Liquid Chromatography ICP-MS to Assess the Stability of Lu- and Ga-Based Tumor-Targeting Agents towards the Development of Lu- and Ga-Labeled Radiopharmaceuticals.

In recent years, nuclear medicine has gained great interest, partly due to the success story of [Lu]Lu-PSMA-617 (Pluvicto). Still, in-depth preclinical characterization of radiopharmaceuticals mainly happens at centers that allow working with radioactive material. To support the development of novel radiopharmaceuticals, alternative non-radioactive characterization assays are highly desirable.

Inductively Coupled Plasma Mass Spectrometry─A Valid Method for the Characterization of Metal Conjugates in View of the Development of Radiopharmaceuticals.

This study addresses the question whether inductively coupled plasma mass spectrometry (ICP-MS) can be used as a method for the in vitro and in vivo characterization of non-radioactive metal conjugates to predict the properties of analogous radiopharmaceuticals. In a "proof-of-concept" study, the prostate-specific membrane antigen (PSMA)-targeting [Lu]Lu-PSMA-617 and [Tb]Tb-PSMA-617 were compared with their respective radiolabeled analogues, [Lu]Lu-PSMA-617 (PLUVICTO, Novartis) and [Tb]Tb-PSMA-617. ICP-MS and conventional γ-counting of the cell samples revealed almost identical results (<6% absolute difference between the two technologies) for the in vitro uptake and internalization of the (radio)metal conjugates, irrespective of the employed methodology.

Identification of multiple serine to asparagine sequence variation sites in an intended copy product of LUCENTIS® by mass spectrometry.

Patent expiration of first-generation biologics and the high cost of innovative biologics are 2 drivers for the development of biosimilar products. There are, however, technical challenges to the production of exact copies of such large molecules. In this study, we performed a head-to-head comparison between the originator anti-VEGF-A Fab product LUCENTIS® (ranibizumab) and an intended copy product using an integrated analytical approach.

Unbiased in-depth characterization of CEX fractions from a stressed monoclonal antibody by mass spectrometry.

Characterization of charge-based variants by mass spectrometry (MS) is required for the analytical development of a new biologic entity and its marketing approval by health authorities. However, standard peak-based data analysis approaches are time-consuming and biased toward the detection, identification, and quantification of main variants only. The aim of this study was to characterize in-depth acidic and basic species of a stressed IgG1 monoclonal antibody using comprehensive and unbiased MS data evaluation tools.