MP14-15 PREDICTORS OF SUCCESSFUL SECOND LOOK FLEXIBLE NEPHROSCOPY AFTER PERCUTANEOUS NEPHROLITHOTOMY

Abstract

You have accessJournal of UrologyCME1 May 2022MP14-15 PREDICTORS OF SUCCESSFUL SECOND LOOK FLEXIBLE NEPHROSCOPY AFTER PERCUTANEOUS NEPHROLITHOTOMY Jessica Dai, Hersh Trivedi, Vineeth Kommidi, Brett Johnson, Jodi Antonelli, and Margaret Pearle Jessica DaiJessica Dai More articles by this author , Hersh TrivediHersh Trivedi More articles by this author , Vineeth KommidiVineeth Kommidi More articles by this author , Brett JohnsonBrett Johnson More articles by this author , Jodi AntonelliJodi Antonelli More articles by this author , and Margaret PearleMargaret Pearle More articles by this author View All Author Informationhttps://doi.org/10.1097/JU.0000000000002543.15AboutPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissionsReprints ShareFacebookLinked InTwitterEmail Abstract INTRODUCTION AND OBJECTIVE: Second look flexible nephroscopy (SLFN) after percutaneous nephrolithotomy (PCNL) improves stone free rates. However, even after SLFN, residual fragments (RFs) may remain. We sought to determine patient, initial stone characteristics, and peri-operative parameters that might be associated with RFs after SLFN. METHODS: After IRB approval, we identified all patients at our institution who underwent PCNL and SLFN between 1/2016 and 5/2020. Those with nephrocalcinosis, no pre-operative CT, or no post-operative imaging after SLFN were excluded. Demographics, patient and stone characteristics and peri-operative parameters were extracted from the electronic medical record. Post-PCNL RF were identified on post-operative day 1 CT. Post-SLFN fragments were identified on either follow-up KUB or CT obtained within 3 months of PCNL. Although ultrasound was routinely obtained, determination of RFs was considered too unreliable to report. Univariate (UVA) and multivariable logistic regression analyses (MVA) were performed to identify predictors of persistent fragments on post-operative imaging. RESULTS: 254 patients underwent PCNL and SLFN, 201 of whom met inclusion criteria. Median size of the largest RF at the time of SLFN was 5 mm (IQR 2-8) and median cumulative RF stone burden was 8 mm (IQR 5-14). Most RFs were in the lower pole of the kidney (44.8%). Stone free rate after SLFN was 58% (n=116). Median cumulative stone burden on post-treatment imaging was 6.5 mm (IQR 4-12) and median size of the largest post-SLFN fragment was 5 mm (IQR 3-8). On UVA, larger total stone burden, bilateral stones and longer operative time at initial PCNL were associated with persistent post-treatment fragments, as well as greater total RF burden and operative time at SLFN (Table 1). On MVA, bilateral stone burden at initial PCNL and greater RF burden at time of SLFN were independent predictors of radiographically detected post-treatment fragments. CONCLUSIONS: SLFN results in 58% of patients with RFs rendered stone free. Patients with initial bilateral stones prior to PCNL and greater RF stone burden at time of SLFN are more likely to have persistent post-treatment fragments, despite attempts at aggressive stone removal at initial PCNL and SLFN. Limitations include lack of uniform CT imaging post-treatment, which may underestimate persistent post-treatment RFs. Source of Funding: None © 2022 by American Urological Association Education and Research, Inc.FiguresReferencesRelatedDetails Volume 207Issue Supplement 5May 2022Page: e238 Advertisement Copyright & Permissions© 2022 by American Urological Association Education and Research, Inc.MetricsAuthor Information Jessica Dai More articles by this author Hersh Trivedi More articles by this author Vineeth Kommidi More articles by this author Brett Johnson More articles by this author Jodi Antonelli More articles by this author Margaret Pearle More articles by this author Expand All Advertisement PDF DownloadLoading ...