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1 mbers of patients who are not candidates for cystectomy.
2 is an acceptable alternative to open radical cystectomy.
3 ng other patients toxic effects and delay to cystectomy.
4 rging minimally invasive approach to radical cystectomy.
5 abstracts related to robot-assisted radical cystectomy.
6 he scientific practice of LND during radical cystectomy.
7 ved convalescence compared with open-radical cystectomy.
8 ve complications with robot-assisted radical cystectomy.
9 logic outcomes as compared with open radical cystectomy.
10 d a retrospective comparison to open radical cystectomy.
11 combination chemotherapy followed by radical cystectomy.
12 ible, minimally invasive approach to radical cystectomy.
13 d outcomes related to robot-assisted radical cystectomy.
14 patients underwent FDG-PET/CT before planned cystectomy.
15 spared the unnecessary morbidity of radical cystectomy.
16 in making treatment decisions before radical cystectomy.
17 an achieve survival rates similar to radical cystectomy.
18 tine, doxorubicin, and cisplatin followed by cystectomy.
19 egies particularly as they relate to radical cystectomy.
20 gement of muscle invasive disease is radical cystectomy.
21 ogic outcomes compare well with open radical cystectomy.
22 e disease continues to be managed by radical cystectomy.
23 nitial experiences with laparoscopic radical cystectomy.
24 (2003-2012) treated with chemotherapy and/or cystectomy.
25 5-year disease recurrence risk after radical cystectomy.
26 a viable option for some patients who refuse cystectomy.
27 s are markers of improved outcome of radical cystectomy.
28 determined before, during, and after radical cystectomy.
29 mine the stage of the disease before radical cystectomy.
30 al recurrence (LR) in all patients receiving cystectomy.
31 Of these 2 patients, one required radical cystectomy.
32 bladder cancer who were treated with radical cystectomy.
33 own to correlate with survival after radical cystectomy.
34 invasive bladder cancer who received radical cystectomy.
35 bladder cancer who were treated with radical cystectomy.
36 xorubicin, and cisplatin followed by radical cystectomy.
37 to T4a) and were to be treated with radical cystectomy.
38 on bladder tumor, most still require radical cystectomy.
39 s in the bladder, and survival after salvage cystectomy.
40 Those with less than a CR underwent cystectomy.
41 bladder from patients that underwent radical cystectomy.
42 carcinoma of the urinary bladder is radical cystectomy.
43 partial cystectomy, and 17 elected a radical cystectomy.
44 moradiation (six patients) went to immediate cystectomy.
45 etained bladders than in those who underwent cystectomy.
46 a total of 37 of 91 patients (40%) required cystectomy.
47 ents with residual tumor underwent immediate cystectomy.
48 ment complications (n = 1) underwent salvage cystectomy.
49 were unable or unwilling to undergo radical cystectomy.
50 considerable debate about the role of early cystectomy.
51 noma of the bladder have poor survival after cystectomy.
52 patients are unwilling or unable to undergo cystectomy.
53 of concerns regarding toxicity and delay to cystectomy.
54 dMVAC were administered, followed by radical cystectomy.
55 nd counseling of patients undergoing radical cystectomy.
56 utilized to measure HRQOL following radical cystectomy.
57 important outcome measure following radical cystectomy.
58 rizable urinary reservoirs following radical cystectomy.
59 ctures per 100 person-years in those without cystectomy.
60 elvic lymphadenectomy at the time of radical cystectomy.
61 ence of chronic kidney damage after subtotal cystectomy.
62 orting the use of minimally invasive radical cystectomy.
63 curative therapeutic alternatives to radical cystectomy.
64 evaluated from 1 to 26 weeks after subtotal cystectomy.
65 e timing of intravesical therapy and radical cystectomy.
66 in young animals at 26 weeks after subtotal cystectomy.
67 ain a complication within 90 days of radical cystectomy.
68 analysis included 31,191 colectomies, 2,670 cystectomies, 1,514 pancreatectomies, 2,607 proctectomie
71 ity for pancreatectomy (67% of the decline), cystectomy (37%), and esophagectomy (32%), but not for t
72 our understanding of HRQOL following radical cystectomy, a lack of prospective studies limits conclus
73 with no residual muscle-invasive disease at cystectomy after neoadjuvant chemotherapy were likely to
74 tors influence bladder cancer outcomes after cystectomy, after adjustment for pathologic factors and
76 eveloped metastases and thus did not undergo cystectomy; all others (n = 43) proceeded to cystectomy
77 d benefits of radical cystectomy over simple cystectomy alone are accepted, an optimal template for p
78 enefit of adjuvant chemotherapy over radical cystectomy alone for muscle-invasive bladder cancer.
