[1]Àî¾ýÓí ½ðÕÑ¢Ù ×ÛÊö ÁõÖÒ¾ü ÓÚíµ* ÉóУ.¼¹Öù΢´´Íâ¿ÆЭ×÷»úÆ÷È˼¼ÊõµÄÁÙ´²Ó¦Óü°Õ¹Íû[J].Öйú΢´´Íâ¿ÆÔÓÖ¾,2020,01(8):734-738.

µã»÷¸´ÖÆ

¼¹Öù΢´´Íâ¿ÆЭ×÷»úÆ÷È˼¼ÊõµÄÁÙ´²Ó¦Óü°Õ¹Íû()

·ÖÏíµ½£º

²Î¿¼ÎÄÏ×/References:

[1]Madhavan K, Kolcun JPG, Chieng LO, et al. Augmentedª²reality integrated robotics in neurosurgery: Are we there yet?Neurosurg Focus,2017,42(5):1-9.
[2]º«Ó¦³¬,Ì·¾ü.»úÆ÷ÈËÔÚ¼¹ÖùÍâ¿ÆÊÖÊõÖеÄÑо¿½øÕ¹.Öйú½ÃÐÎÍâ¿ÆÔÓÖ¾,2012,20(20):1861-1864.
[3]D¡¯Souza M, Gendreau J, Feng A, et al. Roboticª²assisted spine surgery: History, efficacy, cost, and futuretrends. Robot Surg Res Rev,2019,6:9.
[4]Van Dijk JD, Van Den Ende RPJ, Stramigioli S, et al. Clinical pedicle screw accuracy and deviation from planning in robotª²guided spine surgery: Robotª²guided pedicle screw accuracy. Spine (Phila Pa 1976),2015,40(17):E986-E991.
[5]Pechlivanis I, Kiriyanthan G, Engelhardt M, et al. Percutaneous placement of pedicle screws in the lumbar spine using a bone mounted miniature robotic system: First experiences and accuracy of screw placement. Spine (Phila Pa 1976),2009,34(4):392-398.
[6]Solomiichuk V, Fleischhammer J, Molliqaj G, et al. Robotic versus fluoroscopyª²guided pedicle screw insertion for metastatic spinal disease: A matchedª²cohort comparison. Neurosurg Focus,2017,42(5):1-7.
[7]Fiani B, Quadri SA, Farooqui M, et al. Impact of robotª²assisted spine surgery on health care quality and neurosurgical economics: A systemic review. Neurosurg Rev,2020,43(1):17-25.
[8]Kantelhardt SR, Martinez R, Baerwinkel S, et al.Perioperative course and accuracy of screw positioning in conventional, open roboticª²guided and percutaneous roboticª²guided, pedicle screw placement.Eur Spine J,2011,20(6):860-868.
[9]Hyun SJ, Kim KJ, Jahng TA, et al. Minimally invasive robotic versus open fluoroscopicª²guided spinal instrumented fusions. Spine (Phila Pa 1976),2017,42(6):353-358.
[10]Keric N, Doenitz C, Haj A, et al. Evaluation of robotª²guided minimally invasive implantation of 2067 pedicle screws. Neurosurg Focus,2017,42(5):1-8.
[11]Joseph JR, Smith BW, Liu X, et al. Current applications of robotics in spine surgery: a systematic review of the literature. Neurosurg Focus,2017,42(5):E2.
[12]Hu X, Scharschmidt TJ, Ohnmeiss DD, et al. Robotic assisted surgeries for the treatment of spine tumors. Int J Spine Surg,2015,9:1.
[13]Macke JJ, Woo R, Varich L. Accuracy of robotª²assisted pedicle screw placement for adolescent idiopathic scoliosis in the pediatric population. J Robot Surg,2016,10(2):145-150.
[14]Hyun SJ, Kim KJ, Jahng TA. S2 alar iliac screw placement under robotic guidance for adult spinal deformity patients: technical note. Eur Spine J,2017,26(8):2198-2203.
[15]Kam JKT, Gan C, Dimou S, et al. Learning curve for robotª²assisted percutaneous pedicle screw placement in thoracolumbar surgery.Asian Spine J,2019,13(6):920-927.
[16]Staub BN, Sadrameli SS. The use of robotics in minimally invasive spine surgery. J Spine Surg,2019,5(Suppl 1):S31.
