Promptable segmentation with region exploration enables minimal-effort expert-level prostate cancer delineation.
2/5 보강
PICO 자동 추출 (휴리스틱, conf 3/4)
유사 논문P · Population 대상 환자/모집단
[RESULTS] The framework was evaluated on two public prostate MR datasets (PROMIS and PICAI, with 566 and 1090 cases).
I · Intervention 중재 / 시술
the previous best automated methods by 9
C · Comparison 대조 / 비교
추출되지 않음
O · Outcome 결과 / 결론
[CONCLUSION] By combining prompting with RL-driven exploration, the framework achieves radiologist-level prostate cancer segmentation with a fraction of the annotation effort, highlighting the potential of RL to enable adaptive and efficient cancer delineation. Code: URL: github.com/JQ-Sakura/prostate-rl-segmentation.
OpenAlex 토픽 ·
Prostate Cancer Diagnosis and Treatment
Advanced Neural Network Applications
Advanced Radiotherapy Techniques
[PURPOSE] Accurate segmentation of prostate cancer on magnetic resonance (MR) images is crucial for planning image-guided interventions such as targeted biopsies, cryoablation, and radiotherapy.
APA
Junqing Yang, Natasha Thorley, et al. (2026). Promptable segmentation with region exploration enables minimal-effort expert-level prostate cancer delineation.. International journal of computer assisted radiology and surgery. https://doi.org/10.1007/s11548-026-03628-w
MLA
Junqing Yang, et al.. "Promptable segmentation with region exploration enables minimal-effort expert-level prostate cancer delineation.." International journal of computer assisted radiology and surgery, 2026.
PMID
41996003
Abstract
[PURPOSE] Accurate segmentation of prostate cancer on magnetic resonance (MR) images is crucial for planning image-guided interventions such as targeted biopsies, cryoablation, and radiotherapy. However, subtle and variable tumour appearances, differences in imaging protocols, and limited expert availability make consistent interpretation difficult. While automated methods aim to address this, they rely on large expertly annotated datasets that are often inconsistent, whereas manual delineation remains labour-intensive. This work aims to bridge the gap between automated and manual segmentation through a framework driven by user-provided point prompts, enabling accurate segmentation with minimal annotation effort.
[METHODS] The framework combines reinforcement learning (RL) with a region-growing segmentation process guided by user prompts. Starting from an initial point prompt, region-growing generates a preliminary segmentation, which is iteratively refined through RL. At each step, the RL agent observes the image and current segmentation to predict a new point, from which region growing updates the mask. A reward, balancing segmentation accuracy and voxel-wise uncertainty, encourages exploration of ambiguous regions, allowing the agent to escape local optima and perform sample-specific optimisation. Despite requiring fully supervised training, the framework bridges manual and fully automated segmentation at inference by substantially reducing user effort while outperforming current fully automated methods.
[RESULTS] The framework was evaluated on two public prostate MR datasets (PROMIS and PICAI, with 566 and 1090 cases). It outperformed the previous best automated methods by 9.9% and 8.9%, respectively, with performance comparable to manual radiologist segmentation, reducing annotation time tenfold.
[CONCLUSION] By combining prompting with RL-driven exploration, the framework achieves radiologist-level prostate cancer segmentation with a fraction of the annotation effort, highlighting the potential of RL to enable adaptive and efficient cancer delineation. Code: URL: github.com/JQ-Sakura/prostate-rl-segmentation.
[METHODS] The framework combines reinforcement learning (RL) with a region-growing segmentation process guided by user prompts. Starting from an initial point prompt, region-growing generates a preliminary segmentation, which is iteratively refined through RL. At each step, the RL agent observes the image and current segmentation to predict a new point, from which region growing updates the mask. A reward, balancing segmentation accuracy and voxel-wise uncertainty, encourages exploration of ambiguous regions, allowing the agent to escape local optima and perform sample-specific optimisation. Despite requiring fully supervised training, the framework bridges manual and fully automated segmentation at inference by substantially reducing user effort while outperforming current fully automated methods.
[RESULTS] The framework was evaluated on two public prostate MR datasets (PROMIS and PICAI, with 566 and 1090 cases). It outperformed the previous best automated methods by 9.9% and 8.9%, respectively, with performance comparable to manual radiologist segmentation, reducing annotation time tenfold.
[CONCLUSION] By combining prompting with RL-driven exploration, the framework achieves radiologist-level prostate cancer segmentation with a fraction of the annotation effort, highlighting the potential of RL to enable adaptive and efficient cancer delineation. Code: URL: github.com/JQ-Sakura/prostate-rl-segmentation.
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