Green bioanalysis: some innovative ideas towards green analytical techniques

The key target of green chemistry is to make compounds and materials available to mankind, while causing no harm to the environment. In the 21st century analytical scientists are more concerned about green analytical method development. The number of literatures on green chemistry has undergone a dramatic increase in the new millennium. Green bioanalytical techniques aim to minimize or eliminate the hazardous waste associated with bioanalytical methods. An efficient and sincere approach towards bioanalytical method development has an enormous contribution towards green analysis. The selection of organic constituents of the mobile phase, choice of sample extraction process, adoption of an appropriate separation procedure and a few others, control the green chemistry approach of the bioanalytical method. In routine practice, UHPLC–MS can be the most suitable approach, while supercritical fluid chromatography is one of the best available techniques for green bioanalytical methods. Nevertheless, there always remains great scope of further research on green bioanalytical methods.

Progress in packed column supercritical fluid chromatography: materials and methods

This article summarizes recent developments in packed column supercritical fluid chromatography. Silica-based chemically bonded sorbents, similar to those used for HPLC, are widely used with solvent-modified fluids containing additives to suppress undesirable solute-sorbent interactions that lead to poor peak shapes. Composition programming is the most useful approach to gradient elution separations since solvent-modified fluids have low compressibility. Packed column SFC is most useful for the separation of mixtures usually separated by normal-phase HPLC. Compared to normal-phase HPLC it offers faster separations, higher efficiencies, faster column re-equilibration, and a wider range of experimental variables for optimization. Packed column SFC is being increasingly selected for the analytical and preparative separation of racemic mixtures using enantiomer-selective sorbents.

Packed-column supercritical fluid chromatography for the purity analysis of clevidipine, a new dihydropyridine drug

In this paper we describe a packed column supercritical fluid chromatography method that can be used for the analysis of a new dihydropyridine substance. The method is based on methanol-modified carbon dioxide as the mobile phase and Hypersil bare silica as column support at a column temperature of 50 degrees C and 150 bar as back pressure. Using an adjusted methanol gradient the most likely by-products can be separated and detected (240 nm) within 13 min. Occasionally the column needed treatment with 4 mM citric acid in the methanol modifier in order to give a narrow peak of an acidic analogue. The present method can detect analogues at the 0.1% (w/w) level. The precision at this level for one of the analogues was 5.9% RSD. This method shows a higher selectivity than a corresponding reversed-phase liquid chromatographic method.

Supercritical fluids in separation science--the dreams, the reality and the future

The last 20 years have seen an intense interest in the use of supercritical fluids in separation science. This started with the introduction of commercial instruments first for packed and then for capillary chromatography and it looked as if this would be a technique to rival gas-liquid chromatography and HPLC. The activity developed quite rapidly into packed column supercritical fluid separations then into supercritical fluid extraction. However, in recent years there has been a decline in publications. These later techniques continue to be used but are now principally applied to a limited group of applications where they offer significant advantages over alternative techniques. This review looks back over this period and analyses how these methods were developed and the fluids, detectors and applications that were examined. It suggests why many of the initial applications have vanished and why the initial apparent promise was not fulfilled. The rise and fall of supercritical fluids represents a lesson in the way analysts approach new techniques and how we might view other new separation developments at the end of this millennium. The review looks forward to the future of supercritical fluids and their role at the end of the first century of separation science. Probably the most important idea that supercritical fluids have brought to separation science is a recognition that there is unity in the separation methods and that a continuum exists from gases to liquids.

Preparation of liposomes encapsulating water-soluble compounds using supercritical carbon dioxide

In this paper the development of a new preparation method of liposomes containing a water soluble marker (fluorescein isothiocyanate-dextran (FITC-dextran) or zinc phthalocyanine tetrasulfonic acid (TSZnPc) using supercritical carbon dioxide (called "the supercritical liposome method") is described. The apparatus used consisted of two main parts: the high-pressure part, in which the lipid components 1-palmitoyl-2-oleoylphosphatidylcholine (POPC) and cholesterol (Chol) (7:3 molar ratio) were dissolved under pressure in supercritical carbon dioxide, and a low-pressure part, in which the homogeneous supercritical solution is expanded and simultaneously mixed with the aqueous phase to yield liposomes encapsulating the water soluble marker. Addition of 7% absolute ethanol to carbon dioxide at 25 MPa and 60 degrees C and the use of a high-pressure recycling system during 30 min form the homogeneous solution with high reproducibility of both lipid components and resulted in an equal expansion profile (recovery after expansion versus time) of POPC and Chol. Incubation of the lipid components during 60 min at the above mentioned conditions generated only 3% degradation. The average size of the liposomes was about 200 nm and could not be influenced by the experimental conditions used. Optimal values for encapsulated volume (1.25 L/mol) and efficiency (20%) of the liposomes were obtained using statistical experimental design by using the water soluble marker TSZnPc and an encapsulation capillary with 5.0 cm length and 0.5 mm inner diameter. The total amount of ethanol used to obtain an encapsulation efficiency of 20% was 15-fold reduced compared to the ethanol injection method of Batzri and Korn (Biochim. Biophys. Acta 1973, 298, 1015-1019).

Supercritical fluid chromatography in the routine stability control of antipruritic preparations

A recently developed system for supercritical fluid chromatography (SFC), based on independent flow and pressure control and suitable for packed and capillary columns, was tested on a routine level for the reliable, accurate and precise determination of active pharmaceutical substances in stability control. Only packed columns were used for this analysis. The chromatographic figures of merit and the validation data of the active substance alone and in two different dosage forms (accuracy, 98.8-99.2%; precision, 0.6%; linearity of response, 0.998-0.999) are comparable with the former liquid chromatographic methods. Economical (reduction of analysis time, fewer experimental steps and less sample pre-separation) and ecological (carbon dioxide of organic solvents) advantages make SFC an attractive alternative to liquid chromatography in the determination of crotamiton.