ログイン
ランキング
お知らせ
ログイン
文献詳細
綜説
文献概要
要旨
近年のロボット支援下手術の普及に伴い,高解像度3D画像,多自由度鉗子を用いた鏡視下手術の特性を活かした小径腎細胞癌に対する低侵襲手術としてRAPNが行われるようになり,本邦でも2016年4月の保険収載後にきわめて急速に普及しつつある.RAPNにおける短期手術成績,腎機能保持や腫瘍制御などについて従来の腹腔鏡下腎部分切除術のそれと比較することで現況でのRAPNの有用性を明らかにし,さらにロボット手術の特性を活かした今後の発展と留意点を概説する.
近年のロボット支援下手術の普及に伴い,高解像度3D画像,多自由度鉗子を用いた鏡視下手術の特性を活かした小径腎細胞癌に対する低侵襲手術としてRAPNが行われるようになり,本邦でも2016年4月の保険収載後にきわめて急速に普及しつつある.RAPNにおける短期手術成績,腎機能保持や腫瘍制御などについて従来の腹腔鏡下腎部分切除術のそれと比較することで現況でのRAPNの有用性を明らかにし,さらにロボット手術の特性を活かした今後の発展と留意点を概説する.
参考文献
1) MacLennan S, Imamura M, Lapitan MC, et al : Systematic review of oncological outcomes following surgical management of localised renal cancer. Eur Urol 61 : 972─993, 2012
2) Forbes CM, Rendon RA, Finelli A, et al : Disease progression and kidney function after partial vs. radical nephrectomy for T1 renal cancer. Urol Oncol 34 : e17─e23, 2016
3) Van Poppel H, Da Pozzo L, Albrecht W, et al : A prospective, randomised EORTC intergroup phase 3 study comparing the oncologic outcome of elective nephron-sparing surgery and radical nephrectomy for low-stage renal cell carcinoma. Eur Urol 59 : 543─552, 2011
4) Weight CJ, Larson BT, Fergany AF, et al : Nephrectomy induced chronic renal insufficiency is associated with increased risk of cardiovascular death and death from any cause in patients with localized cT1b renal masses. J Urol 183 : 1317─1323, 2010
5) Huang WC, Elkin EB, Levey AS, et al : Partial nephrectomy versus radical nephrectomy in patients with small renal tumors--is there a difference in mortality and cardiovascular outcomes? J Urol 181 : 55─61, 2009
6) Gill IS, Aron M, Gervais DA, et al : Clinical practice. Small renal mass. N Engl J Med 362 : 624─634, 2010
7) Ljungberg B, Bensalah K, Canfield S, et al : EAU guidelines on renal cell carcinoma : 2014 update. Eur Urol 67 : 913─924, 2015
8) Scosyrev E, Messing EM, Sylvester R, et al : Renal function after nephron-sparing surgery versus radical nephrectomy : Results from EORTC randomized trial 30904. Eur Urol 65 : 372─377, 2014
9) Hung AJ, Cai J, Simmons MN, et al : “Trifecta” in partial nephrectomy. J Urol 189 : 36─42, 2013
10) Pierorazio PM, Patel HD, Feng T, et al : Robotic-assisted versus traditional laparoscopic partial nephrectomy : Comparison of outcomes and evaluation of learning curve. Urology 78 : 813─819, 2011
11) Aboumarzouk OM, Stein RJ, Eyraud R, et al : Robotic versus laparoscopic partial nephrectomy : a systematic review and meta-analysis. Eur Urol 62 : 1023─1033, 2012
12) Gettman MT, Blute ML, Chow GK, et al : Robotic-assisted laparoscopic partial nephrectomy : technique and initial clinical experience with DaVinci robotic system. Urology 64 : 914─918, 2004
13) Leow JJ, Heah NH, Chang SL, et al : Outcomes of Robotic versus Laparoscopic Partial Nephrectomy : an Updated Meta-Analysis of 4,919 Patients. J Urol 196 : 1371─1377, 2016
14) Choi JE, You JH, Kim DK, et al : Comparison of perioperative outcomes between robotic and laparoscopic partial nephrectomy : A systematic review and meta-analysis. Eur Urol 67 : 891─901, 2015
15) Thompson RH, Lane BR, Lohse CM, et al : Every minute counts when the renal hilum is clamped during partial nephrectomy. Eur Urol 58 : 340─345, 2010
16) Rod X, Peyronnet B, Seisen T, et al : Impact of ischaemia time on renal function after partial nephrectomy : A systematic review. BJU Int 118 : 692─705, 2016
17) Lane BR, Russo P, Uzzo RG, et al : Comparison of cold and warm ischemia during partial nephrectomy in 660 solitary kidneys reveals predominant role of nonmodifiable factors in determining ultimate renal function. J Urol 185 : 421─427, 2011
18) Thompson RH, Lane BR, Lohse CM, et al : Renal function after partial nephrectomy : effect of warm ischemia relative to quantity and quality of preserved kidney. Urology 79 : 356─360, 2012
