Identification of predictive factors for outcomes after robot-assisted partial nephrectomy based on three-dimensional reconstruction of preoperative enhanced computerized tomography

Background Information from the RENAL score is limited. This study aimed to identify new parameters based on three-dimensional (3D) reconstruction of preoperative enhanced computerized tomography (CT) for predicting outcomes after robot-assisted partial nephrectomy (RPN). Materials and methods The records of kidney cancer patients who underwent RPN at Tongji Hospital from March 2015 to July 2019 were reviewed. Demographic data, laboratory examinations, postoperative hospitalization time, and enhanced CT were retrospectively collected. Some tumor parameters were obtained from 3D reconstruction of CT data. The association between these predictive factors and outcomes after RPN was analyzed. Results A larger tumor bed area (TBA) was associated with a longer warm ischemia time (WIT) (P-value <0.001) and tumor resection time (P-value <0.001). Moreover, TBA was significantly associated with the elevation of postoperative creatinine (P-value = 0.005). TBA (P = 0.008), distance from the tumor to the first bifurcation of the renal artery (DTA) (P <0.034), and RENAL score (P = 0.005) were significantly associated with WIT in univariate logistic regression. In multivariate logistic regression, TBA (P = 0.026) and DTA (P = 0.048) were independent risk factors for prolonged WIT (over 25 min). The predictive effect of the combination of TBA, DTA, and RENAL score was higher than the predictive effect of RENAL score alone for WIT (area under curve: 0.786 versus 0.72). Conclusion TBA and DTA are independently associated with the WIT of RPN, which provides additional assessment value for the complexity of kidney cancer in RPN over the RENAL score.

[1]  X. Cathelineau,et al.  Robotic-Assisted Partial Nephrectomy: Techniques to Improve Clinical Outcomes , 2021, Current Urology Reports.

[2]  U. Capitanio,et al.  Renal cancer: overdiagnosis and overtreatment , 2021, World Journal of Urology.

[3]  Z. Ye,et al.  Comparison of the oncological, perioperative and functional outcomes of partial nephrectomy versus radical nephrectomy for clinical T1b renal cell carcinoma: A systematic review and meta-analysis of retrospective studies , 2019, Asian journal of urology.

[4]  M. Djalali,et al.  Risk factors for mortality of adult inpatients with Coronavirus disease 2019 (COVID-19): a systematic review and meta-analysis of retrospective studies , 2020, medRxiv.

[5]  G. Cardone,et al.  ABLATE: a score to predict complications and recurrence rate in percutaneous treatments of renal lesions , 2020, Medical Oncology.

[6]  R. Autorino,et al.  Predictive Value of Nephrometry Scores in Nephron-sparing Surgery: A Systematic Review and Meta-analysis. , 2019, European urology focus.

[7]  J. Porter,et al.  Robotic-assisted partial nephrectomy: evolving techniques and expanding considerations. , 2019, Current opinion in urology.

[8]  H. Honda,et al.  Usefulness of a Pretreatment CT-Based Modified RENAL Nephrometry Score in Predicting Renal Function After Cryotherapy for T1a Renal Mass , 2019, CardioVascular and Interventional Radiology.

[9]  Choung-Soo Kim,et al.  Robot‐assisted partial nephrectomy is associated with early recovery of renal function: Comparison of open, laparoscopic, and robot‐assisted partial nephrectomy using DTPA renal scintigraphy , 2019, Journal of surgical oncology.

[10]  F. Bray,et al.  Epidemiology of Renal Cell Carcinoma. , 2019, European urology.

[11]  C. Fiori,et al.  Robot-assisted Partial Nephrectomy for Complex (PADUA Score ≥10) Tumors: Techniques and Results from a Multicenter Experience at Four High-volume Centers. , 2019, European urology.

[12]  Zhixian Wang,et al.  Will the kidney function be reduced in patients with renal cell carcinoma following laparoscopic partial nephrectomy? Baseline eGFR, warm ischemia time, and RENAL nephrometry score could tell. , 2018, Urologic oncology.

[13]  C. Boshoff,et al.  Kidney cancer: The next decade , 2018, The Journal of experimental medicine.

[14]  J. Kaouk,et al.  Outcomes of Robot-assisted Partial Nephrectomy for Clinical T2 Renal Tumors: A Multicenter Analysis (ROSULA Collaborative Group). , 2018, European urology.

[15]  R. Abaza,et al.  Reevaluating Warm Ischemia Time as a Predictor of Renal Function Outcomes After Robotic Partial Nephrectomy. , 2018, Urology.

