Journal of Peking University(Health Sciences) >
利群 周 , 纯如 徐 . [J]. Journal of Peking University(Health Sciences), 2022 , 54(4) : 587 -591 . DOI: 10.19723/j.issn.1671-167X.2022.04.001
| 1 | Arora S , Rogers C . Partial nephrectomy in central renal tumors[J]. J Endourol, 2018, 32 (S1): S63- S67. |
| 2 | Gu L , Liu K , Shen D , et al. Comparison of robot-assisted and laparoscopic partial nephrectomy for completely endophytic renal tumors: A high-volume center experience[J]. J Endourol, 2020, 34 (5): 581- 587. |
| 3 | Hinata N , Shiroki R , Tanabe K , et al. Robot-assisted partial nephrectomy versus standard laparoscopic partial nephrectomy for renal hilar tumor: A prospective multi-institutional study[J]. Int J Urol, 2021, 28 (4): 382- 389. |
| 4 | Lattouf JB , Beri A , D'Ambros OF , et al. Laparoscopic partial nephrectomy for hilar tumors: Technique and results[J]. Eur Urol, 2008, 54 (2): 409- 416. |
| 5 | 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[J]. Eur Urol, 2011, 59 (4): 543- 552. |
| 6 | Kutikov A , Uzzo RG . The R.E.N.A.L. nephrometry score: A comprehensive standardized system for quantitating renal tumor size, location and depth[J]. J Urol, 2009, 182 (3): 844- 853. |
| 7 | Ficarra V , Novara G , Secco S , et al. Preoperative aspects and dimensions used for an anatomical (PADUA) classification of renal tumours in patients who are candidates for nephron-sparing surgery[J]. Euro Urol, 2009, 56 (5): 786- 793. |
| 8 | Zhang ZY , Pan X , Fan Y , et al. DDD score for renal tumor: An intuitive and comprehensive anatomical scoring system to access the outcomes of retroperitoneal laparoscopic partial nephrectomy[J]. Int J Urol, 2019, 26 (4): 451- 456. |
| 9 | Hu C , Sun J , Zhang Z , et al. Parallel comparison of R.E.N.A.L., PADUA, and C-index scoring systems in predicting outcomes after partial nephrectomy: A systematic review and meta-analysis[J]. Cancer Med, 2021, 10 (15): 5062- 5077. |
| 10 | Tobert CM , Shoemaker A , Kahnoski RJ , et al. Critical appraisal of first-generation renal tumor complexity scoring systems: Creation of a second-generation model of tumor complexity[J]. Urol Oncol, 2015, 33 (4): 167. |
| 11 | Novick AC . Nephron-sparing surgery for renal cell carcinoma[J]. Annu Rev Med, 2002, 53, 393- 407. |
| 12 | Warmann SW , Fuchs J . Technical aspects of nephron-sparing surgery (NSS) in children with bilateral centrally located renal tumors[J]. Semin Pediatr Surg, 2019, 28 (6): 150865. |
| 13 | Dong D , Ji Z , Li H , et al. Laparoscopic nephron sparing surgery assisted with laparoscopic ultrasonography on centrally located renal tumor: Single center experience[J]. Urol Int, 2016, 97 (2): 195- 199. |
| 14 | Xu B , Zhang Q , Jin J . Laparoscopic aspiration for central renal angiomyolipoma: A novel technique based on single-center initial experience[J]. Urology, 2013, 81 (2): 313- 318. |
| 15 | 李新飞, 彭意吉, 余霄腾, 等. 肾部分切除术前CT三维可视化评估标准的初步探究[J]. 北京大学学报(医学版), 2021, 53 (3): 613- 622. |
| 16 | Wang F , Zhang C , Guo F , et al. Navigation of intelligent/interactive qualitative and quantitative analysis three-dimensional reconstruction technique in laparoscopic or robotic assisted partial nephrectomy for renal hilar tumors[J]. J Endourol, 2019, 33 (8): 641- 646. |
| 17 | Arora S , Abaza R , Adshead JM , et al. "Trifecta" outcomes of robot-assisted partial nephrectomy in solitary kidney: A vattikuti collective quality initiative (VCQI) database analysis[J]. BJU Int, 2018, 121 (1): 119- 123. |
| 18 | Yang C , Wang Z , Huang S , et al. Retroperitoneal laparoscopic partial nephrectomy versus radical nephrectomy for clinical T1 renal hilar tumor: Comparison of perioperative characteristics and short-term functional and oncologic outcomes[J]. J Laparoendosc Adv Surg Tech A, 2018, 28 (10): 1183- 1187. |
