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Method development in preparative HPLC

Integration of sample preparation and chromatography by on-line coupling aims at reduction of analysis time. It is apparent from Section 7.1 that these hyphenated techniques are not yet contributing heavily to the overall efficiency of polymer/additive analysis in industry. On-line SFE-SFC requires considerable method development, and MAE-HPLC is off-line. Enhancement of sensitivity for trace analysis requires appropriate sample preparation and preconcentration schemes, as well as improved detection systems. [Pg.732]

Although classical column chromatography over chiral stationary phases has been used for several years, HPLC has until recently been regarded mainly as an analytical tool. However, methods have now been developed and many papers have been published on the various applications of particular stationary phases in preparative HPLC, which may be the method of choice when the preparation of small amounts of material are required for screening purposes, for use in biological assays, or as standards in purity assays. The use of chromatographic techniques may be quicker and less risky than custom synthesis and resolution and can guarantee material to a defined specification. [Pg.561]

Frequently, the objective of preparative HPLC as applied to natural products chemistry is to isolate a metabolite of unknown structure in sufficient quantity and purity to enable structure elucidation and biological assay. Alternatively, the objective might be to scale up the isolation of a known compound to provide material for further biological evaluation or for chemical studies. The purpose for which the compound is required will dictate the compound purity required, and this in turn may dictate the strategy adopted. Many factors may affect the success of a preparative HPLC-based natural product isolation. Some principal considerations—chromatographic method development, sample preparation, scale-up, and fractionation/fraction work-up—are now discussed. Examples are included wherever possible to illustrate the points in question and to emphasize the enormous versatility and resolving power of preparative HPLC. [Pg.175]

A. Preparation for Analysis HPLC METHOD DEVELOPMENT IN-PROCESS CONTROL TESTS... [Pg.397]

The hydrophilic surface characteristics and the chemical nature of the polymer backbone in Toyopearl HW resins are the same as for packings in TSK-GEL PW HPLC columns. Consequently, Toyopearl HW packings are ideal scaleup resins for analytical separation methods developed with TSK-GEL HPLC columns. Eigure 4.44 shows a protein mixture first analyzed on TSK-GEL G3000 SWxl and TSK-GEL G3000 PWxl columns, then purified with the same mobile-phase conditions in a preparative Toyopearl HW-55 column. The elution profile and resolution remained similar from the analytical separation on the TSK-GEL G3000 PWxl column to the process-scale Toyopearl column. Scaleup from TSK-GEL PW columns can be direct and more predictable with Toyopearl HW resins. [Pg.150]

The aim of this work, to develop a RP-HPLC method for the detemtination of four components given above in a new symp preparation by optimizing the experimental conditions using two level fractional factorial design. [Pg.286]

The primary object of this book is to provide the HPLC practitioner with a handy guide to the use of HPLC for analyzing pharmaceutical compounds of interest. This means familiarizing the practitioner with the theory, instrumentation, regulations, and numerous applications of HPLC. This handbook provides practical guidelines using case studies on sample preparation, column or instrument selection, and summaries of best practices in method development and validation, as well as tricks... [Pg.2]

For a liquid or semi-solid pharmaceutical dosage form, it is crucial to include a preservative in the formulation. Commonly used preservatives in these systems include sodium benzoate, EDTA, sorbic acid, and parabens. A generic HPLC method is also recommended for the preservatives used in liquid formulations for routine monitoring to ensure the stability of the preservative itself and it must be validated specific to its use with the dosage form. (See chapters on Sample Preparation and Method Development.)... [Pg.353]

CE instrumentation is quite simple (see Chapter 3). A core instrument utilizes a high-voltage power supply (capable of voltages in excess of 30,000 V), capillaries (approximately 25—lOOpm I.D.), buffers to complete the circuit (e.g., citrate, phosphate, or acetate), and a detector (e.g., UV-visible). CE provides simplicity of method development, reliability, speed, and versatility. It is a valuable technique because it can separate compounds that have traditionally been difficult to handle by HPLC. Furthermore, it can be automated for quantitative analysis. CE can play an important role in process analytical technology (PAT). For example, an on-line CE system can completely automate the sampling, sample preparation, and analysis of proteins or other species that can be separated by CE. [Pg.3]


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HPLC methods

HPLC methods development

In HPLC

In preparative HPLC

Method development

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