Description

In recent years, research has focused on the so-called "liquid biopsy," understood as a noninvasive procedure capable of performing analysis on tumor-derived material contained in blood such as circulating free DNA (ccf-DNA), circulating free RNA (ccf-RNA), and circulating tumor cells (CTCs), capable of providing a dynamic snapshot of the molecular structure of the oncological pathology throughout its course.

In thyroid cancers, liquid biopsy methods have also proven feasible with potential clinical applications, both in the prognostic field, in the identification and monitoring of minimal residual disease, and in therapeutics. 28 The identification, in fact, of circulating biomarkers predictive of response or resistance to drugs in use to date first and foremost would allow in clinical practice a more accurate selection of patients at the time of initiation of systemic treatment, especially where tumor tissue is not available or adequate for molecular profiling. In addition, the identification of new molecular events, even secondary ones, during treatment would offer the possibility of developing alternative therapeutic strategies aimed at overcoming resistance.

The primary objective of the present study is to verify the match between molecular profiling obtained by liquid biopsy versus that obtained by genomic sequencing on tumor tissue (gold standard) in patients with advanced thyroid carcinoma who are candidates for systemic therapy.

The secondary objectives of this study are as follows:

• identification of circulating biomarkers predictive of response to cancer treatment useful for selecting patients with iodine-resistant metastatic disease for initiation of systemic therapy by profiling on peripheral blood;
• identification of additional molecular events, expression of polyclonal disease evolution, that may represent new therapeutic targets.

The study is interventional low-risk, tissue-based, prospective, single-center study.

For each patient enrolled in the present study, 4 EDTA tubes of peripheral blood will be collected to be used to obtain molecular profiling during scheduled laboratory controls as per normal clinical practice according to the following time schedule:

• T0 = basal collection before initiation of systemic treatment;
• T1 = sampling at 1 month after the start of systemic treatment;
• T2 = sampling at 3 months (+/- 1 month) after the start of systemic treatment at the first instrumental re-evaluation of disease;
• T3 = sampling at 6 months (+/- 1 month) from the start of systemic treatment at the time of instrumental disease reassessment;
• T4 = sampling at the time of evidence of instrumental disease progression within 24 months of treatment initiation.

The following analyses will be conducted on the samples thus collected:

• multigenic analysis on ccf-DNA and ccf-RNA at baseline, i.e., before the initiation of systemic treatment;
• isolation, counting and analysis of CTCs at baseline visit
• multigenic analysis on ccf-DNA and ccf-RNA and isolation, counting and analysis of CTCs during treatment (at + 1 month, + 3 months, + 6 months and at progression)
• Outcome of the primary study objective: presence of gene alterations (BRAF mutations, RAS mutations, RET mutations, rearrangements of NTRK, RET, ALK, etc.) found in the two molecular profiling methods, performed on peripheral blood and tumor tissue.
• Outcome of the study secondary objectives: early metabolic response rate assessed by fluorodeoxyglucose (FDG) CT-PET at one month of treatment; overall response rate (ORR); progression-free survival (PFS); tumor burden assessed by sum of diameters (SOD) of measurable disease according to RECIST v.1.1 criteria; isolation, count (CTC/ml) and phenotype assessment of CTCs.

The results obtained will be compared with those obtained from biomolecular profiling of disease on tumor tissue that is already available as per clinical practice.