Clinical Trials Directory

Trials / Recruiting

RecruitingNCT05219695

Medical Imaging and Thermal Treatment for Breast Tumors Using Harmonic Motion Imaging (HMI)

Status
Recruiting
Phase
N/A
Study type
Interventional
Enrollment
36 (estimated)
Sponsor
Columbia University · Academic / Other
Sex
Female
Age
18 Years
Healthy volunteers
Not accepted

Summary

The objective of this study is to demonstrate the initial clinical feasibility of using Harmonic Motion Imaging (HMI) for Focused Ultrasound Surgery (FUS) guidance and monitoring in patients with benign and stage 1 non-metastatic breast cancers. The investigators hypothesize that changes in HMI parameters will inform progression of FUS ablation.

Detailed description

Patients with small solid tumors without positive lymph nodes have the highest survival rate. However, especially for patients with benign tumors (most common in younger women) and older patients (\>65 years old) who fit these criteria, an alternative treatment technique that is less invasive than the current surgical or invasive ablative intervention may be more beneficial. FUS is a noninvasive, non-ionizing treatment procedure that precisely focuses and delivers a large amount of ultrasound energy to the target area, causing localized temperature rise and cell necrosis at the target. The main advantage of focused ultrasound ablation (FUS) is that it avoids surgery. Without surgery, recovery from the procedure is much faster, patients may experience less pain, and cosmetological results may be improved. The efficacy and safety of FUS rely heavily on treatment monitoring. Treatment imaging techniques currently used include MRI and ultrasound Bmode imaging. Magnetic resonance imaging (MRI) thermometry is used to detect the temperature rise across the FUS treatment area. However, MRI guidance can be expensive and time-consuming compared to ultrasound-based HIFU guidance methods. Conventional B-mode based 'hyperecho' tracking can be challenging for HIFU monitoring, as it is sensitive to cavitation, which occurs at high temperatures. HMI is an ultrasound elasticity method that can provide measurements of the locally generated mechanical response and inherent mechanical properties of tissues . The result is a new image that contains unique localized information on the relative stiffness in and around the tumor. The investigators have shown in pre-clinical data that HMI has the ability to monitor mechanical changes in tissue that occur with ablation. The combination of FUS with HMI monitoring is termed HMI guided FUS, or HMIgFUS. This study aims to evaluate the HMI technique for monitoring FUS ablation in a clinical setting. Eligible and consenting patients will be imaged using HMI, and then will undergo HMIgFUS at a central position inside the tumor. The tumor will be imaged using HMI again following ablation. Following our study, the patients will undergo their scheduled surgery. The purpose of this study is to evaluate HMIgFUS in a lower risk setting, as the tumor will be excised following our study, to better inform future studies, in which surgery may not be needed.

Conditions

Interventions

TypeNameDescription
PROCEDUREHarmonic motion imaging guided focused ultrasound (HMIgFUS)Harmonic motion imaging guided focused ultrasound (HMIgFUS) is a combined treatment and imaging method, in which focused ultrasound (FUS) is used to thermally ablate tissue and harmonic motion imaging (HMI) is used for FUS guidance and monitoring. FUS applies high intensity focused ultrasound waves at its specified target to heat the tissue over a specified duration, causing cell death at the target area. HMI is an elasticity imaging technique which induces dynamic tissue vibrations at the target for tissue elasticity characterization. One of the inclusion criteria for this study is that participants must be scheduled for surgical excision of their breast tumor. In this study, HMIgFUS will be applied to anesthetized participants immediately prior to their scheduled surgery. HMI imaging will also be performed immediately prior to and after HMIgFUS application.

Timeline

Start date
2022-01-19
Primary completion
2026-05-01
Completion
2026-05-01
First posted
2022-02-02
Last updated
2025-05-31

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT05219695. Inclusion in this directory is not an endorsement.