80 sease) and were randomly assigned to radical cystectomy alone or three cycles of methotrexate, vinbla
81 The crude 5-year OS for chemotherapy alone, cystectomy alone, preoperative chemotherapy followed by
87 rowth and experience in laparoscopic radical cystectomy, along with continuing refinements in techniq
88 N1, 48%; cN2, 45%; cN3, 7%), 1,104 underwent cystectomy and 635 were treated with chemotherapy alone.
90 o evidence of an interaction between radical cystectomy and age, sex, comorbidity score, or cancer st
91 e versus deferred chemotherapy after radical cystectomy and bilateral lymphadenectomy for patients wi
92 ical outcomes of patients treated by radical cystectomy and bilateral lymphadenectomy for urothelial-
93 de positive (pN1-3) M0 disease after radical cystectomy and bilateral lymphadenectomy, with no eviden
95 ues has prompted interest in robotic radical cystectomy and extended PLND, and recent reports have de
96 ive morbidity following contemporary radical cystectomy and identify preoperative, intraoperative, an
98 omparison between minimally invasive radical cystectomy and open radical cystectomy is needed to defi
99 on to technique, especially in nerve-sparing cystectomy and orthotopic cystoplasty may reduce the rat
102 hat may benefit from integrated therapy with cystectomy and perioperative systemic chemotherapy.
105 We evaluated the association between radical cystectomy and risk of fracture at any site, controlling
106 inent diversion can decrease the interval to cystectomy and therefore may impact positively on surviv
107 ry protocols for patients undergoing radical cystectomy and urinary diversion and describe our unique
108 atients with bladder cancer who have radical cystectomy and urinary diversion are at increased risk o
109 ical prostatectomy), bladder cancer (radical cystectomy and urinary diversion for muscle invasive bla
117 alone, preoperative chemotherapy followed by cystectomy, and cystectomy followed by adjuvant chemothe
118 oung) and 12 months (old) underwent subtotal cystectomy, and then were evaluated from 1 to 26 weeks a
119 tomy are lacking, minimally invasive radical cystectomy appears to have superior perioperative outcom
121 Although rigorous comparisons with open cystectomy are lacking, minimally invasive radical cyste
122 rm outcomes after minimally invasive radical cystectomy are limited, intermediate term oncologic outc
123 ve, randomized comparisons with open radical cystectomy are needed as this technique continues to be
124 ized prospective comparisons to open radical cystectomy are needed to further validate this procedure
126 iveness and harms of both minimally invasive cystectomy as well as the optimal extent of pelvic lymph
130 onary resection, hepatectomy, colectomy, and cystectomy) between 2010 and 2012 were identified from t
132 edures (pancreatic resection, esophagectomy, cystectomy), but longer for other procedures (aortic and
134 ion in those undergoing laparoscopic radical cystectomy, but these observations have not been corrobo
135 e last year, numerous robot-assisted radical cystectomy case series with larger cohorts have been pub
136 approach the yield seen at high-volume open cystectomy centers, but a larger proportion of robotic l
137 c survival compared with the high-expression cystectomy cohort (69.9% versus 53.8% 3-year CSS, P = 0.
140 1.21; 95% CI, 1.10 to 1.32) compared with no cystectomy, controlling for patient and disease characte
143 zed trial comparing open and robotic radical cystectomy demonstrated equivalent lymph node yields.
144 affect treatment as feasibility for radical cystectomy depends on staging by a combination of clinic
146 ) after six cancer surgeries (prostatectomy, cystectomy, esophagectomy, pancreatectomy, pneumonectomy
147 nd variant histology should be offered early cystectomy, especially if harboring pure squamous, adeno
148 n be considered as an alternative to radical cystectomy, especially in elderly patients not well suit
149 th lymph node-positive disease after radical cystectomy, even in the context of adjuvant chemotherapy
151 ive chemotherapy followed by cystectomy, and cystectomy followed by adjuvant chemotherapy was 14% (95
152 otherapy, or, alternatively, to have initial cystectomy followed by five cycles of adjuvant chemother
153 bilateral pelvic lymphadenectomy and radical cystectomy for bladder cancer (median follow-up, 101 mon
154 spective study of 958 patients who underwent cystectomy for bladder cancer between 1984 and 2003.
155 ed quality of life (HRQOL) following radical cystectomy for bladder cancer is an important outcome me
157 uggests that all patients undergoing radical cystectomy for bladder cancer should undergo concomitant
159 gastrectomy, colectomy, lung resection, and cystectomy for cancer from 2003 through 2007 were studie
160 glucose (FDG) in patients undergoing radical cystectomy for cT2-3N0M0 urothelial carcinoma of the bla
161 c splenic procedures were performed: splenic cystectomy for epithelial (4) or traumatic (2) cyst, and
162 and overall survival in patients who undergo cystectomy for invasive bladder cancer and are node-nega
169 had no residual disease than patients in the cystectomy group (38 percent vs. 15 percent, P<0.001).
