A Deep Learning Approach for Automated Segmentation of Kidneys and Exophytic Cysts in Individuals with Autosomal Dominant Polycystic Kidney Disease

Youngwoo Kim; Cheng Tao; Hyungchan Kim; Geum-Yoon Oh; Jeongbeom Ko; Kyongtae T. Bae

doi:10.1681/ASN.2021111400

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Significance Statement

Total kidney volume (TKV) is the most important biomarker of disease severity and progression for autosomal dominant polycystic kidney disease (ADPKD) but determining volumes of kidney and exophytic cysts from magnetic resonance images is a labor-intensive and complex process involving manual tracing of boundaries of kidneys slice by slice. In patients with prominent exophytic cysts, computation of TKV should exclude such cysts to avoid overestimating the disease progression risk profile. The authors developed and validated a deep learning–based fully automated method of computing TKV that excludes exophytic cyst volumes. Their findings indicate that the automated method’s performance is equivalent to the reference standard of manual tracing. This advanced technique shows promise for rapid and reliable assessment of TKV to help estimate ADPKD disease progression and treatment response.

Abstract

Background Total kidney volume (TKV) is an important imaging biomarker in autosomal dominant polycystic kidney disease (ADPKD). Manual computation of TKV, particularly with the exclusion of exophytic cysts, is laborious and time consuming.

Methods We developed a fully automated segmentation method for TKV using a deep learning network to selectively segment kidney regions while excluding exophytic cysts. We used abdominal T₂-weighted magnetic resonance images from 210 individuals with ADPKD who were divided into two groups: one group of 157 to train the network and a second group of 53 to test it. With a 3D U-Net architecture using dataset fingerprints, the network was trained by K-fold cross-validation, in that 80% of 157 cases were for training and the remaining 20% were for validation. We used Dice similarity coefficient, intraclass correlation coefficient, and Bland–Altman analysis to assess the performance of the automated segmentation method compared with the manual method.

Results The automated and manual reference methods exhibited excellent geometric concordance (Dice similarity coefficient: mean±SD, 0.962±0.018) on the test datasets, with kidney volumes ranging from 178.9 to 2776.0 ml (mean±SD, 1058.5±706.8 ml) and exophytic cysts ranging from 113.4 to 2497.6 ml (mean±SD, 549.0±559.1 ml). The intraclass correlation coefficient was 0.9994 (95% confidence interval, 0.9991 to 0.9996; P<0.001) with a minimum bias of −2.424 ml (95% limits of agreement, −49.80 to 44.95).

Conclusions We developed a fully automated segmentation method to measure TKV that excludes exophytic cysts and has an accuracy similar to that of a human expert. This technique may be useful in clinical studies that require automated computation of TKV to evaluate progression of ADPKD and response to treatment.

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