[Paper] Exploiting Completeness Perception with Diffusion Transformer for Unified 3D MRI Synthesis
Source: arXiv - 2602.18400v1
Overview
Missing data problems, such as missing modalities in multi-modal brain MRI and missing slices in cardiac MRI, pose significant challenges in clinical practice. Existing methods rely on external guidance to supply detailed missing state for instructing generative models to synthesize missing MRIs. However, manual indicators are not always available or reliable in real-world scenarios due to the unpredictable nature of clinical environments. Moreover, these explicit masks are not informative enough to provide guidance for improving semantic consistency. In this work, we argue that generative models should infer and recognize missing states in a self-perceptive manner, enabling them to better capture subtle anatomical and pathological variations. Towards this goal, we propose CoPeDiT, a general-purpose latent diffusion model equipped with completeness perception for unified synthesis of 3D MRIs. Specifically, we incorporate dedicated pretext tasks into our tokenizer, CoPeVAE, empowering it to learn completeness-aware discriminative prompts, and design MDiT3D, a specialized diffusion transformer architecture for 3D MRI synthesis, that effectively uses the learned prompts as guidance to enhance semantic consistency in 3D space. Comprehensive evaluations on three large-scale MRI datasets demonstrate that CoPeDiT significantly outperforms state-of-the-art methods, achieving superior robustness, generalizability, and flexibility. The code is available at https://github.com/JK-Liu7/CoPeDiT .
Key Contributions
This paper presents research in the following areas:
- eess.IV
- cs.CV
Methodology
Please refer to the full paper for detailed methodology.
Practical Implications
This research contributes to the advancement of eess.IV.
Authors
- Junkai Liu
- Nay Aung
- Theodoros N. Arvanitis
- Joao A. C. Lima
- Steffen E. Petersen
- Daniel C. Alexander
- Le Zhang
Paper Information
- arXiv ID: 2602.18400v1
- Categories: eess.IV, cs.CV
- Published: February 20, 2026
- PDF: Download PDF