembled monolayers

Power¹,

Hussain²,

Pitfield³

et al. 2005

J of Separation Science

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Model surfaces representative of chromatographic stationary phases were developed by immobilising an homologous series (C2-C18) of n-alkylthiols, mixed monolayers of C4/C18 and thioalkanes with alcohol, carboxylic acid, amino and sulphonic acid terminal groups onto a flat, silver-coated glass surface using self-assembled monolayer (SAM) chemistry. The processes of adsorption and desorption of serum albumins onto the monolayer surfaces was monitored in real-time using surface plasmon resonance (SPR). Alkyl-terminated SAMs all showed a strong adsorption of bovine serum albumin which was largely independent of alkyl chain length, the ratio of mixed C4/C18 SAMs or the solution pH/ionic strength. The adsorption of human serum albumin to carboxylic and amine terminated SAMs was shown to be predominantly via non-electrostatic interactions (hydrophobic or hydrogen bonding). However, sulphonic acid terminated SAMs showed almost exclusively electrostatic interactions with human serum albumin. This preliminary work using self-assembled monolayer chemistry confirms the usefulness of well characterised SAMs surfaces for investigating protein adsorption and desorption onto/from model chromatography surfaces and gives some guidance for selecting appropriate functionalities to develop better surfaces for chromatography and electrophoresis.

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New developments in affinity chromatography

Lowe

Burton

et al. 1990

J of Molecular Recognition

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The design, synthesis and chromatographic operation of a new range of stable and selective immobilized dye affinity adsorbents for potential application in the purification of pharmaceutical proteins is described. Computer aided molecular design has been exploited to design novel dye ligands which show a predictable selectivity for the target protein and which, when coupled to stable perfluoropolymer supports, yield high capacity, low leakage adsorbents for affinity chromatography. It is anticipated that these new materials will withstand the rigorous conditions required for sanitization and cleaning in situ of industrial scale processes.

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An analytical and structural study of the photostability of some leukotriene B4 antagonists

Albini¹,

Fasani²,

Orford³

et al.

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Ian D. Pitfield

Comprehensive multi‐dimensional liquid chromatographic separation in biomedical and pharmaceutical analysis: a review

Protein interactions with model chromatographic stationary phases constructed using self‐assembled monolayers

New developments in affinity chromatography

An analytical and structural study of the photostability of some leukotriene B4 antagonists

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