Feasibility of Multi-Energy Digital Radiography Detector for Lung Lesions Detection

KA Imaging Inc.30 enrolled

Overview

A single-centre, industry sponsored, pilot study to assess the feasibility of Single Exposure Dual Energy Subtraction with a Multi-Energy digital radiography detector as an imaging platform for lung lesion detection.

A feasibility study is proposed to investigate the imaging characteristics captured by a Single Exposure Dual-Energy Subtraction digital radiography with KA Imaging's Multi-energy detector. The acquisition of Dual-Energy Subtraction radiography will consist of using the Multi-Energy detector integrated into the X-ray system in Grand River Hospital. Patient will receive a Multi-Energy Chest radiography exam on the same day as their routine chest CT exam. Each Multi-Energy radiography exam will consist of one Chest PA image and one Chest LAT image. Duration of each procedure is 60 minutes. The Multi-Energy Detector will generate a General Radiography Image and Dual-Energy Subtracted Images. Visualization of lung lesions by Multi-Energy detector will be compared to corresponding CT exam and general radiography results. Imaging data will be evaluated qualitatively by radiologists on data collection form to describe the findings on the images. Further comparison between general radiography, Dual-Energy Subtraction radiography and CT will be analyzed to determine the differences of imaging characteristics such as description of image quality and visibility of relevant anatomical structures and anomalies.

Study Type

INTERVENTIONAL

Allocation

Purpose

DIAGNOSTIC

Masking

NONE

Enrollment

Conditions

Lung Tumor Solitary Pulmonary Nodule

Interventions

Multi-Energy Digital Radiography Detector SystemDEVICE

A Multi-energy digital flat panel detector for Single Exposure Dual-Energy Subtraction radiography is developed to capture x-ray images with improved tissue differentiation. Tissue-selective images can be produced at various tissue levels such as bone and soft tissue to visualize obscured anomalies that are not apparent to General Radiography.

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Age 18 years and older. * Patients with previously diagnosed carcinoma with lung metastases, or patients with previously detected lung nodule * Subject is able to provide informed consent * Study participant is scheduled to have a chest CT exam as part of their routine care. * Study participant is able to stand and be still during the exams. Exclusion Criteria: * Not able or willing to provide Informed Consent, or consent is withdrawn. * Study participant is pregnant * Study participant is unable to perform standard radiography exam and CT exam

Locations (1)

Grand River Hospital

Kitchener, Ontario, Canada

RECRUITING

Outcomes

Primary Outcomes

Multi-Energy images will be compared to baseline Chest CT images for visualizing lung lesions.

Multi-Energy images will be compared to baseline Chest CT images for visualizing lung lesions, as determined. Expert readers will qualitatively evaluate the imaging differences (e.g. motion artifacts, technical defects, ease of anomalies identification, etc) with an evaluation form with a questionnaire grading system (i.e. 1 (severe defect), 2 (moderate defect) to 5 (no defect)).

Time frame: 3 months

Secondary Outcomes

Multi-Energy images will be compared to standard radiography images for visualizing lung lesions.

Multi-Energy images will be compared to standard radiography images for visualizing lung lesions, as determined. Expert readers will qualitatively evaluate the imaging differences (e.g. motion artifacts, technical defects, ease of anomalies identification, etc) with an evaluation form with a questionnaire grading system (i.e. 1 (severe defect), 2 (moderate defect) to 5 (no defect)).

Time frame: 3 months

Central Contacts

Tracy Nelson

CONTACT

(519) 749-4370 Tracy.Nelson@grhosp.on.ca

Data from ClinicalTrials.gov

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