In Vivo Liquid Biopsy of Melanoma (Cytophone)

Trial Title: In Vivo Liquid Biopsy of Melanoma (Cytophone)

NCT ID: NCT06488365

Condition: Melanoma
Circulating Tumor Cells
Metastatic Melanoma
Diagnosis

Conditions: Official terms:
Melanoma
Neoplastic Cells, Circulating

Conditions: Keywords:
melanoma
circulating tumor cells (CTCs)
in vivo liquid biopsy
metastasis
diagnosis and prognosis

Study type: Interventional

Study phase: N/A

Overall status: Not yet recruiting

Study design:

Allocation: N/A

Intervention model: Single Group Assignment

Intervention model description: Healthy subjects and melanoma patients will be tested in this study. All subjects will receive the same Cytophone intervention (testing). Healthy subjects will receive one Cytophone test, and melanoma patients will receive four tests. There will be four cohorts to the study: Cohort 1: 30 healthy subjects to address the calibration purpose. Cohort 2: 50 stage 0-I melanoma patients with no surgery to link CTC count with metastasis initiation. Cohort 3: 50 melanoma patients who received surgery to define correlation between CTC count and metastatic disease progression and recurrence. Cohort 4: 50 stage III-IV melanoma patients to find a dynamic of CTC counts over disease progression and link CTC counts, metastatic progression and therapy efficiency.

Primary purpose: Diagnostic

Masking: None (Open Label)

Masking description: All study participants will be blinded from their results.

Intervention:

Intervention type: Device
Intervention name: Cytophone
Description: The Cytophone clinical prototype incorporates two pulse lasers, optical system for delivery of laser light to the skin, ultrasound transducer array and detection electronics for acquisition of acoustic waves from CTCs. Parameters of lasers: C-Wedge 1064 (Bright Solutions, Cura Carpignano (PV), Italy): Wavelength,1064 nm; pulse width, 0.6 ns; pulse rate: 1 kHz; pulse energy, 240 μJ. C-Wedge 18901 (Bright Solutions, Cura Carpignano (PV), Italy): Wavelength, 770 nm; pulse width 3 ns; pulse rate, 1 kHz; pulse energy, 240 μJ. Detection of acoustic waves from CTCs is performing by a focused ultrasound transducer array placed in an acoustic contact with the skin of the subject with ultrasound gel. The signals from the transducers are amplified with a 16 channel amplifier, then digitized by a 12-bit, 500 MSPS high speed board digitizer (ATS9350, AlazarTech, Canada). This information is then transferred to a data recording system using a secure computer.
Arm group label: Cytophone application

Other name: Photoacoustiv flow cytometry (PAFC) in vivo

Summary: The Cytophone is a first in the world patented system to identify and count single circulating melanoma cells in blood circulation inside the human body. The Cytophone has a unique capability to find rare melanoma cells in the blood by an assessment of 100-500 times greater amounts of blood volume than routine blood tests. The important benefit of the Cytophone diagnosis is that the test does not require injection or any skin incision (i.e., non-invasiveness). The goal of this clinical trial is to demonstrate evidence of the capability of the Cytophone test to indicate a risk of metastasis and define CTC counts that correlate with melanoma recurrence, progression of metastatic disease, and therapy efficacy. The investigators believe that clinical trials will provide evidence that the Cytophone can diagnose risk of melanoma metastasis and recurrence earlier than existing methods.

Detailed description: The majority of melanoma deaths are associated with metastasis that are formed by cancer cells shedding from the primary tumor that enter the circulation and spread to distant organs via blood circulation. These cells in blood are referred to as circulating tumor cells (CTCs). Growing evidence suggests that metastasis is an early event in melanoma patients, often occurring before metastases are clinically detectable. Therefore, detection of CTCs using liquid biopsy assays should be considered as an effective tool to diagnose early the risk of metastasis progression. Taking into account the link of CTCs with metastasis, CTCs have an advantage over many other biomarkers in identifying patients for early therapeutic intervention at a stage when the disease is still manageable and possibly curable. Overall, CTCs are in the blood circulation in early stage disease, yet they are typically detected in later stage disease. Currently, the main issue restricting the use of CTCs for early melanoma detection relates to the low sensitivity of existing assays due to assessment of limited blood volume (i.e., blood samples in vitro). To maximize the blood volume available for analysis, in vivo CTC enumeration without labelling in a large blood volume using the Cytophone device was developed by our team. The Cytophone represents a photoacoustic (PA) flow cytometry (PAFC) diagnostic platform. Our feasibility clinical study has demonstrated the detection of CTCs in 49 of 50 melanoma patients (sensitivity 98%) and in 0 of 18 in healthy subjects (control group). The investigators received clinical evidence of the Cytophone's capability to diagnose 0.006 CTCs/mL which is significantly higher than sensitivity of existing testing methodologies. The Goal of this clinical study is to determine whether the Cytophone device can be used for in vivo detection and enumeration of CTCs in melanoma patients at different disease stages with a focus on early melanoma detection and prognosis. It is expected that the detection limit of CTCs will be improved compared to the detection limits of existing methods. The investigators hypothesize that our CTC assay, in vivo, provides earlier, rapid and more accurate diagnosis and prognosis of metastasis progression in melanoma patients. To achieve our goal, the investigators will accomplish the following primary and secondary objectives: The primary objectives: 1. Obtain evidence that a positive Cytophone CTC test indicates a risk of metastasis development. 2. Define thresholds of CTC counts that correlate with melanoma recurrence and progression of metastatic disease. The secondary objective: 1. Determine if the Cytophone diagnoses the risk of melanoma metastasis progression and recurrence earlier than existing methods.

Criteria for eligibility:
Criteria:
Inclusion Criteria: - Histological documented diagnosis of melanoma; - Participants having provided informed consent with signature on informed consent form: the informed consent process should be complete with full discussion of all requirements and possible risks; - Must be able to sit for up to 60 minutes. Exclusion Criteria: - Unable to provide informed consent to participate in the study, such as a mental condition rendering the participant unable to understand the nature, scope, and possible consequences of the study; - Clinically relevant cardiovascular, hepatic, neurological (e.g., evidence of organic brain syndrome), endocrine, or other major systemic disease making implementation of the protocol or interpretation of the study results difficult or that would put the participant at risk by participating in the study; - Persistent significant or severe infection, either acute or chronic; - Pregnant or breast-feeding women or those who plan to become pregnant during the study; - Women of childbearing potential not protected by effective contraceptive method of birth control and/or who are unwilling or unable to be tested for pregnancy; - Any known history of severe preexisting constipation.

Gender: All

Minimum age: 18 Years

Maximum age: 80 Years

Healthy volunteers: Accepts Healthy Volunteers

Start date: September 1, 2024

Completion date: July 20, 2025

Lead sponsor:
Agency: Cytoastra
Agency class: Industry

Source: Cytoastra

Record processing date: ClinicalTrials.gov processed this data on November 12, 2024

Source: ClinicalTrials.gov page: https://clinicaltrials.gov/ct2/show/NCT06488365