[16]  S. Park Nomogram: An analogue tool to deliver digital knowledge. , 2018, The Journal of thoracic and cardiovascular surgery.

[17]  Jeffrey A. Cadeddu,et al.  Adult Urology Oncology : Adrenal / Renal / Upper Tract / Bladder lized Renal Cancer : AUA Guideline , 2017 .

[18]  S. Campbell,et al.  Renal Ischemia and Functional Outcomes Following Partial Nephrectomy. , 2017, The Urologic clinics of North America.

[19]  I. Gill,et al.  Robotic Partial Nephrectomy: Expanding Utilization, Advancing Innovation. , 2017, Journal of endourology.

[20]  J. Budjan,et al.  Defining Renal Masses: Comprehensive Comparison of RENAL, PADUA, NePhRO, and C‐Index Score , 2017, Clinical genitourinary cancer.

[21]  K. Bensalah,et al.  Impact of ischaemia time on renal function after partial nephrectomy: a systematic review , 2016, BJU international.

[22]  T. Ichihara,et al.  Robot‐assisted partial nephrectomy: Superiority over laparoscopic partial nephrectomy , 2016, International journal of urology : official journal of the Japanese Urological Association.

[23]  A. Guermazi,et al.  Results from a Population-based Cohort Study Detect Early Onset and Progression of Articular Cartilage Degeneration : Ability of a Urine Assay of Type II Collagen Cleavage by Collagenases to , 2016 .

[24]  R. Thompson,et al.  Renal Ischemia and Function After Partial Nephrectomy: A Collaborative Review of the Literature. , 2015, European urology.

[25]  Y. Funahashi,et al.  Comparison of warm and cold ischemia on renal function after partial nephrectomy. , 2014, Urology.

[26]  C. Gross,et al.  Association of type of renal surgery and access to robotic technology for kidney cancer: results from a population‐based cohort , 2014, BJU international.

[27]  R. Parker,et al.  Prediction of complications after partial nephrectomy by RENAL nephrometry score. , 2014, Annals of the Royal College of Surgeons of England.

[28]  K. Bensalah,et al.  Are warm ischemia and ischemia time still predictive factors of poor renal function after partial nephrectomy in the setting of elective indication? , 2014, World Journal of Urology.

[29]  T. Kawasaki,et al.  The RENAL Nephrometry Score and the PADUA Classification for the Prediction of Perioperative Outcomes in Patients Receiving Nephron-Sparing Surgery: Feasible Tools to Predict Intraoperative Conversion to Nephrectomy , 2013, Urologia Internationalis.

[30]  J. Kaouk,et al.  Parenchymal volume preservation and ischemia during partial nephrectomy: functional and volumetric analysis. , 2013, Urology.

[31]  Morten W Fagerland,et al.  A goodness‐of‐fit test for the proportional odds regression model , 2013, Statistics in medicine.

[32]  P. Pierorazio,et al.  Trends in renal surgery: robotic technology is associated with increased use of partial nephrectomy. , 2013, The Journal of urology.

[33]  I. Derweesh,et al.  RENAL nephrometry score is associated with operative approach for partial nephrectomy and urine leak. , 2012, Urology.

[34]  D. Park,et al.  Prognostic significance of preoperative kidney volume for predicting renal function in renal cell carcinoma patients receiving a radical or partial nephrectomy , 2012, BJU international.

[35]  E. Mohammadi,et al.  Barriers and facilitators related to the implementation of a physiological track and trigger system: A systematic review of the qualitative evidence , 2017, International journal for quality in health care : journal of the International Society for Quality in Health Care.

[36]  H. L. Kim,et al.  RENAL nephrometry score predicts surgical outcomes of laparoscopic partial nephrectomy , 2011, BJU international.

[37]  S. Horenblas,et al.  Critical appraisal of the PADUA classification and assessment of the R.E.N.A.L. nephrometry score in patients undergoing partial nephrectomy. , 2011, The Journal of urology.

[38]  Paul Russo,et al.  Commentary on The R.E.N.A.L. nephrometry score: A comprehensive standardized system for quantitating renal tumor size, location and depth , 2010 .

[39]  Walter Artibani,et al.  Preoperative aspects and dimensions used for an anatomical (PADUA) classification of renal tumours in patients who are candidates for nephron-sparing surgery. , 2009, European urology.

[40]  Robert G Uzzo,et al.  The R.E.N.A.L. nephrometry score: a comprehensive standardized system for quantitating renal tumor size, location and depth. , 2009, The Journal of urology.

[41]  M. Napoli Overdiagnosis and overtreatment. , 2001, The American journal of nursing.

[42]  R Rowden,et al.  The next decade. , 1993, Nursing times.