@Radiology_AI 10 months ago
#AI model for 3D segmentation of rotator cuff muscles and corresponding intramuscular fat https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #ML #MachineLearning https://t.co/dQAYmlJEVV
@Radiology_AI 11 months ago
3D segmentation and quantification of rotator cuff muscles and fat infiltration https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #DeepLearning #MachineLearning https://t.co/dIMbwKFu61
@Radiology_AI 11 months ago
#DeepLearning algorithm accurately quantifies 3D muscle volume and fat infiltration https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #MachineLearning https://t.co/y78rHPjoB8
@Radiology_AI 11 months ago
#DeepLearning algorithm accurately quantifies 3D muscle volume and fat infiltration https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #MachineLearning https://t.co/KM2bIdeuQl
@Radiology_AI 11 months ago
A #DeepLearning Algorithm for Automatic 3D Segmentation of Rotator Cuff Muscle and Fat from Clinical MRI Scans https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #ML #MachineLearning https://t.co/p2iEGdK9Xo
@Radiology_AI 11 months ago
3D segmentation and quantification of rotator cuff muscles and fat infiltration https://doi.org/10.1148/ryai.220132 @BrookeArmyMed @MedicineUVA #MSKRad #RotatorCuff #MachineLearning https://t.co/Y2d3K5PVnc
@Radiology_AI 2 years ago
GANs hold promise to facilitate #DeepLearning for personalized and precision medicine https://doi.org/10.1148/ryai.2021200157 @yonsei_u #MSKRad #ML #MachineLearning https://t.co/bncAcFbJD3
@Radiology_AI 2 years ago
GANs hold promise to facilitate #DeepLearning for personalized and precision medicine https://doi.org/10.1148/ryai.2021200157 @yonsei_u #GAN #MSKRad #MachineLearning https://t.co/CKSWRhM0Cy