Efforts to improve detection sensitivity for capillary electrophoresis coupled to atmospheric pressure photoionization mass spectrometry.

Electrospray ionization performs best with volatile buffers. However, generally the best separation performance for capillary electrophoresis (CE) is achieved with non-volatile buffers. Hyphenation of CE with mass spectrometry (MS) utilizing atmospheric pressure photoionization (APPI) enables use of a wider range of separation buffers without compromising detection sensitivity. As APPI is considered to be mass flow sensitive, the use of a larger inner diameter separation capillary (75 microm) allows larger volumes to be injected, without decreased separation performance, thus providing improved sensitivity (approx. a factor of 10), compared to the use of a 25 microm capillary. However, nebulizing gas flow and position of capillary tip in the sprayer have to be carefully optimized to prevent excessive band broadening. Further improvement in sensitivity (approx. a factor of 2) was obtained by decreasing the distance between the sprayer and ionization region, indicating that a specially designed CE/APPI-MS interface for low flow rates will be favourable.

Chromatographic (TLC) analysis of diltiazem in pharmaceutical form in presence of other antiarrhythmics.

Diltiazem was identified by TLC method on silica gel by ascending technique, in presence of five another antiarrhythmic drugs (disopyramide, flecainide, lidocaine, lorcainide, procainamide). Suitable conditions for separation of diltiazem were established using ethanol-benzene-dioxane-ammonia (2:20:16:3) as the mobile phase. When using acidified iodoplatinate solution or Dragendorff reagent as indicators, the amount of diltiazem as small as 100 ng can be identified. The TLC method is simple and sensitive and it was used to identify diltiazem in tablets.

[The detection and quantitative determination of lidocaine and novocainamide in biological fluids]. / Obnaruzhenie i kolichestvennoe opredelenie lidokaina i novokainamida v biologicheskikh zhidkostiakh.

Offers methods for isolation of lidocaine and novocainamide present together in the urine, blood plasma, and saliva. Demonstrates the possibility of identifying these substances in biological fluids by thin-layer and gas liquid chromatography. Proposes methods for measuring lidocaine and novocainamide in biological objects by UV spectrometry (combined polynomial) and gas liquid chromatography. Demonstrates the reliability of the results.

Stacking for nonaqueous capillary electrophoresis.

Nonaqueous capillary electrophoresis (NACE) is a useful mode in CE for separation and quantification of hydrophobic compounds. However, because of the low conductivity of most of the organic solutions, stacking is not used often in this technique and the sample volume is very limited. As a result of the small sample volume, the detection limits are poor. Furthermore, NACE is affected greatly by the presence of salts in the sample. Here, we show that transient isotachophoresis (t-ITP) can be used easily in this type of electrophoresis to enhance the detection limits and also to reverse the deleterious effects of salts in the sample. Several factors, which affect the stacking in this type of electrophoresis, are described. For example, the presence of salts in the organic solvent, type of sample introduction, and the solvent for the terminating ion were all found to have profound effects on the degree of concentration. Furthermore, the separation time can be shortened by t-ITP.