172 dissection performed at the time of radical cystectomy has an ability to improve locoregional diseas
173 eutic role of lymphadenectomy during radical cystectomy has become apparent and recent work has attem
177 adiation therapy, chemotherapy) with salvage cystectomy, if necessary, can achieve survival rates sim
179 tein expression to predict outcome following cystectomy in 257 patients enrolled in two independent c
180 otherapy may be offered as an alternative to cystectomy in appropriately selected patients with MIBC
182 an achieve similar lymph node counts as open cystectomy in experienced hands and with careful patient
183 lso help define selection criteria for early cystectomy in HGT1 bladder cancer, particularly for pati
186 based combination chemotherapy after radical cystectomy in patients with pT3-pT4 or N+ M0 urothelial
187 Ten-year survival can still be achieved with cystectomy in the face of grossly positive lymph nodes i
188 f approximately 70% of the bladder (subtotal cystectomy) in 12-week-old female rats induced complete
190 xorubicin, and cisplatin followed by radical cystectomy increases the likelihood of eliminating resid
191 are limited data on robotic assisted radical cystectomy, initial reports suggest that an appropriate
192 lymph node dissection at the time of radical cystectomy is a crucial component of the surgical manage
199 invasive radical cystectomy and open radical cystectomy is needed to define the role of these modalit
201 finements in technique, laparoscopic radical cystectomy is now being performed at many centers worldw
202 most important predictor of recurrence after cystectomy is pathologically positive nodes, our aim was
205 sus adjuvant chemotherapy around the time of cystectomy is still debated, though the best level-one e
211 it is superseding pure laparoscopic radical cystectomy (LRC) at centers, where robot is available an
212 as unrelated to mortality for esophagectomy, cystectomy, lung resection, aortic valve replacement, or
214 15 (38%; 95% CI, 23% to 53%) showing pT0 at cystectomy, meeting the primary end point of the study.
216 For patients unwilling or unable to undergo cystectomy, numerous local therapies exist, although few
218 or burden, defined as the receipt of radical cystectomy or >/= 50 Gy of radiation therapy delivered t
220 cancer, 151 were treated by standard radical cystectomy or by definitive TUR, if restaging TUR of the
222 viewed as state of the art, as compared with cystectomy or radiotherapy alone, for deeply invasive bl
226 ancer outcome in patients undergoing radical cystectomy, p53 is the strongest predictor, followed by
227 rysm repair, carotid endarterectomy, radical cystectomy, pancreatic resection, and esophagectomy.
232 ence suggests that outcome is improved after cystectomy performed at high-volume centers and by high-
233 mpare the effectiveness of cystectomy versus cystectomy plus adjuvant chemotherapy in real-world pati
234 ladder neck contracture postprostatectomy or cystectomy presents a reconstructive challenge combined
235 tered markers in patients treated by radical cystectomy provides prognostic information that could he
236 ples for technique of robot-assisted radical cystectomy (RARC) based on current peer reviewed literat
238 and current status of robot-assisted radical cystectomy (RARC) with pelvic lymphadenectomy (PLND) and
241 cancer-related surgical procedures (radical cystectomy [RC], radical nephrectomy [RN], and radical p
242 oncologic outcomes with laparoscopic radical cystectomy remain undefined, and appropriate lymph node
244 gement guidelines are less clear and radical cystectomy remains the mainstay of treatment at this tim
246 ion of high-risk superficial bladder cancer, cystectomy remains the standard of care for the patient
248 eumonectomy, 2 to 5 percent for gastrectomy, cystectomy, repair of a nonruptured abdominal aneurysm,
252 ed immunohistochemically on archival radical cystectomy samples from 164 patients with invasive or hi
255 oncologic outcome data, laparoscopic radical cystectomy should be considered an investigative techniq
256 s than a T0 response but medically unfit for cystectomy (six patients), received consolidative chemor
257 lihood of eliminating residual cancer in the cystectomy specimen and is associated with improved surv
259 perimposed histologic and genetic mapping in cystectomy specimens and was verified in urinary bladder
260 16 were performed on 234 DNA samples of five cystectomy specimens from patients with invasive bladder
264 long-term DSS comparable to modern immediate cystectomy studies, for patients with similarly staged M
267 early aggressive intervention (i.e., radical cystectomy), then treatment recommendations should refle
269 s ratio (OR) of 1.3 (95% CI, 0.8 to 2.3) for cystectomy to 4.9 (95% CI, 2.4 to 10.1) for pancreatecto
271 current experience with laparoscopic radical cystectomy to identify its role in oncological bladder s
273 p, we sought to compare the effectiveness of cystectomy versus cystectomy plus adjuvant chemotherapy
289 s regarding the clinical benefits of radical cystectomy with extended lymphadenectomy, and will also
290 urvival rates in patients undergoing radical cystectomy with extended PLND, even in cases of patholog
292 ents with invasive bladder cancer treated by cystectomy with monoclonal antibodies against the Mr 72,
293 ncer, multimodal treatment involving radical cystectomy with neoadjuvant chemotherapy offers the best
295 neoadjuvant chemotherapy followed by radical cystectomy with pelvic lymph node dissection, which disc
296 the current status of robot-assisted radical cystectomy with pelvic lymphadenectomy and urinary diver
299 cystectomy; all others (n = 43) proceeded to cystectomy within 8 weeks after last chemotherapy admini
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