| 19 | Frank I , Colombo JR, Jr. , Rubinstein M , et al. Laparoscopic partial nephrectomy for centrally located renal tumors[J]. J Urol, 2006, 175 (3 Pt 1): 849- 852. |
| 20 | George AK , Herati AS , Rais-Bahrami S , et al. Laparoscopic partial nephrectomy for hilar tumors: Oncologic and renal functional outcomes[J]. Urology, 2014, 83 (1): 111- 115. |
| 21 | Lu SY , Chung HJ , Huang EY , et al. The perioperative outcomes between renal hilar and non-hilar tumors following robotic-assisted partial nephrectomy (RAPN)[J]. J Chin Med Assoc, 2018, 81 (8): 676- 681. |
| 22 | Shim M , Song C , Park S , et al. Hilar location is an independent prognostic factor for recurrence in T1 renal cell carcinoma after nephrectomy[J]. Ann Surg Oncol, 2015, 22 (1): 344- 350. |
| 23 | Bravi CA , Larcher A , Capitanio U , et al. Perioperative outcomes of open, laparoscopic, and robotic partial nephrectomy: A prospective multicenter observational study (The RECORd 2 Project)[J]. Eur Urol Focus, 2021, 7 (2): 390- 396. |
| 24 | Miyake H , Hinata N , Imai S , et al. Partial nephrectomy for hilar tumors: Comparison of conventional open and robot-assisted approaches[J]. Int J Clin Oncol, 2015, 20 (4): 808- 813. |
| 25 | Sagalovich D , Dagenais J , Bertolo R , et al. Trifecta outcomes in renal hilar tumors: A comparison between robotic and open partial nephrectomy[J]. J Endourol, 2018, 32 (9): 831- 836. |
| 26 | Chen L, Deng W, Luo Y, et al. Comparison of robot-assisted and laparoscopic partial nephrectomy for renal hilar tumors: Results from a tertiary referral center[J]. J Endourol, 2020, doi: 10.1089/end.2020.0151.Epubaheadofprint. |
| 27 | Dai X , Fan S , Hao H , et al. Comparison of KD-SR-01 robotic partial nephrectomy and 3D-laparoscopic partial nephrectomy from an operative and ergonomic perspective: A prospective randomized controlled study in porcine models[J]. Int J Med Robot, 2021, 17 (2): e2187. |
| 28 | 李学松, 樊书菠, 熊盛炜, 等. 国产内窥镜手术机器人系统在肾部分切除术中的初步临床应用[J]. 中华泌尿外科杂志, 2021, 42 (5): 375- 380. |
| 29 | Fan S , Zhang Z , Wang J , et al. Robot-assisted radical prostatectomy using the KangDuo Surgical Robot-01 system: A prospective, single-center, single-arm clinical study[J]. J Urol, 2022, 208 (1): 119- 127. |
| 30 | Wang J , Fan S , Shen C , et al. Partial nephrectomy through retroperitoneal approach with a new surgical robot system, KD-SR-01[J]. Int J Med Robot, 2022, 18 (2): e2352. |
| 31 | Wang Z , Qi L , Yuan P , et al. Application of three-dimensional visualization technology in laparoscopic partial nephrectomy of renal tumor: A comparative study[J]. J Laparoendosc Adv Surg Tech A, 2017, 27 (5): 516- 523. |
| 32 | Shirk JD , Thiel DD , Wallen EM , et al. Effect of 3-dimensional virtual reality models for surgical planning of robotic-assisted partial nephrectomy on surgical outcomes: A randomized clinical trial[J]. JAMA Netw Open, 2019, 2 (9): e1911598. |
| 33 | Shirk JD , Kwan L , Saigal C . The use of 3-dimensional, virtual reality models for surgical planning of robotic partial nephrectomy[J]. Urology, 2019, 125, 92- 97. |
| 34 | von Rundstedt FC , Scovell JM , Agrawal S , et al. Utility of patient-specific silicone renal models for planning and rehearsal of complex tumour resections prior to robot-assisted laparoscopic partial nephrectomy[J]. BJU Int, 2017, 119 (4): 598- 604. |
| 35 | Porpiglia F , Fiori C , Checcucci E , et al. Hyperaccuracy three-dimensional reconstruction is able to maximize the efficacy of selective clamping during robot-assisted partial nephrectomy for complex renal masses[J]. Eur Urol, 2018, 74 (5): 651- 660. |
| 36 | 杨炜, 储传敏, 王磊, 等. IQQA虚拟手术规划技术在个体化腹腔镜肾部分切除手术中的价值探讨[J]. 国际泌尿系统杂志, 2019, 39 (6): 985- 988. |
