Detector … Further, to develop a suitable and robust LC method for the determination of tobramycin by UV detection, different mobile phases and columns were employed [Table 1] to achieve the best signal response and retention time. Table 1 Employed mobile phases, columns and elution time during the investigation of tobramycin Ganetespib mw Finally, the mobile phase consisting of water: 0.05 M diammonium hydrogen phosphate, pH adjusted to 10.0 �� 0.05 using tetra methyl ammonium hydroxide (25% solution in water) at a constant flow rate of 1.0 ml/min and detector wavelength set at 210 nm, using a Purosphere RP-8e, 250 mm �� 4.6 mm, 5��m column, was found to be appropriate, allowing well signal response of tobramycin. Optimization of HPLC The pH of the mobile phase can affect the analyte retention time as well as the detection sensitivity.
Figure 2 shows the result of detection response (peak area), efficiency (shown as plate number N/column) and capacity factor of tobramycin at different pHs. The optimal pH 10.0 �� 0.05 was chosen for the determination of tobramycin. Figure 2 Effect of pH on (peak area) and effi ciency (shown as plate number N/column) and capacity factor of tobramycin column: Purosphere RP-8e, 250 �� 4.6 mm, 5��m, mobile phase: 0.05 M diammonium hydrogen phosphate, pH adjusted to 10 using tetramethyl … Concentration of the buffer is another factor that can alter the ion-pair formation. Figure 3 shows the capacity factor and detection response (peak area) as the concentration of the buffer varied. Response was minimal when less than 0.05 M diammonium hydrogen phosphate was used.
This may be due to highly aqueous environment that is unfavorable for ion pairing. Therefore, pH 10.0 and 0.05 M diammonium hydrogen phosphate was chosen for estimation of tobramycin. Typical chromatogram of the test solution is shown in Figure 3. Figure 3 A typical chromatogram of test sample by proposed methods column: Purosphere RP-8e, 250 �� 4.6 mm, 5��m, mobile phase: 0.05 M diammonium hydrogen phosphate, pH adjusted to 10.0 using tetramethyl ammonium hydroxide, flow rate 1 ml/min, �� … Method validation The test method for the determination of tobramycin was validated to include the essential demands of International Conference on Harmonization (ICH) guidelines.[21] Parameters like specificity, linearity, accuracy, precision, range, robustness, and system suitability were examined.
Specificity No interferences were observed due to the obvious presence of excipients and mobile phase. Linearity Peak areas versus concentration in milligram per milliliter were plotted for tobramycin at the concentration range between 80% and 120% of the target level. Tobramycin showed linearity GSK-3 between 0.47 and 0.71 mg/ml with a correlation coefficient (r2) of 0.9998. Accuracy Accuracy of the proposed HPLC determination was evaluated from the assay results of the components.