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LOTUS: Latent Outpainting Diffusion Model for Three-Dimensional Ultrasound Stitching.

July 9, 2026pubmed logopapers

Authors

Yao X,Yu R,DiSanto N,Aghdam EK,Oguine K,Lu D,Lou A,Wang J,Hu D,Arenas G,Oguz B,Pouch A,Schwartz N,Byram BC,Oguz I

Affiliations (3)

  • Vanderbilt University.
  • Mayo Clinic.
  • University of Pennsylvania.

Abstract

3D ultrasound (3DUS) stitching can enlarge the field-of-view (FOV) by registering partially overlapping 3DUS images collected from different probe positions. However, standard registration algorithms frequently encounter difficulties with this task, primarily due to the sector-shaped FOV, which often leads to pronounced local minima, thereby obstructing optimization efforts. To address these limitations, we propose LOTUS, a novel Latent Diffusion Model (LDM) specifically designed for 3DUS FOV outpainting. LOTUS innovatively encodes the 3DUS data into a compact latent space and performs outpainting at test time, effectively extending the sector-shaped FOV into a standard rectangular shape. This transformation facilitates a more robust registration by mitigating the issues of local minima associated with the original FOV shape. Experimental results show that LOTUS significantly improves the accuracy of the registration as well as the efficiency of the outpainting process compared to existing models. The code is available at github.com/MedICL-VU/LOTUS.

Topics

Journal Article

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