This study compares robotic-assisted navigation and manual CT-guided needle localization for lung nodules under 20 mm. It aims to evaluate localization success, procedure duration, CT scans, and complication rates.
This is a prospective, single-center, non-inferiority clinical study designed to evaluate the effectiveness of a robotic-assisted navigation system for lung nodule localization compared to traditional manual CT-guided needle localization. The study will be conducted between June 2024 and December 2024, involving 100 patients with lung nodules smaller than 20 mm in diameter. Participants will be randomly assigned to receive either CT-guided manual needle localization or robotic-assisted needle localization. The primary outcome measure will be the localization success rate, defined as the ability to accurately locate the nodule and guide the needle to the target site for biopsy or surgery. Secondary outcome measures will include procedural duration, the number of CT scans required, total dose-length product (DLP), first-pass success rate, localization success within a single needle adjustment, and complication rate.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
100
Robot-assisted needle localization involves the use of a robotic system to assist with the percutaneous localization of pulmonary nodules under CT guidance. The robotic system provides real-time navigation and increased precision during needle placement, reducing the variability in positioning and improving the accuracy of localization. The system offers automatic adjustments to the needle's trajectory, minimizing the need for manual corrections, and potentially reducing the number of CT scans required. This method is designed to enhance the overall localization success rate and reduce complications associated with traditional manual techniques.
Manual needle localization involves the traditional technique of percutaneous localization of pulmonary nodules under CT guidance without the assistance of robotic systems. The procedure is performed by the physician manually guiding the needle based on real-time CT imaging. The physician adjusts the needle position based on visual cues from the CT scan, which may require multiple attempts for accurate localization.
The First Affiliated of Guangzhou Medical University
Guangzhou, Guangdong, China
Localization Success Rate
The accuracy of nodule localization was designated as the primary outcome of the study. Successful localization was defined as a distance of less than 10 mm between the needle tip and the center of the nodule, with no displacement of the localization device between localization and surgery.
Time frame: Immediately after needle localization and before surgery
Procedure Duration
Procedure duration was calculated from the time the patient was positioned on the CT scanner to the confirmation of successful needle insertion via the final CT scan.
Time frame: From patient positioning on the CT scanner to confirmation of successful needle insertion via final CT scan
Number of CT Scans Required for Localization
The number of CT scans needed to successfully localize the nodule.
Time frame: During the localization procedure
Total Dose-Length Product (DLP)
The total dose-length product (DLP) accumulated during the localization process.
Time frame: During the localization procedure
First-pass Success Rate
First-pass success was defined as the successful localization of the nodule with the first needle insertion, without requiring any needle adjustment.
Time frame: Immediately after the first needle insertion
Localization Success Rate within One Needle Adjustment
The localization success rate within one needle adjustment was defined as successful localization achieved after a single adjustment to the needle's depth or angle following initial misplacement.
Time frame: Immediately after one needle adjustment
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