Healthcare Technology Letters | |
Automatic detection of calcium phosphate deposit plugs at the terminal ends of kidney tubules | |
article | |
Katrina Fernandez1  Mark Korinek1  Jon Camp1  John Lieske3  David Holmes1  | |
[1] Mayo Clinic;University of Minnesota;Department of Nephrology & Hypertension, Mayo Clinic | |
关键词: learning (artificial intelligence); medical image processing; entropy; endoscopes; image segmentation; kidney; image coding; convolutional neural nets; calcium compounds; automatic detection; calcium phosphate deposit plugs; kidney tubules; kidney stones; plaque; stone precursors; endoscopic assessment; deep learning; semantic segmentation; renal papilla; U-Net model; ResNet-34 encoder; class imbalance problem; Jaccard-cross-entropy loss function; focal loss function; dropout rate; endoscopic image; urologic condition; | |
DOI : 10.1049/htl.2019.0086 | |
学科分类:肠胃与肝脏病学 | |
来源: Wiley | |
【 摘 要 】
Kidney stones are a common urologic condition with a high amount of recurrence. Recurrence depends on a multitude of factors the incidence of precursors to kidney stones, plugs, and plaques. One method of characterising the stone precursors is endoscopic assessment, though it is manual and time-consuming. Deep learning has become a popular technique for semantic segmentation because of the high accuracy that has been demonstrated. The present Letter examined the efficacy of deep learning to segment the renal papilla, plaque, and plugs. A U-Net model with ResNet-34 encoder was tested; the Letter examined dropout (to avoid overtraining) and two different loss functions (to address the class imbalance problem. The models were then trained in 1666 images and tested on 185 images. The Jaccard-cross-entropy loss function was more effective than the focal loss function. The model with the dropout rate 0.4 was found to be more effective due to its generalisability. The model was largely successful at delineating the papilla. The model was able to correctly detect the plaques and plugs; however, small plaques were challenging. Deep learning was found to be applicable for segmentation of an endoscopic image for the papilla, plaque, and plug, with room for improvement.
【 授权许可】
CC BY|CC BY-ND|CC BY-NC|CC BY-NC-ND
【 预 览 】
Files | Size | Format | View |
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RO202107100000895ZK.pdf | 502KB | download |