Column detection sensitivity

Thermospray nebulizers are somewhat expensive but can be used on-line to a liquid chromatographic column. About 10% of sample solution is transferred to the plasma flame. The overall performance of the thermospray device compares well with pneumatic and ultrasonic sprays. When used with microbore liquid chromatographic columns, which produce only about 100 pl/min of eluant, the need for spray and desolvation chambers is reduced, and detection sensitivities similar to those of the ultrasonic devices can be attained both are some 20 times better than the sensitivities routinely found in pneumatic nebulizers. 

For more specific analysis, chromatographic methods have been developed. Using reverse-phase columns and uv detection, hplc methods have been appHed to the analysis of nicotinic acid and nicotinamide in biological fluids such as blood and urine and in foods such as coffee and meat. Derivatization techniques have also been employed to improve sensitivity (55). For example, the reaction of nicotinic amide with DCCI (AT-dicyclohexyl-0-methoxycoumarin-4-yl)methyl isourea to yield the fluorescent coumarin ester has been reported (56). After separation on a reversed-phase column, detection limits of 10 pmol for nicotinic acid have been reported (57). 

Reaction detectors are a convenient means of performing online postcolumn derivatization in HPLC. The derivative reaction is performed after the separation of the sample by the column and prior to detection in a continuous reactor. The mobile phase flow is not interrupted during the analysis and reaction, although it may be augmented by the addition of a secondary solvent to aid the reaction or to conform to the requirements of the detector. Reaction detectors are finding increasing application for the analysis of trace components in complex matrices where both high detection sensitivity and selectivity are needed. Many suitable reaction techniques have been published for this purpose [641-650]. 

Ultra-performance HPLC (UPLC) utilizes sub-2-pm porous particles inside packed microbore columns up to 150 mm long. Significant improvements in terms of resolution, analysis time, and detection sensitivity have been reported. A side-by-side comparison of HPLC and UPLC was made to determine concentrations of alprazolam in rat plasma.10 UPLC provided a four-fold reduction in terms of LC/MS/MS cycle time that translated into higher sample throughput. Another important... 

Fluorescence is not widely used as a general detection technique for polypeptides because only tyrosine and tryptophan residues possess native fluorescence. However, fluorescence can be used to detect the presence of these residues in peptides and to obtain information on their location in proteins. Fluorescence detectors are occasionally used in combination with postcolumn reaction systems to increase detection sensitivity for polypeptides. Fluorescamine, o-phthalaldehyde, and napthalenedialdehyde all react with primary amine groups to produce highly fluorescent derivatives.33,34 These reagents can be delivered by a secondary HPLC pump and mixed with the column effluent using a low-volume tee. The derivatization reaction is carried out in a packed bed or open-tube reactor. 

High-performance liquid chromatography (HPLC) has become a standard separation technique used in both academic and commercial analytical laboratories. However, there are several drawbacks to standard HPLC, including high solvent consumption, large sample quantity, and decreased detection sensitivity. Micro-HPLC (pHPLC) is a term that encompasses a broad range of sample volumes and column sizes (as shown in Table 3.1), but Saito and coworkers provided narrower definitions in their review based on the size of the columns. ... 

A more sophisticated mode of LIE detection is the multiphoton-excitation (MPE) fluorescence [47], which is based on the simultaneous absorption of more than one photon in the same quantum event and uses special lasers, such as femtosecond mode-locked laser [48] or continuous wave laser [49], This mode of LIE detection allows mass detection limits at zeptomole level (1 zepto-mole=10 mol) due to exceptionally low detection background and extremely small detection volume, whereas detection sensitivity in concentration is comparable to that of traditional LIE detection modes. A further drawback is the poor suitability of MPE-fluorescence detection to the on-column detection configuration, which is frequently employed in conventional LIE detection. 

The need for enhanced detection sensitivity and automation has steadily increased for the separation and analysis of peptides from natural sources or proteolytic digestion of low abundance proteins this is also partly a consequence of the greater usage of combinatorial solid-phase synthetic approaches. Narrow bore (1-2 mm i.d.), microbore (0.5-1.0 mm i.d.), and capillary (100-500 pm i.d.) columns have provided attractive solutions to these problems. 1221 An important attribute of very small particle diameter micropellicular, porous, or nonporous RPC sorbents is that they are ideally suited to such microbore or capillary... 

Gel permeation chromatography of protein linear random coils in guanidinium chloride allows simultaneous resolution and molecular weight analysis of polypeptide components. Column calibration results are expressed in terms of a log M vs. Kd plot or of effective hydrodynamic radius (Re/). For linear polypeptide random coils in 6M GuHCl, Re is proportional to M0 555, and M° 555 or Re may be used interchangeably. Similarly, calibration data may be interpreted in terms of N° 555 (N is the number of amino acid residues in the polypeptide chain), probably the most appropriate calibration term provided sequence data are available for standards. Re for randomly coiled peptide heteropolymers is insensitive to amino acid residue side-chain composition, permitting incorporation of chromophoric, radioactive, and fluorescent substituents to enhance detection sensitivity. 

In an attempt to avoid interactions with residual silanol groups, Abidi and Mounts investigated the separation of the molecular species of PC, PE, and SPH on polymeric C18 columns by RP-HPLC (103). Of the three polymer columns evaluated, the best HPLC results were obtained with an octadecanoyl polyvinyl alcohol (ODPVA) stationary phase. High-performance LC on ODPVA with an A/M/W mobile phase provided significantly faster analysis and greater detection sensitivity than assays with C18 silica columns. 

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