Trials / Recruiting

RecruitingNCT06988579

The Impact of AI Assistance on Radiologist Performance and Healthcare Costs in LDCT-Based Lung Cancer Screening

Evaluation of AI-Assisted Versus Conventional Human Reading for Lung Cancer Screening in Community-Based Settings: A Randomized Controlled Trial

Summary

AI diagnostic systems show great promise for improving lung cancer screening in community healthcare settings. While not originally designed for primary care, these tools demonstrate capabilities in nodule detection and workflow optimization. However, their effectiveness in resource-limited community centers requires thorough evaluation. This RCT compares AI-assisted versus manual CT interpretation across community health centers. Expert radiologists will establish reference standards, while an independent committee blindly evaluates cases from both groups. The study assesses diagnostic accuracy, operational efficiency, and cost-effectiveness, with blinded analysts resolving discrepancies through consensus to ensure reliable results.

Detailed description

Artificial intelligence (AI) technologies, particularly advanced medical imaging analysis systems like the AI diagnostic platform evaluated in this study, demonstrate significant potential for enhancing lung cancer screening programs in community healthcare settings.Although this AI system was not originally designed specifically for primary care implementation, it has shown promising capabilities in various clinical applications, including nodule detection, malignancy risk stratification, and workflow optimization in radiology departments. However, its effectiveness in improving screening accuracy and operational efficiency in resource-limited community health centers remains to be thoroughly investigated. Lung cancer screening and diagnosis involve complex clinical processes,including image interpretation, risk factor assessment, and follow-up decision-making. Implementing AI tools like this diagnostic platform in community screening programs could potentially improve detection rates, standardize interpretations, and optimize resource allocation. Nevertheless, the system has not been rigorously validated for use in primary care settings and may carry limitations in generalizability across diverse patient populations and imaging equipment variations. Inappropriate implementation could lead to diagnostic errors or inefficient resource utilization. Therefore, evaluating how such AI systems can effectively support community-based screening while maintaining diagnostic accuracy and cost-effectiveness is of paramount importance. In this randomized controlled trial, participating community health centers will be allocated to either an AI-assisted interpretation group or a conventional manual interpretation group. All screening cases will undergo standardized low-dose CT imaging, with results interpreted through the respective group's designated method. A panel of three expert radiologists will establish reference standards for all cases, while an independent review committee will blindly evaluate a subset of cases from both groups to assess interpretation consistency. The evaluation will focus on diagnostic performance metrics, operational efficiency parameters, and cost-effectiveness indicators. Two separate analyst teams, blinded to group assignments, will process and compare the outcomes using predefined statistical methods, with any discrepancies resolved through consensus discussions to ensure data reliability.

Conditions

• Lung Cancer
• Artificial Intelligence (AI)
• Randomized Controlled Trial

Interventions

Timeline

Start date

2024-07-01

Primary completion

2025-10-31

Completion

2026-01-07

First posted

2025-05-25

Last updated

2025-06-26

Locations

1 site across 1 country: China

Source: ClinicalTrials.gov record NCT06988579. Inclusion in this directory is not an endorsement.