The effectiveness of extracorporeal shockwave lithotripsy in treating ureteral stones: a retrospective study in Misrata- Libya
الكلمات المفتاحية:
ESWL، Ureteral stone، Misrata، MMCالملخص
The objective of this study was to evaluate the efficacy of extracorporeal shockwave lithotripsy in treating ureteral stones.
Methods and materials: this is a retrospective study, in which we reviewed A total of 60 cases (29 males and 31 females) with ureteral stones who were treated by extracorporeal shock wave lithotripsy (ESWL) from records of ESWL unit at Misrata Medical Center between January 2019 and December 2019. All Radiopaque ureteral stones of radiological stone size of ≤ 15 mm were included in the study. Number of sessions, energy used and complications were reported. The outcome of ESWL was also recorded.
Result: Of the 60 patients (29 males and 31 females) analyzed, extracorporeal shock wave lithotripsy was successful in 83.3%. Univariate analysis of both groups revealed no significant difference in patient’s age and stone laterality. Statically significant differences in gender, stone size, stone site, number of extracorporeal shock wave lithotripsy sessions, and patients with stents were observed. Statically significant factors in multivariate logistic regression analysis were sex and stent. Females had three-time higher risk for extracorporeal shock wave lithotripsy failure than male (odds ratio (OR) = 3.213; 95% confidence interval (CI): 1.194–8.645; p = 0.021) and a higher failure rate when stent was used (OR = 6.358; 95% CI: 2.228–18.143; p = 0.001). This study reveals that extracorporeal shock wave lithotripsy can treat ureteric stones successfully with an invasive association between outcome and predictors such as stone size, site and presence of stent. These factors can help us in improving patient selection and ensure better outcome at lower cost.
المراجع
Chaussy C, Brendel W, Schmiedt E. Extracorporeally induced destruction of kidney stones by shock waves. Lancet 1980 Dec;2(8207):1265-1268Lancet 1980 Dec;2(8207):1265-1268
Köhrmann KU, Rassweiler JJ, Manning M, Mohr G, Henkel TO, Jünemann KP, et al. The clinical introduction of a third generation lithotriptor: Modulith SL 20. J Urol 1995;153:1379 83
Bach C, Buchholz N. Shock wave lithotripsy for renal and ureteric stones. Eur Urol Suppl 2011;10:423-432.
Akal HR. The role of extracorporeal shock wave lithotripsy in the treatment of upper ureteral stone disease. Thi-Qar Medical Journal. 2011;5(3):16-27.
Labanaris AP, Kühn R, Schott GE, Zugor V. Perirenal hematomas induced by extracorporeal shock wave lithotripsy (ESWL). Therapeutic management. Scientific World Journal 2007 Sep;7:1563-1566.
Preminger GM, Tiselius HG, Assimos DG, Alken P, Buck AC, Gallucci M, et al. American Urological Association Education and Research, inc. and European Association of Urology. Guideline for the management of ureteric calculi. Eur Urol 2007;52(6):1610-1631.
Rassweiler JJ, Tailly GG, Chaussy C. Progress in lithotripter technology. EAU Update Series. 2005;3:17-36.
Egilmez T, Tekin MI, Gonen M, Kilinc F, Goren R, Ozkardes H. Efficacy and safety of a new-generation shockwave lithotripsy machine in the treatment of single renal or ureteral stones: Experience with 2670 patients. J Endourol 2007 Jan;21(1):23-27.
Köhrmann KU, Rassweiler JJ, Manning M, Mohr G, Henkel TO, Jünemann KP, et al. The clinical introduction of a third generation lithotriptor: Modulith SL 20. J Urol 1995 May;153(5):1379-1383.
Chandrapal J, Tang A, Navetta A, Trojan B, Haynes A, de Riese W, et al. Single-centre experience with the Dual-Focus Storz Modulith SLX-F2 lithotripter: a retrospective study. World Journal of Nephrology and Urology 2014;3(1):7-17.
Zehnder P, Roth B, Birkhäuser F, Schneider S, Schmutz R, Thalmann GN, et al. A prospective randomised trial comparing the modified HM3 with the MODULITH® SLX-F2 lithotripter. Eur Urol 2011 Apr;59(4):637-644.
