Tytuł artykułu

Automatic Extraction of the Pelvicalyceal System for Preoperative Planning of Minimally Invasive Procedures

Tytuł czasopisma

Metrology and Measurement Systems




vol. 24


No 1


Wydział PAN

Nauki Techniczne


Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation




ISSN 0860-8229


Abiria (2014), Performance of an automated renal segmentation algorithm based on morphological erosion and connectivity of SPIE , Medical Imaging - Aided Diagnosis, Proc Computer. ; Fong (2004), Lower pole ratio : a new and accurate predictor of lower pole stone clearance after shockwave lithotripsy of, International Journal Urology, 11. ; Shehata (2015), A level set - based framework for kidney segmentation from diffusion MR images of International Conference on Image Processing, Proc, 4441. ; Yushkevich (2006), User - guided active contour segmentation of anatomical structures : Significantly improved efficiency and reliability, Neuroimage, 31, 1116, ; Pankaj (2014), Radiological Study of Variations in the pelvicalyceal system of kidney of Biological and Medical Research, International Journal, 5, 4336. ; Dubuisson (1994), A modified Hausdorff distance for object matching of International Conference on Pattern, Proc Recognition, 566. ; Dice (1945), Measures of the amount of ecologic association between species, Ecology, 26, 297, ; Sun (2002), Kidney segmentation in MRI sequences using temporal dynamics of Symposium on Biomedical, Proc IEEE International Imaging, 98. ; Skalski (2017), Kidney segmentation in CT data using hybrid Level - Set Method with ellipsoidal shape constraints Metrol Meas, Syst, 24, 101. ; Sampaio (1988), Anatomic classification of the kidney collecting system for endourologic procedures, Endourology, 2, 247, ; Lin (2008), Predictive factors of lower calyceal stone clearance after extracorporeal shockwave lithotripsy the impact of radiological anatomy of the Chinese Medical, Journal Association, 10, 71. ; Byrd (1988), Approximate Solution of the Trust Region Problem by Minimization over Two Dimensional Subspaces, Mathematical Programming, 40. ; Sargin (2014), The efficacy of radiographic anatomical measurement methods in predicting success after extracorporeal shockwave lithotripsy for lower pole kidney stones International Brazilian, Journal Of Urology, 40, 337. ; Chan (2001), Active contours without edges on image processing, IEEE Trans, 10, 266. ; Will (2014), Automated segmentation and volumetric analysis of renal cortex medulla and pelvis based on non - contrast - enhanced weighted MR images Magnetic Resonance Materials in Physics , Biology and, Medicine, 27, 445. ; Zöllner (2012), Assessment of Kidney Volumes From MRI : Acquisition and Segmentation Techniques of, American Journal Roentgenology, 199. ; Ukimura (2012), Three - dimensional reconstruction of renovascular - tumor anatomy to facilitate zero - ischemia partial nephrectomy, European Urology, 61, 211, ; Sampaio (1992), Inferior pole collecting system anatomy : its probable role in extracorporeal shock wave lithotripsy of, Journal Urology, 147. ; Zhang (2008), Medical image segmentation using new hybrid level - set method of BioMedical Visualization MEDIVIS, Proc IEEE, 08, 71. ; Huttenlocher (1993), Comparing images using the Hausdorff distance IEEE Tran on Pattern Analysis and Machine, Intelligence, 15, 850. ; Elbahnasy (1998), Lower caliceal stone clearance after shock wave lithotripsy or ureteroscopy : the impact of lower pole radiographic anatomy of, Journal Urology, 159. ; Lagarias (1998), Convergence Properties of the Nelder - Mead Simplex Method in Low Dimensions of, SIAM Journal Optimization, 9, 112, ; Yang (2015), Automatic Segmentation of Renal Compartments in DCE - MRI Images Medical Image Computing and Computer - Assisted Intervention -, MICCAI, 3. ; Sumino (2002), Predictors of lower pole renal stone clearance after extracorporeal shock wave lithotripsy of, Journal Urology, 168. ; Li (2011), Renal cortex segmentation using optimal surface search with novel graph construction InMedical Computing and Computer - Assisted Intervention -, Image MICCAI, 387. ; Resorlu (2012), The Impact of Pelvicaliceal Anatomy on the Success of Retrograde Intrarenal Surgery in Patients With Lower Pole Renal Stones, Urology, 79, 61, ; Song (2008), Segmentation of MR Renography Images Using Temporal Dynamics in a Level Set Framework of Symposium on Biomedical Imaging : From Nano to Macro, Proc IEEE International, 37. ; Bugajska (2015), The renal vessel segmentation for facilitation of partial nephrectomy of IEEE SPA : Signal Processing : Algorithms Architectures Arrangements and Applications, Proc, 50. ; Keeley (1999), Clearance of lower - pole stones following shock wave lithotripsy : effect of the infundibulopelvic angle, European Urology, 36. ; Pohle (2001), A new approach for model - based adaptive region growing in medical image analysis Computer Analysis of Images and Patterns, Journal, 238.