NIH

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More

The 3D computer vision tool (called Map3D) can detect, track, and associate comprehensive pixel-level segmentation of renal tissue microstructures for 3D quantification. New applications of artificial intelligence (AI) to renal pathology have been driven by the widespread use of digital diagnostic imaging and interdisciplinary collaborations between computer scientists, nephrologists and… Read More