detalle del documento
IDENTIFICACIÓN

doi:10.1186/s12880-024-01318-0...

Autor
Li, Shuo Fan, Zhichang Guo, Junting Li, Ding Chen, Zeke Zhang, Xiaoyue Wang, Yongfang Li, Yan Yang, Guoqiang Wang, Xiaochun
Langue
en
Editor

BioMed Central

Categoría

Medicine & Public Health

Año

2024

fecha de cotización

19/6/2024

Palabras clave
magnetic resonance imaging compressed sensing bladder cancer muscle invasion radiomics 3d-cs-t2-weighted-space validation 3d-t2-weighted-space compressed sensing 3d model cancer bladder 95%ci diagnostic muscle cohort radiomics 0
Métrico

Resumen

Background Preoperative discrimination between non-muscle-invasive bladder cancer (NMIBC) and the muscle invasive bladder cancer (MIBC) is a determinant of management.

The purpose of this research is to employ radiomics to evaluate the diagnostic value in determining muscle invasiveness of compressed sensing (CS) accelerated 3D T2-weighted-SPACE sequence with high resolution and short acquisition time.

Methods This prospective study involved 108 participants who underwent preoperative 3D-CS-T2-weighted-SPACE, 3D-T2-weighted-SPACE and T2-weighted sequences.

The cohort was divided into training and validation cohorts in a 7:3 ratio.

In the training cohort, a Rad-score was constructed based on radiomic features selected by intraclass correlation coefficients, pearson correlation coefficient and least absolute shrinkage and selection operator .

Multivariate logistic regression was used to develop a nomogram combined radiomics and clinical indices.

In the validation cohort, the performances of the models were evaluated by ROC, calibration, and decision curves.

Results In the validation cohort, the area under ROC curve of 3D-CS-T2-weighted-SPACE, 3D-T2-weighted-SPACE and T2-weighted models were 0.87(95% confidence interval (CI):0.73-1.00), 0.79(95%CI:0.63–0.96) and 0.77(95%CI:0.60–0.93), respectively.

The differences in signal-to-noise ratio and contrast-to-noise ratio between 3D-CS-T2-weighted-SPACE and 3D-T2-weighted-SPACE sequences were not statistically significant( p  > 0.05).

While the clinical model composed of three clinical indices was 0.74(95%CI:0.55–0.94) and the radiomics-clinical nomogram model was 0.88(95%CI:0.75-1.00).

The calibration curves confirmed high goodness of fit, and the decision curve also showed that the radiomics model and combined nomogram model yielded higher net benefits than the clinical model.

Conclusion The radiomics model based on compressed sensing 3D T2WI sequence, which was acquired within a shorter acquisition time, showed superior diagnostic efficacy in muscle invasion of bladder cancer.

Additionally, the nomogram model could enhance the diagnostic performance.

Li, Shuo,Fan, Zhichang,Guo, Junting,Li, Ding,Chen, Zeke,Zhang, Xiaoyue,Wang, Yongfang,Li, Yan,Yang, Guoqiang,Wang, Xiaochun, 2024, Compressed sensing 3D T2WI radiomics model: improving diagnostic performance in muscle invasion of bladder cancer, BioMed Central

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