Evaluation of mobile phase gradient supercritical fluid chromatography for impurity profiling of pharmaceutical compounds.

The use of gradient supercritical fluid chromatography (SFC) for the impurity profiling of pharmaceutical products is not widely practiced. Historically, the limited advancement in SFC instrumentation and the lag in column development have resulted in marginal sensitivity, selectivity and reproducibility when compared with high performance liquid chromatography (HPLC). Using a recently developed commercial module, which allows an ordinary HPLC to be converted to a SFC system, a significant improvement in sensitivity (up to ~12-fold) has been obtained over previous studies. This has allowed for the first time a "real-world" head-to-head comparison of SFC to HPLC for impurity profiling of pharmaceutical products in a regulated environment. Retention time reproducibility and low level impurity detection were found to be comparable to reversed phase liquid chromatography (RPLC), that is, single digit %relative standard deviations (RSDs) were obtained for impurities present at less than 0.1 area%. Furthermore, these results were obtained with drug loading levels (≤2 mg/mL) that are not only comparable to those employed with HPLC, but are dictated by the limited solubility of many drug candidates. The elution of impurities was generally found to be orthogonal to that obtained with RPLC, but it was still challenging to find SFC conditions that would separate all of the components in the mixtures studied. In terms of enhancing selectivity, small amounts of mobile phase additives (0.1-1%) and temperature optimization were found to have a greater impact in SFC method development versus RPLC. However, unlike gradient RPLC, the relative changes in baseline noise and slope were found to be a complex function of the experimental conditions, with the largest differences in noise levels being generally observed for the widest and steepest gradients. It is likely that this gradient related noise is more apparent now because other sources of noise in SFC have been reduced significantly.

Alexander AJ ，Hooker TF ，Tomasella FP 《-》

Comparison of supercritical fluid chromatography and reverse phase liquid chromatography for the impurity profiling of the antiretroviral drugs lamivudine/BMS-986001/efavirenz in a combination tablet.

Dual and triple combinations of antiretroviral drugs are a cornerstone of human immunodeficiency virus type 1 (HIV-1) treatment. Supercritical fluid chromatography (SFC) and reverse phase liquid chromatography (RPLC) methods have been developed for the impurity profiling of a prototype combination tablet containing three such drugs: lamivudine, BMS-986001 and efavirenz. Separation by SFC was achieved using a Princeton 2-ethyl pyridine stationary phase and a mobile phase B consisting of methanol with 10 mM ammonium acetate and 0.1% isopropyl amine. This combination of mobile phase additives was required for both the separation of minor components and to minimize peak tailing of the active pharmaceutical ingredients (APIs). Separation by RPLC was achieved using a Discovery HSF5 stationary phase and a mobile phase consisting of 10 mM ammonium acetate, pH 5.5 and methanol. Mobile phase gradient elution was employed in each case to elute components with a wide range of polarities. Both these methods were found to have advantages and disadvantages. Out of the three APIs and 13 possible impurity/degradation products selected, all were resolved by RPLC. By SFC, 15 peaks were resolved with one co-eluting pair and a high degree of orthogonality was achieved relative to RPLC. A more even distribution of peaks across the separation space, a non-sloping baseline and fewer system peaks were significant advantages associated with the SFC method. Particular attention had to be paid to optimizing the reverse phase diluent strength/initial mobile phase composition to avoid distortion of the peak shapes for early eluting components. This was not an issue with SFC, as the diluent of choice (methanol) was also the solvent of choice (in combination with ≤20% water) for the dissolution of the triple combination tablet. As with RPLC, SFC was found to exhibit the required sensitivity for successful quantitation of potential impurities/degradation products at the 0.05-0.1 area% level.

Alexander AJ ，Zhang L ，Hooker TF ，Tomasella FP ... -  《-》

Development of an orthogonal method for mometasone furoate impurity analysis using supercritical fluid chromatography.

While supercritical fluid chromatography (SFC) has received great popularity in chiral separation and purification, it has rarely been used for trace level pharmaceutical impurity analysis, partially due to the limitation of instrument sensitivity. In this study, a packed column SFC method has been developed for the quantitative analysis of mometasone furoate and its trace level impurities. The UV detection was optimized to improve the sensitivity by 2-4 fold. In combination with an increased sample concentration, this SFC method is capable of trace level (0.05% of the active) analysis of the impurities. The SFC method used a silica column and a mobile phase consisting of CO(2) and methanol. The new method provides an orthogonal selectivity complementary to the reversed phase HPLC (RP-HPLC) method. All of the impurities and the active were baseline separated within 12 min on SFC, which is less than one third of the RP-HPLC method run time. The method was also partially validated for linearity, accuracy, precision (repeatability), and limit of quantitation. This study demonstrated that the SFC method, with improved sensitivity, can be a valuable tool to provide orthogonal selectivity for trace level impurity separation. With further validation, the method may be suitable for release testing and stability testing for mometasone furoate drug substance.

Wang Z ，Zhang H ，Liu O ，Donovan B ... -  《-》

Development of a sensitive and rapid method for rifampicin impurity analysis using supercritical fluid chromatography.

A novel simple, fast and efficient supercritical fluid chromatography (SFC) method was developed and compared with RPLC method for the separation and determination of impurities in rifampicin. The separation was performed using a packed diol column and a mobile phase B (modifier) consisting of methanol with 0.1% ammonium formate (w/v) and 2% water (v/v). Overall satisfactory resolutions and peak shapes for rifampicin quinone (RQ), rifampicin (RF), rifamycin SV (RSV), rifampicin N-oxide (RNO) and 3-formylrifamycinSV (3-FR) were obtained by optimization of the chromatography system. With gradient elution of mobile phase, all of the impurities and the active were separated within 4 min. Taking full advantage of features of SFC (such as particular selectivity, non-sloping baseline in gradient elution, and without injection solvent effects), the method was successfully used for determination of impurities in rifampicin, with more impurity peaks detected, better resolution achieved and much less analysis time needed compared with conventional reversed-phase liquid chromatography (RPLC) methods.

Li W ，Wang J ，Yan ZY 《-》

[Development progress of stationary phase for supercritical fluid chromatography and related application in natural products].

Song CY ，Jin GW ，Yu DP ，Xia DH ，Feng J ，Guo ZM ，Liang XM ... -  《-》