Scientists have created a 3D-printed model to mimic the specific conditions that spur the spread of cancer cells. The model, published in the journal Life Science Alliance, allows researchers to study ...

Scientists have created a 3D-printed model to mimic the specific conditions that spur the spread of cancer cells. The model, published in the journal Life Science Alliance, allows researchers to ...

Andrew's machine learning model uses a block-based 3D U-Net architecture to make brain metastasis segmentation more precise, achieving higher Dice scores than current methods. This improvement allows ...

The model—which they named “3MIC” for the 3D microenvironment chamber—follows the evolution of malignant cells using live microscopy, which images cells in real time. Using 3D printing technologies, ...

Andrew’s machine learning model uses a block-based 3D U-Net architecture to make brain metastasis segmentation more precise, achieving higher Dice scores than current methods. This improvement allows ...

Andrew’s machine learning model uses a block-based 3D U-Net architecture to make brain metastasis segmentation more precise, achieving higher Dice scores than current methods. This improvement allows ...

Andrew’s machine learning model uses a block-based 3D U-Net architecture to make brain metastasis segmentation more precise, achieving higher Dice scores than current methods.