PSMA PET/MRI-based Swin Transformer architecture for Gleason Score prediction in prostate cancer.
1/5 보강
PICO 자동 추출 (휴리스틱, conf 3/4)
유사 논문P · Population 대상 환자/모집단
환자: pathological GS who underwent PSMA PET and MRI scans from three centers
I · Intervention 중재 / 시술
PSMA PET and MRI scans from three centers
C · Comparison 대조 / 비교
추출되지 않음
O · Outcome 결과 / 결론
[CONCLUSION] The Swin Transformer model, leveraging multiparametric and multimodal PSMA PET/MRI data, provides an effective tool for noninvasive GS prediction and clinical decision-making for PCa. Incorporating more data from additional institutions could enhance the model's generalizability and predictive accuracy.
[BACKGROUND] Prostate cancer (PCa) management hinges on Gleason Score (GS) assessment, which currently requires invasive biopsies carrying risks of complications.
APA
Yang T, Zhang H, et al. (2026). PSMA PET/MRI-based Swin Transformer architecture for Gleason Score prediction in prostate cancer.. Medical physics, 53(1), e70274. https://doi.org/10.1002/mp.70274
MLA
Yang T, et al.. "PSMA PET/MRI-based Swin Transformer architecture for Gleason Score prediction in prostate cancer.." Medical physics, vol. 53, no. 1, 2026, pp. e70274.
PMID
41556393 ↗
DOI
10.1002/mp.70274
Abstract 한글 요약
[BACKGROUND] Prostate cancer (PCa) management hinges on Gleason Score (GS) assessment, which currently requires invasive biopsies carrying risks of complications. This underscores the demand for noninvasive imaging alternatives.
[PURPOSE] This study aimed to develop a Swin Transformer-based deep learning framework for noninvasive GS prediction in PCa, utilizing multi-center PSMA PET/MRI data to support clinical decision-making.
[METHODS] This retrospective study included PCa patients with pathological GS who underwent PSMA PET and MRI scans from three centers. Patients were stratified into training, validation, and testing sets through stratified random sampling. PSMA PET and MRI scans were preprocessed through normalization, segmentation, and data augmentation. Our Swin Transformer architecture integrates a 3D patch embedding layer, four sequential Swin Transformer Blocks with shifted window attention mechanisms, and a multi-layer perceptron (MLP) classification head. Performance was evaluated using AUC, accuracy, sensitivity, specificity, and precision.
[RESULTS] A total of 225 PCa patients were included in our study. Compared to the PET and T2WI single-modal approaches, the ADC-based single-modal model demonstrated superior performance across all metrics. The multimodal model based on PET, ADC and T2WI showed the best performance, with an AUC of 0.767, sensitivity of 0.722, specificity of 0.815, accuracy of 0.778, and precision of 0.722.
[CONCLUSION] The Swin Transformer model, leveraging multiparametric and multimodal PSMA PET/MRI data, provides an effective tool for noninvasive GS prediction and clinical decision-making for PCa. Incorporating more data from additional institutions could enhance the model's generalizability and predictive accuracy.
[PURPOSE] This study aimed to develop a Swin Transformer-based deep learning framework for noninvasive GS prediction in PCa, utilizing multi-center PSMA PET/MRI data to support clinical decision-making.
[METHODS] This retrospective study included PCa patients with pathological GS who underwent PSMA PET and MRI scans from three centers. Patients were stratified into training, validation, and testing sets through stratified random sampling. PSMA PET and MRI scans were preprocessed through normalization, segmentation, and data augmentation. Our Swin Transformer architecture integrates a 3D patch embedding layer, four sequential Swin Transformer Blocks with shifted window attention mechanisms, and a multi-layer perceptron (MLP) classification head. Performance was evaluated using AUC, accuracy, sensitivity, specificity, and precision.
[RESULTS] A total of 225 PCa patients were included in our study. Compared to the PET and T2WI single-modal approaches, the ADC-based single-modal model demonstrated superior performance across all metrics. The multimodal model based on PET, ADC and T2WI showed the best performance, with an AUC of 0.767, sensitivity of 0.722, specificity of 0.815, accuracy of 0.778, and precision of 0.722.
[CONCLUSION] The Swin Transformer model, leveraging multiparametric and multimodal PSMA PET/MRI data, provides an effective tool for noninvasive GS prediction and clinical decision-making for PCa. Incorporating more data from additional institutions could enhance the model's generalizability and predictive accuracy.
🏷️ 키워드 / MeSH 📖 같은 키워드 OA만
- Humans
- Male
- Prostatic Neoplasms
- Magnetic Resonance Imaging
- Positron-Emission Tomography
- Neoplasm Grading
- Retrospective Studies
- Multimodal Imaging
- Glutamate Carboxypeptidase II
- Image Processing
- Computer-Assisted
- Middle Aged
- Aged
- Antigens
- Surface
- Deep Learning
- Gleason Score
- Multiparametric magnetic resonance imaging
- Prostate cancer
- Prostate‐specific membrane antigen positron emission tomography
- Swin Transformer
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