Abe T, Akakura K, Kawaguchi M, Ueda T, Ichikawa T, Ito H, et al. Outcomes of shockwave lithotripsy for upper urinary-tract stones: a large-scale study at a single institution. J Endourol 2005 Sep;19(7):768-773.
Al- Dabbagh AA. Extracorporeal shock wave lithotripsy for the treatment of urolithiasis. Medical Journal of Babylon. 2009;6(2):263-267.
Albala DM, Assimos DG, Clayman RV, Denstedt JD,Grasso M, Gutierrez-Aceves J, et al. Lower pole I: a prospective randomized trial of extracorporeal shock wave lithotripsy and percutaneous nephrostolithotomy for lower pole nephrolithiasis-initial results. J Urol 2001
Dec;166(6):2072-2080.
Coz F, Orvieto M, Bustos M, Lyng R, Stein C, Hinrichs A, et al. Extracorporeal shockwave lithotripsy of 2000 urinary calculi with the modulith SL-20: success and failure according to size and location of stones. J Endourol 2000 Apr;14(3):239-246.
Pace KT, Ghiculete D, Harju M, Honey RJ; University of Toronto Lithotripsy Associates. Shock wave lithotripsy at 60 or 120 shocks per minute: a randomized, double-blind trial. J Urol 2005 Aug;174(2):595-599.
Park H, Park M, Park T. Two-year experience with ureteral stones: extracorporeal shockwave lithotripsy v ureteroscopic manipulation. J Endourol 1998 Dec;12(6):501-504.
Perks AE, Schuler TD, Lee J, Ghiculete D, Chung DG, D’A Honey RJ, et al. Stone attenuation and skin-to-stone distance on computed tomography predicts for stone fragmentation by shock wave lithotripsy. Urology 2008 Oct;72(4):765-769.
White W, Klein F. Five-year clinical experience with the Dornier Delta lithotriptor. Urology 2006 Jul;68(1):28-32.
Abdel-Khalek M, Sheir KZ, Mokhtar AA, Eraky I, Kenawy M, Bazeed M. Prediction of success rate after extracorporeal shock-wave lithotripsy of renal stones–a multivariate analysis model. Scand J Urol Nephrol 2004;38(2):161-167.
Al-Ansari A, As-Sadiq K, Al-Said S, younis N, Jaleel OA, Shokeir AA. Prognostic factors of success of extracorporeal shock wave lithotripsy (ESWL) in the treatment of renal stones. Int Urol Nephrol 2006;38(1):63-67.
Choi JW, Song PH, Kim HT. Predictive factors of the outcome of extracorporeal shockwave lithotripsy for ureteral stones. Korean J Urol 2012 Jun;53(6):424-430.
Tarawneh E, Awad Z, Hani A, Haroun AA, Hadidy A, Mahafza W, et al. Factors affecting urinary calculi treatment by extracorporeal shock wave lithotripsy. Saudi J Kidney Dis Transpl 2010 Jul;21(4):660-665.
Takahara K, Ibuki N, Inamoto T, Nomi H, Ubai T, Azuma H. Predictors of success for stone fragmentation and stone-free rate after extracorporeal shockwave lithotripsy in the treatment of upper urinary tract stones. Urol J 2012;9(3):549-552.
Lee Hy, yang yH, Lee yL, Shen JT, Jang My, Shih PM, et al. Noncontrast computed tomography factors that predict the renal stone outcome after shock wave lithotripsy. Clin Imaging 2015 Sep-Oct;39(5):845-850.
Ouzaid I, Al-qahtani S, Dominique S, Hupertan V, Fernandez P, Hermieu JF, et al. A 970 Hounsfield units (HU) threshold of kidney stone density on non-contrast computed tomography (NCCT) improves patients’selection for extracorporeal shockwave lithotripsy (ESWL): evidence from a prospective study. BJU Int 2012 Dec;110(11 Pt B):E438-E442.
Tiselius HG, Ackermann D, Alken P, Buck C, Conort P, Gallucci M; Working Party on Lithiasis, European Association of Urology. Guidelines on urolithiasis. Eur Urol 2001 Oct;40(4):362-371.
التنزيلات
منشور
كيفية الاقتباس
إصدار
القسم
الرخصة
الحقوق الفكرية (c) 2022 Salem Swieb، Nori Abogrein
هذا العمل مرخص بموجب Creative Commons Attribution 4.0 International License.