19) Wallis CJ, Garbens A, Chopra S, et al : Robotic Partial Nephrectomy : Expanding Utilization, Advancing Innovation. J Endourol 31 : 348─354, 2017
20) Wang Y, Ma X, Huang Q, et al : Comparison of robot-assisted and laparoscopic partial nephrectomy for complex renal tumours with a RENAL nephrometry score ≥7 : Peri-operative and oncological outcomes. BJU Int 117 : 126─130, 2016
21) Wang Y, Shao J, Ma X, et al : Robotic and open partial nephrectomy for complex renal tumors : a matched-pair comparison with a long-term follow-up. World J Urol 35 : 73─80, 2017
22) Andrade HS, Zargar H, Caputo PA, et al : Five-year Oncologic Outcomes after Transperitoneal Robotic Partial Nephrectomy for Renal Cell Carcinoma. Eur Urol 69 : 1149─1154, 2016
23) Ramsay C, Pickard R, Close A, et al : Systematic review and economic modelling of the relative clinical benefit and cost-effectiveness of laparoscopic surgery and robotic surgery for removal of the prostate in men with localised prostate cancer. Health Technol Assess 16 : 1─313, 2012
24) Close A, Robertson C, Rushton S, et al : Comparative cost-effectiveness of robot-assisted and standard laparoscopic prostatectomy as alternatives to open radical prostatectomy for treatment of men with localised prostate cancer : a health technology assessment from the perspective of the UK National Health Service. Eur Urol 64 : 361─369, 2013
25) Hughes D, Camp C, O'Hara J, et al : Health resource use after robot-assisted surgery vs open and conventional laparoscopic techniques in oncology : analysis of English secondary care data for radical prostatectomy and partial nephrectomy. BJU Int 117 : 940─947, 2016
26) Laydner H, Isac W, Autorino R, et al : Single institutional cost analysis of 325 robotic, laparoscopic, and open partial nephrectomies. Urology 81 : 533─538, 2013
27) Abaza R and Angell J : Robotic partial nephrectomy for renal cell carcinomas with venous tumor thrombus. Urology 81 : 1362─1367, 2013
28) Metwalli AR and Linehan WM : Nephron-sparing surgery for multifocal and hereditary renal tumors. Curr Opin Urol 24 : 466─473, 2014
29) Autorino R, Khalifeh A, Laydner H, et al : Repeat robot-assisted partial nephrectomy (RAPN) : feasibility and early outcomes. BJU Int 111 : 767─772, 2013
30) Gorin MA, Gorbatiy V, Glenn C, et al : Salvage robot-assisted partial nephrectomy for the management of renal cell carcinoma following failed stereotactic radiotherapy. JSLS 16 : 159─162, 2012
31) Peyronnet B, Baumert H, Mathieu R, et al : Early unclamping technique during robot-assisted laparoscopic partial nephrectomy can minimise warm ischaemia without increasing morbidity. BJU Int 114 : 741─747, 2014
32) Stonier T, Rai BP, Trimboli M, et al : Early vs. standard unclamping technique in minimal access partial nephrectomy : a meta-analysis of observational cohort studies and the Lister cohort. J Robot Surg 11 : 389─398, 2017
33) Akca O, Zargar H, Attalla K, et al : Possible Detrimental Effects of Clamping Main Versus Segmental Renal Arteries for the Achievement of Renal Global Ischemia During Robot-Assisted Partial Nephrectomy. J Endourol 29 : 785─790, 2015
34) Meccariello G, Faedi F, AlGhamdi S, et al : An experimental study about haptic feedback in robotic surgery : may visual feedback substitute tactile feedback? J Robot Surg 10 : 57─61, 2016
35) Andonian S, Okeke Z, Okeke DA, et al : Device failures associated with patient injuries during robot-assisted laparoscopic surgeries : a comprehensive review of FDA MAUDE database. Can J Urol 15 : 3912─3916, 2008
36) Kim WT, Ham WS, Jeong W, et al : Failure and malfunction of da Vinci Surgical systems during various robotic surgeries : experience from six departments at a single institute. Urology 74 : 1234─1237, 2009
掲載誌情報
