Assessment of Different Circulating Tumor Cell Platforms for Uveal Melanoma: Potential Impact for Future Routine Clinical Practice.
Arnaud MartelBaharia MograbiBarnabe RomeoLauris GastaudSalome LalveeKatia ZahafJulien FayadaSacha Nahon-EstèveChristelle BonnetaudMyriam SalahVirginie TangaStephanie BaillifCorine BertolottoSandra LassallePaul HofmanPublished in: International journal of molecular sciences (2023)
Liquid biopsy and circulating tumor cell (CTC) screening has gained interest over the last two decades for detecting almost all solid malignancies. To date, the major limitation in terms of the applicability of CTC screening in daily clinical practice is the lack of reproducibility due to the high number of platforms available that use various technologies (e.g., label-dependent versus label-free detection). Only a few studies have compared different CTC platforms. The aim of this study was to compare the efficiency of four commercially available CTC platforms (Vortex (VTX-1), ClearCell FX, ISET, and Cellsearch) for the detection and identification of uveal melanoma cells (OMM 2.3 cell line). Tumor cells were seeded in RPMI medium and venous blood from healthy donors, and then processed similarly using these four platforms. Melan-A immunochemistry was performed to identify tumor cells, except when the Cellsearch device was used (automated identification). The mean overall recovery rates (with mean recovered cells) were 39.2% (19.92), 22.2% (11.31), 8.9% (4.85), and 1.1% (0.20) for the ISET, Vortex (VTX-1), ClearCell FX, and CellSearch platforms, respectively. Although paramount, the recovery rate is not sufficient to assess a CTC platform. Other parameters, such as the purpose for using a platform (diagnosis, genetics, drug sensitivity, or patient-derived xenograft models), reproducibility, purity, user-friendliness, cost-effectiveness, and ergonomics, should also be considered before they can be used in daily clinical practice and are discussed in this article.
Keyphrases
- circulating tumor
- clinical practice
- circulating tumor cells
- label free
- cell free
- high throughput
- single cell
- physical activity
- induced apoptosis
- loop mediated isothermal amplification
- emergency department
- machine learning
- ionic liquid
- signaling pathway
- bioinformatics analysis
- oxidative stress
- climate change
- current status
- bone marrow
- clinical evaluation