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CompletedNCT03307694

Thyroid Ultrasound Elasticity (TrUE) Imaging

Multi-Angle Compound Shear Wave Elasticity Imaging for the Characterization of Thyroid Nodules

Status
Completed
Phase
Study type
Observational
Enrollment
31 (actual)
Sponsor
Emory University · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

In this study the researchers will scan the thyroid nodules of patients scheduled for surgical removal of these nodules. During their preadmission testing, but prior to their surgery, the researchers will perform standard ultrasound and shear wave elasticity imaging (SWEI) scans of the thyroid nodules in these patients. Both images can be generated by the same ultrasound scanner and within the same imaging session without having to switch out any equipment. The results of the SWEI scans will be compared to the definitive diagnosis from pathology obtained after pathologists have examined the removed nodules post-operatively.

Detailed description

Thyroid ultrasound is a first-line procedure to assess patients with thyroid nodules. Unfortunately, standard ultrasound has low sensitivity, and thus low positive predictive value, for malignancy and many patients with thyroid nodules are referred for additional imaging studies or biopsy. Shear wave elasticity imaging (SWEI) is a non-invasive ultrasound technology that allows clinicians to assess the stiffness of tissues. In many solid tumors, increased stiffness is highly specific for underlying malignancy, and preliminary studies have shown this to be true for thyroid malignancies. Both standard sonography and SWEI can be performed on the same ultrasound equipment and within the same imaging session. Therefore, integrating SWEI into standard thyroid diagnostic workflow is a logical approach towards improving the positive predictive value of these first-line sonographic studies. Other studies have demonstrated the ability of SWEI techniques to differentiate benign from malignant thyroid nodules. However, shear wave techniques still need to overcome challenges before they can be successfully integrated into the clinical paradigm. These techniques still struggle to accurately classify follicular carcinomas and few have been validated in patients with multiple thyroid lesions, a scenario which is clinically common. The researchers believe that a multi-angle compound SWEI (MAC-SWEI) algorithm, which generates shear images based on multiple angled push beams, has the potential to generate more accurate shear wave images in the context of thyroid imaging. To this end, this study will perform proof-of-concept studies of MAC-SWEI in thyroid patients undergoing standard ultrasound scans and compare the results of shear wave images to results from corresponding pathology. Study participants will undergo a single SWEI session within their normally-scheduled preadmission testing during which both standard b-mode and shear images of the thyroid nodule(s) will be acquired. The 36 patients will be randomized to receive MAC-SWEI, standard SWEI, and ultrasound, or only standard SWEI and ultrasound.

Conditions

Interventions

TypeNameDescription
DIAGNOSTIC_TESTUltrasoundAll ultrasound images will be acquired by an in-house ultrasound technologist using a Verasonics Vantage (Verasonics Inc., Kirkland, Washington, USA) ultrasound system. During imaging, the technologist will position the Verasonics transducer, under b-mode guidance, in planes overlying the thyroid nodules approximating those obtained during previous clinical ultrasound scans.
DIAGNOSTIC_TESTShear wave elasticity imagingShear wave elasticity imaging (SWEI) is obtained during the standard ultrasound session. The generation of shear wave images consists of two important steps called "pushing" and "tracking". First, in the "pushing" mode, a long focused ultrasound beam is transmitted to perturb tissue, generating ultrasonic shear waves in tissue that propagate perpendicular to the direction of pushing. In the "tracking" mode, shear wave propagation is observed and recorded. Because the speed of shear waves is a function of Young's modulus, these data reveal information about the stiffness of underlying biological tissue.
DIAGNOSTIC_TESTMulti-angle compound shear wave elasticity imagingThe multi-angle compound SWEI (MAC-SWEI) algorithm, which generates shear images based on multiple angled push beams, has the potential to generate more accurate shear wave images in the context of thyroid imaging. To assess the MAC-SWEI technique, shear wave images will be used to generate estimates of the relative stiffness of lesions via their normalized Young's modulus.

Timeline

Start date
2017-10-23
Primary completion
2018-07-13
Completion
2018-07-13
First posted
2017-10-12
Last updated
2019-12-03

Locations

1 site across 1 country: United States

Regulatory

Source: ClinicalTrials.gov record NCT03307694. Inclusion in this directory is not an endorsement.