AI-Assisted OCT Imaging for Core Needle Biopsy Guidance: The 1st in Humans Study
Nicusor Iftimia, Poonam Yadav, Michael Primrose, Gopi Maguluri, Jack Jones, John Grimble, Rahul Anil Sheth

TL;DR
This study introduces a new AI and OCT-based method to improve the accuracy of biopsy needle placement in human liver cancer patients.
Contribution
The first human study using AI-assisted OCT imaging for real-time biopsy guidance during core needle biopsies.
Findings
OCT imaging achieved ~10 mm axial and 20 mm lateral resolution for detailed tissue imaging.
The AI model matched human interpretations about 90% of the time, showing strong potential for clinical use.
The AI model achieved an AUC of ~0.877 on the validation dataset, indicating good performance despite limited training data.
Abstract
Background: The heterogeneous nature of cancer with varying degrees of fat, necrosis, fibrosis, and varying degrees of tissue repair severely impacts the success of acquiring adequate tissue samples during percutaneous image-guided biopsy. Although ultrasound or CT fluoroscopy are used to identify tumor location and thus to guide biopsy needle insertion, these technologies do not provide the necessary resolution to determine tissue composition and enable the selection of the most appropriate location for biopsy specimen extraction. As a result, biopsy must be repeated, leading to significant cost to the health care system. Methods: In this study, we introduce a combined optical imaging/artificial intelligence (OI/AI) methodology for the real-time assessment of tissue morphology at the tip of the biopsy needle, prior to the collection of a biopsy specimen. Addressing a significant…
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Taxonomy
TopicsOptical Coherence Tomography Applications · Photoacoustic and Ultrasonic Imaging · Optical Imaging and Spectroscopy Techniques
