Objective Measures of Renal Mass Anatomic Complexity Predict Rates of Major Complications Following Partial Nephrectomy

Objective Measures of Renal Mass Anatomic Complexity Predict Rates of Major Complications Following Partial Nephrectomy

Abstract Background The association between tumor complexity and postoperative complications after partial nephrectomy (PN) has not been well characterized. Objective We evaluated whether increasing renal tumor complexity, quantitated by nephrometry score (NS), is associated with increased complicat...

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Bibliographic Details
Published in:European urology Vol. 60; no. 4; pp. 724 - 730
Main Authors: Simhan, Jay, Smaldone, Marc C, Tsai, Kevin J, Canter, Daniel J, Li, Tianyu, Kutikov, Alexander, Viterbo, Rosalia, Chen, David Y.T, Greenberg, Richard E, Uzzo, Robert G
Format: Journal Article
Language:English
Published: Kidlington Elsevier B.V 01-10-2011
Elsevier
Subjects:
Aged
Biological and medical sciences
Complications
Female
Humans
Kidney - anatomy & histology
Kidney - surgery
Male
Medical sciences
Middle Aged
Nephrectomy - methods
Nephrectomy - statistics & numerical data
Nephrology. Urinary tract diseases
Nephrometry
Partial nephrectomy
Postoperative Complications - epidemiology
Retrospective Studies
Treatment Outcome
Urology
Partial nephrectomy
Nephrometry
Complications
Nephrology
Rate
Anatomy
Kidney
Urology
Mass
Treatment
Urinary system
Nephrectomy
Partial
Surgery
Complication
Predictive factor
Quantitative analysis
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Summary:Abstract Background The association between tumor complexity and postoperative complications after partial nephrectomy (PN) has not been well characterized. Objective We evaluated whether increasing renal tumor complexity, quantitated by nephrometry score (NS), is associated with increased complication rates following PN using the Clavien-Dindo classification system (CCS). Design, setting, and participants We queried our prospectively maintained kidney cancer database for patients undergoing PN from 2007 to 2010 for whom NS was available. Interventions All patients underwent PN. Measurements Tumors were categorized into low- (NS: 4–6), moderate- (NS: 7–9), and high-complexity (NS: 10–12) lesions. Complication rates within 30 d were graded (CCS: I–5), stratified as minor (CCS: I or 2) or major (CCS: 3–5), and compared between groups. Results and limitations A total of 390 patients (mean age: 58.0 ± 11.9 yr; 66.9% male) undergoing PN (44.6% open, 55.4% robotic) for low- (28%), moderate- (55.6%), and high-complexity (16.4%) tumors (mean tumor size: 3.74 ± 2.4 cm; median: 3.2 cm) from 2007 to 2010 were identified. Tumor size, estimated blood loss, and ischemia time all significantly differed ( p < 0.0001) between groups; patient age, body mass index (BMI), and operative time were comparable. When stratified by CCS, minor and major complication rates for all patients were 26.7% and 11.5%, respectively. Minor complication rates were comparable (26.6 vs 24.9 vs 32.8%; p = 0.45), whereas major complication rates differed (6.4 vs 11.1 vs 21.9%; p = 0.009) among tumor complexity groups. Controlling for age, gender, BMI, type of surgical approach, operative duration, and tumor complexity, prolonged operative time (odds ratio [OR]: 1.01; confidence interval [CI], 1.0–1.02) and high tumor complexity (OR: 5.4; CI, 1.2–24.2) were associated with the postoperative development of a major complication. Lack of external validation is a limitation of this study. Conclusions Increasing tumor complexity is associated with the development of major complications after PN. This association should be validated externally and integrated into the decision-making process when counseling patients with complex renal tumors.
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ISSN:0302-2838
1873-7560
DOI:10.1016/j.eururo.2011.05.030