| 37 | 杨炜, 杨启维, 潘秀武, 等. IQQA虚拟手术规划技术在多发肾肿瘤腹腔镜肾部分切除术中的应用[J]. 现代泌尿外科, 2019, 24 (12): 990- 994. |
| 38 | 吕建敏, 王林辉, 崔心刚, 等. 三维智能定性定量分析系统在双肾肿瘤精准手术规划、模拟及实施中的应用效果分析[J]. 中华泌尿外科杂志, 2019, 40 (5): 356- 360. |
| 39 | 杨悦, 许传亮, 孙颖浩, 等. IQQA三维立体成像导航技术支持下最大限度保留肾门结构的肾门肿瘤腹腔镜下肾部分切除术的初步体会[J]. 中华泌尿外科杂志, 2017, 38 (7): 493- 497. |
| 40 | Teber D , Guven S , Simpfend?rfer T , et al. Augmented reality: A new tool to improve surgical accuracy during laparoscopic partial nephrectomy? Preliminary in vitro and in vivo results[J]. Euro Urol, 2009, 56 (2): 332- 338. |
| 41 | Furukawa J , Miyake H , Tanaka K , et al. Console-integrated real-time three-dimensional image overlay navigation for robot-assisted partial nephrectomy with selective arterial clamping: Early single-centre experience with 17 cases[J]. Int J Med Robot, 2014, 10 (4): 385- 390. |
| 42 | 武鹏, 杨晓剑, 王延柱, 等. 混合现实技术联合达芬奇机器人在完全内生型肾肿瘤行肾部分切除术中的临床应用[J]. 微创泌尿外科杂志, 2018, 7 (4): 225- 229. |
| 43 | Xiong L , Nguyen JK , Peng Y , et al. What happens to the preserved renal parenchyma after clamped partial nephrectomy?[J]. Eur Urol, 2022, 81 (5): 492- 500. |
| 44 | Thompson RH , Lane BR , Lohse CM , et al. Comparison of warm ischemia versus no ischemia during partial nephrectomy on a solitary kidney[J]. Euro Urol, 2010, 58 (3): 331- 336. |
| 45 | Abreu AL , Gill IS , Desai MM . Zero-ischaemia robotic partial nephrectomy (RPN) for hilar tumours[J]. BJU Int, 2011, 108 (6 Pt 2)): 948- 954. |
| 46 | Liu F , Yuan H , Li X , et al. Application of hypothermic perfusion via a renal artery balloon catheter during robot-assisted partial nephrectomy and effect on renal function[J]. Acad Radiol, 2019, 26 (8): e196- e201. |
| 47 | Beri A , Lattouf JB , Deambros O , et al. Partial nephrectomy using renal artery perfusion for cold ischemia: Functional and oncologic outcomes[J]. J Endourol, 2008, 22 (6): 1285- 1290. |
| 48 | Saitz TR , Dorsey PJ , Colli J , et al. Induction of cold ischemia in patients with solitary kidney using retrograde intrarenal cooling: 2-year functional outcomes[J]. Int Urol Nephrol, 2013, 45 (2): 313- 320. |
| 49 | Lee JW , Kim H , Choo M , et al. Different methods of hilar clamping during partial nephrectomy: Impact on renal function[J]. Int J Urol, 2014, 21 (3): 232- 236. |
| 50 | Baitman T , Miroshkina I , Gritskevich A , et al. Extracorporeal partial nephrectomy with orthotopic autotransplantation under pharmaco-cold ischaemia for cancer of a single kidney: A case report[J]. Case Rep Oncol, 2020, 13 (3): 1202- 1208. |
| 51 | Ramirez D , Caputo PA , Krishnan J , et al. Robot-assisted partial nephrectomy with intracorporeal renal hypothermia using ice slush: Step-by-step technique and matched comparison with warm ischaemia[J]. BJU Int, 2016, 117 (3): 531- 536. |
| 52 | Yin X , Jiang S , Shao Z , et al. Kidney ventrally rotation technique in retroperitoneal robot-assisted partial nephrectomy for posterior hilar tumor: Technical feasibility and preliminary results[J]. World J Surg Oncol, 2020, 18 (1): 148. |
| 53 | Liu T , Zhao Z , Feng B , et al. Robotic-assisted laparoscopic tumor enucleation is a feasible technique for renal hilar tumors: A retrospective study[J]. J Surg Oncol, 2021, 124 (1): 135- 142. |
| 54 | Mauri G , Rossi D , Bonomo G , et al. Image-guided thermal ablation of central renal tumors with retrograde cold pyeloperfusion technique: A monocentric experience[J]. Int J Hyperthermia, 2020, 37 (1): 660- 667. |
| 55 | 张崔建, 曹剑哲, 李学松, 等. 切缘环形缝合技术在肾部分切除术中的应用效果[J]. 中华外科杂志, 2015, 53 (11): 852- 855. |
| 56 | Gao Y , Li H , Yao Y , et al. Vessel and tension-free reconstruction during robot-assisted partial nephrectomy for hilar tumors: "Garland" technique and midterm outcomes[J]. J Endourol, 2020, 34 (4): 469- 474. |
/
| 〈 |
|
〉 |