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1  with observation, shock wave lithotripsy or ureteroscopy.
2 the major groups of instruments employed for ureteroscopy.
3 es in instrumentation for rigid and flexible ureteroscopy.
4 tones, can also be treated successfully with ureteroscopy.
5 tcomes with percutaneous nephrolithotomy and ureteroscopy after failed SWL are not as good as those o
6 ty in both flexible and rigid cystoscopy and ureteroscopy and its potential for detection of carcinom
7 r experience will direct surgeons as to when ureteroscopy and PCNL are appropriate.
8                                              Ureteroscopy and PCNL have been applied at an increasing
9                               More recently, ureteroscopy and percutaneous nephrolithotomy (PCNL) are
10  the areas of recent advances, i.e. flexible ureteroscopy and percutaneous nephrolithotomy.
11                      Shock wave lithotripsy, ureteroscopy and percutaneous nephrostolithotomy all con
12                                     Although ureteroscopy and shock wave lithotripsy predominate in t
13                                   Currently, ureteroscopy and shock-wave lithotripsy are regarded by
14 ith results of urinalysis, cystoscopy and/or ureteroscopy, and/or surgery.
15 reatment outcomes, thus expanding the use of ureteroscopy as a first-line option for the treatment of
16 ents who underwent heminephroureterectomy or ureteroscopy between January 1, 2001, and December 31, 2
17                                              Ureteroscopy continues to improve as a method for manage
18 rthermore, a meta-analysis of case series of ureteroscopy during pregnancy suggests definitive endosc
19 ries have reported the complication rate for ureteroscopy during pregnancy to be low.
20                                   The use of ureteroscopy for diagnostic and therapeutic applications
21 ng therapies is expanding the indications of ureteroscopy for the management of renal calculi.
22                                    Here too, ureteroscopy has a central role in surveillance.
23                                              Ureteroscopy has assumed an expanded and important role
24                                 Additionally ureteroscopy has emerged not only as a diagnostic tool b
25                                              Ureteroscopy has for over a decade been the premier diag
26                   Shock wave lithotripsy and ureteroscopy have similar stone-free rates, although sho
27                Among 182 lesions biopsied at ureteroscopy in 124 male and 53 female patients (mean ag
28 ries and meta-analysis confirm the safety of ureteroscopy in pregnant patients in the appropriate set
29 th percutaneous nephrostolithotomy, although ureteroscopy is an option in select patients, particular
30                                              Ureteroscopy is demonstrated to be well tolerated and ef
31                                              Ureteroscopy is the most successful technique for the tr
32        Changes in shock wave lithotripsy and ureteroscopy offer patients highly effective, minimally
33 e lithotripsy, percutaneous nephrolithotomy, ureteroscopy or open surgery depending on the size and l
34                                      Ex-vivo ureteroscopy or pyeloscopy can safely render a kidney-st
35  modalities including shockwave lithotripsy, ureteroscopy, percutaneous nephrolithotomy and laparosco
36 regnant patient without contraindications to ureteroscopy, the definitive endoscopic treatment of an
37             Shock wave lithotripsy (SWL) and ureteroscopy (URS) account for more than 90% of procedur
38                       Future improvements in ureteroscopy will rely on the continued application of t
39 al stent or percutaneous nephrostomy tube or ureteroscopy with definitive stone treatment are all rea

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