ライフサイエンスコーパス: urinary diversion

1 effective alternative to open cystectomy and urinary diversion.

2 rtant aspect of outcome assessment following urinary diversion.

3 , negative surgical margins, and a continent urinary diversion.

4 the reconstructive procedures necessary for urinary diversion.

5 0 patients, of whom 4,878 had cystectomy and urinary diversion.

6 year, particularly with respect to continent urinary diversion.

7 f failed urethral repair requiring permanent urinary diversion.

8 ars undergoing elective open cystectomy with urinary diversion.

9 apy followed by open radical cystectomy with urinary diversion.

10 ove urinary function in women with continent urinary diversions.

11 nce of a fistula after reversal of fecal and urinary diversions.

12 ontaneously, 40 catheterize to empty, 4 have urinary diversion, 1 has a continent diversion, 5 patien

13 s associated with laparoscopically performed urinary diversions also remain undefined.

14 r patients undergoing radical cystectomy and urinary diversion and describe our unique protocol.

15 towards safe incorporation of intracorporeal urinary diversion and its evolution are presented.

16 ng SSIs within 90 days after cystectomy with urinary diversion and may contribute to antibiotic stewa

17 of which factor into decision-making around urinary diversion and urethrectomy.

18 ertain subpopulations of children undergoing urinary diversion and/or enterocystoplasty.

19 oad overview of the major types of continent urinary diversions and to review recent literature exami

20 Robot-assisted radical cystectomy with urinary diversion appears to be growing steadily in acad

21 ed whether radical cystectomy and intestinal urinary diversion are associated with increased risk of

22 adder cancer who have radical cystectomy and urinary diversion are at increased risk of fracture.

23 Urinary diversions are most commonly performed extracorp

24 cal cystoprostatectomy, and several types of urinary diversions are offered to patients, with quality

25 rrence may in fact be lower after orthotopic urinary diversion, but the evidence for this and other r

26 in these patients is radical cystectomy with urinary diversion, but this approach is associated with

27 ion was performed on an enterocystoplasty or urinary diversions compared with a native bladder, provi

28 f RARC with extracorporeal reconstruction of urinary diversion (ECUD) looks optimistic as favored by

29 Even though enterocystoplasty and continent urinary diversions exposed grafts to more frequent acute

30 Enterocystoplasty and continent urinary diversions exposed grafts to more frequent acute

31 rding choosing between conduit and continent urinary diversions following bladder removal.

32 omy), bladder cancer (radical cystectomy and urinary diversion for muscle invasive bladder cancer), k

33 l cystectomy with pelvic lymphadenectomy and urinary diversion for the treatment of bladder cancer.

34 RARC) with pelvic lymphadenectomy (PLND) and urinary diversion for the treatment of bladder cancer.

35 Radiologic evaluation of urinary diversion has three objectives: to monitor upper

36 24 hours or less of PAP for cystectomy with urinary diversion; however, evidence specifying optimal

37 adical cystectomy (RARC) with intracorporeal urinary diversion (ICUD) in an effort to improve surgica

38 despread popularity as the preferred mode of urinary diversion in both males and females with similar

39 isted radical cystectomy with intracorporeal urinary diversion (iRARC) when compared with open radica

40 erstanding HRQOL issues related to continent urinary diversion is crucial in the care and counseling

41 Urinary diversion is currently usually performed extraco

42 In a majority of these case series, the urinary diversion is performed extracorporeally due to i

43 Intracorporeal urinary diversion is the next challenge on the horizon w

44 h node dissection and an appropriate form of urinary diversion is the standard treatment for muscle-i

45 Radical cystectomy and urinary diversion may cause chronic metabolic acidosis,

46 The type of urinary diversion may in fact influence disease recurren

47 er recovery in patients undergoing continent urinary diversion (mean HGS at 3 months, 31.3 [95% CI, 2

48 7.3] at baseline; P = .09) than noncontinent urinary diversion (mean HGS at 6 months, 27.4 [95% CI, 2

49 in patients with continent and noncontinent urinary diversions, more specific comparisons of urinary

50 bladder augmentation (n=4), and supravesical urinary diversion (n=2).

51 e in centers with laparoscopy, the effect of urinary diversion on quality of life, and the optimal st

52 a on new modalities of therapy to help avoid urinary diversion or bladder augmentation.

53 gressive therapy with radical cystectomy and urinary diversion or trimodal therapy with maximal endos

54 rmittent self-catheterization, ileal conduit urinary diversion, or avoidance of transplantation and r

55 s to be a recent trend toward performing the urinary diversion portion of the procedure extracorporea

56 Stones in patients with urinary diversions present unique challenges.

57 n important component of counseling prior to urinary diversion procedures, the decision-making proces

58 The role of continent urinary diversion requires reassessment.

59 tcomes associated with conduit and continent urinary diversion, review the evidence (or lack thereof)

60 transplanted into reconstructed bladders or urinary diversions, the graft and patient survival rates

61 A few decades ago, urinary diversion, usually with an ileal conduit, was th

62 isted radical cystectomy with intracorporeal urinary diversion vs open radical cystectomy resulted in

63 Urinary diversions with RARC are performed extracorporea