Publications by authors named "L E Folle"
A gradient-based approach to fast and accurate head motion compensation in cone-beam CT.
IEEE Trans Med Imaging
October 2024
Article Synopsis
- Cone-beam computed tomography (CBCT) shows potential for immediate medical imaging, especially during emergencies like strokes, but faces issues like long scan times and patient movement affecting image quality.
- This paper presents a new method for estimating motion during CBCT scans using a gradient-based optimization algorithm, which improves the speed of motion estimation by 19 times compared to existing techniques.
- The proposed approach also promotes more accurate motion estimates by using autoencoder-like networks to predict voxel-wise quality maps, resulting in a significant reduction of reprojection error in the imaging process.
The purpose of this feasibility study is to investigate if latent diffusion models (LDMs) are capable to generate contrast enhanced (CE) MRI-derived subtraction maximum intensity projections (MIPs) of the breast, which are conditioned by lesions. We trained an LDM with n = 2832 CE-MIPs of breast MRI examinations of n = 1966 patients (median age: 50 years) acquired between the years 2015 and 2020. The LDM was subsequently conditioned with n = 756 segmented lesions from n = 407 examinations, indicating their location and BI-RADS scores.
View Article and Find Full Text PDFBackground: This study evaluated a deep learning (DL) algorithm for detecting vessel steno-occlusions in patients with peripheral arterial disease (PAD). It utilised a private dataset, which was acquired and annotated by the authors through their institution and subsequently validated by two blinded readers.
Methods: A single-centre retrospective study analysed 105 magnetic resonance angiography (MRA) images using an EfficientNet B0 DL model.
Objectives: To evaluate whether artifacts on contrast-enhanced (CE) breast MRI maximum intensity projections (MIPs) might already be forecast before gadolinium-based contrast agent (GBCA) administration during an ongoing examination by analyzing the unenhanced T1-weighted images acquired before the GBCA injection.
Materials And Methods: This IRB-approved retrospective analysis consisted of n = 2884 breast CE MRI examinations after intravenous administration of GBCA, acquired with n = 4 different MRI devices at different field strengths (1.5 T/3 T) during clinical routine.
Incorporating computed tomography (CT) reconstruction operators into differentiable pipelines has proven beneficial in many applications. Such approaches usually focus on the projection data and keep the acquisition geometry fixed. However, precise knowledge of the acquisition geometry is essential for high quality reconstruction results.
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