Application of quantitative NMR in pharmaceutical analysis: Method qualification and potency determination for two new chemical entities in early-stage clinical studies

Abstract

Quantitative NMR (qNMR), being a well-established analytical tool featuring efficiency, simplicity as well as versatility, has been extensively employed in pharmaceutical and medicinal testing. In this study, two 1H qNMR methods were developed to determine the %wt/wt potency of two new chemical entities (compound A and compound B) used in early clinical phase process chemistry and formulation development. The qNMR methods were demonstrated to be significantly more sustainable and efficient than the LC-based approach by substantially reducing the cost, hands-on-time, and materials consumed for testing. The qNMR methods were achieved on a 400 MHz NMR spectrometer equipped with 5 mm BBO S1 broad band room temperature probe. The methods with CDCl3 (for compound A) and DMSO-d6 (compound B) as solvent as well as commercially certified standards for quantitation were phase-appropriately qualified in terms of specificity, accuracy, repeatability/precision, linearity, and range. Both qNMR methods were demonstrated to be linear over the range of 0.8–1.2 mg/mL (80% to 120% of the nominal sample concentration of 1.0 mg/mL) with a correlation coefficient greater than 0.995. The methods were also demonstrated to be accurate with average recoveries ranging from 98.8% to 98.9% and 99.4–99.9% for compound A and compound B respectively as well as precise with %RSD of 0.46% and 0.33% for compound A and compound B respectively. The potency results of compound A and compound B determined by qNMR were compared with those determined by the conventional LC-based method and the qNMR results were demonstrated to be consistent with the LC-based method with absolute difference of 0.4% and 0.5% for compound A and B respectively.