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Browsing by Author "Cohen, Andrew"
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Item Association Between Randall's Plaque Stone Anchors and Renal Papillary Pits(Mary Ann Liebert, 2019-04-01) Borofsky, Michael S.; Williams, James C., Jr.; Dauw, Casey A.; Cohen, Andrew; Evan, Andrew C.; Coe, Fredric L.; Worcester, Elaine; Lingeman, James E.; Anatomy and Cell Biology, School of MedicineIntroduction: Renal papillary pits are commonly encountered during ureteroscopy. The mechanism by which such pits arise is unclear. One hypothesis is that pits represent sites where stones overgrowing Randall's plaque (RP) were dislodged. We sought to examine this theory by using digital ureteroscopy and stone μCT. Materials and Methods: Patients undergoing endoscopic stone removal had procedures recorded and stones analyzed by using μCT. Stones with evidence of Randall's plaque anchors (RPAs) were identified in a blinded fashion. Surgical videos were reviewed independently by two urologists. Results: Twenty-eight patients had μCT-confirmed stones with RPA. Among them, 93% were recurrent stone formers and 75% had had prior stone procedures. Metabolic abnormalities were present in 87%, with 79% classified as idiopathic calcium oxalate stone formers. A mean of 7.6 stones with RPA were identified per procedure. In each case, papillary pits were visualized before any stone manipulation and in several cases the active dislodgement of an attached stone led to immediate identification of an underlying pit. Such stones routinely demonstrated an RPA on μCT. The average depth of RPA was 302 ± 172 μm, consistent with the corresponding shallow pits visualized on the papillary surface. Conclusions: Stones overgrowing RP are capable of pulling away a piece of papilla when dislodged, resulting in a visible papillary pit. This process manifests as an RPA on the undersurface of the stone and a papillary pit on the corresponding area of attachment. Identification of pits may help identify patients who form stones primarily by the RP mechanism.Item Integration and utilization of modern technologies in nephrolithiasis research(Nature Publishing Group, 2016-09) Borofsky, Michael S.; Dauw, Casey A.; Cohen, Andrew; Williams, James C., Jr.; Evan, Andrew P.; Lingeman, James E.; Urology, School of MedicineNephrolithiasis, or stones, is one of the oldest urological diseases, with descriptions and treatment strategies dating back to ancient times. Despite the enormous number of patients affected by stones, a surprising lack of conceptual understanding of many aspects of this disease still exists. This lack of understanding includes mechanisms of stone formation and retention, the clinical relevance of different stone compositions and that of formation patterns and associated pathological features to the overall course of the condition. Fortunately, a number of new tools are available to assist in answering such questions. New renal endoscopes enable kidney visualization in much higher definition than was previously possible, while micro-CT imaging is the optimal technique for assessment of stone microstructure and mineral composition in a nondestructive fashion. Together, these tools have the potential to provide novel insights into the aetiology of stone formation that might unlock new prevention and treatment strategies, and enable more effective management of patients with nephrolithiasis.