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Data Synthesis Improves 3D Myotube Instance Segmentation
April 16, 2026 Β· Grace Period Β· + Add venue
Authors
David Exler, Nils Friederich, Martin KrΓΌger, John Jbeily, Mario Vitacolonna, RΓΌdiger Rudolf, Ralf Mikut, Markus Reischl
arXiv ID
2604.14720
Category
cs.CV: Computer Vision
Citations
0
Abstract
Myotubes are multinucleated muscle fibers serving as key model systems for studying muscle physiology, disease mechanisms, and drug responses. Mechanistic studies and drug screening thereby rely on quantitative morphological readouts such as diameter, length, and branching degree, which in turn require precise three-dimensional instance segmentation. Yet established pretrained biomedical segmentation models fail to generalize to this domain due to the absence of large annotated myotube datasets. We introduce a geometry-driven synthesis pipeline that models individual myotubes via polynomial centerlines, locally varying radii, branching structures, and ellipsoidal end caps derived from real microscopy observations. Synthetic volumes are rendered with realistic noise, optical artifacts, and CycleGAN-based Domain Adaptation (DA). A compact 3D U-Net with self-supervised encoder pretraining, trained exclusively on synthetic data, achieves a mean IPQ of 0.22 on real data, significantly outperforming three established zero-shot segmentation models, demonstrating that biophysics-driven synthesis enables effective instance segmentation in annotation-scarce biomedical domains.
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