[17]º«Ïþ¹â,ÁõÑǾü,·¶Ã÷ÐÇ,µÈ.¹Ç¿ÆÊÖÊõ»úÆ÷È˼¼Êõ·¢Õ¹¼°ÁÙ´²Ó¦ÓÃ.¿Æ¼¼µ¼±¨,2017,35(10):19-25.
[18]Lefranc M, Peltier J. Accuracy of thoracolumbar transpedicular and vertebral body percutaneous screw placement: coupling the Rosa¡k Spine robot with intraoperative flatª²panel CT guidance-a cadaver study. J Robot Surg,2015,9(4):331-338.
[19]Lefranc M, Peltier J. Evaluation of the ROSATM Spine robot for minimally invasive surgical procedures. Expert Rev Med Devices,2016,13(10):899-906.
[20]Spyrantis A, Cattani A, Seifert V, et al. Minimally invasive percutaneous robotic thoracolumbar pedicle screw implantation combined with threeª²dimensional fluoroscopy can reduce radiation: A cadaver and phantom study. Int J Med Robot Comput Assist Surg,2019,15(5):1-7.
[21]Zygourakis CC, Ahmed AK, Kalb S, et al. Technique: open lumbar decompression and fusion with the Excelsius GPS robot. Neurosurg Focus,2018,45(Video Suppl 1):V6.
[22]Wallace DJ, Vardiman AB, Booher GA, et al. Navigated robotic assistance improves pedicle screw accuracy in minimally invasive surgery of the lumbosacral spine: 600 pedicle screws in a single institution. Int J Med Robot,2020,16(1):e2054.
[23]Wu XB, Wang JQ, Sun X, et al. Guidance for the treatment of femoral neck fracture with precise minimally invasive internal fixation based on the Orthopaedic Surgery Robot Positioning System. Orthop Surg, 2019,11(3):335-340.
[24]Kim H, Jung W, Chang B, et al. A prospective, randomized, controlled trial of robotª²assisted vs freehand pedicle screw fixation in spine surgery. Int J Med Robot Comput Assist Surg,2017,13(3):e1779.
[25]Tian W. Robotª²assisted posterior C1-2 transarticular screw fixation for atlantoaxial instability: a case report. Spine (Phila Pa 1976),2018,41:B2-B5.
[26]Tian W, Zhang Q, Han XG, et al. Robotª²assisted direct repair of spondylolysis: A case report. Medicine (Baltimore),2020,99(4):e18944.
[27]Tian W, Wang H, Liu YJ. Robotª²assisted anterior odontoid screw fixation: A case report. Orthop Surg,2016,8(3):400-404.
[28]Long T, Li KN, Gao JH, et al. Comparative study of percutaneous sacroiliac screw with or without TiRobot assistance for treating pelvic posterior ring fractures. Orthop Surg,2019,11(3):386-396.
[29]Troude L, Boissonneau S, Malikov S, et al.Robotª²assisted multiª²level anterior lumbar interbody fusion: an anatomical study. Acta Neurochir (Wien),2018,160(10):1891-1898.
[30]Beutler WJ, Peppelman WC, Dimarco LA. The da vinci robotic surgical assisted anterior lumbar interbody fusion: Technical development and case report. Spine (Phila Pa 1976),2013,38(4):356-363.
[31]Lee Z, Lee JY, Welch WC, et al. Technique and surgical outcomes of robotª²assisted anterior lumbar interbody fusion. J Robot Surg,2013,7(2):177-185.
[32]Trybula SJ, Oyon DE, Wolinsky JP. Robotic tissue manipulation and resection in spine surgery. Neurosurg Clin N Am,2020,31(1):121-129.
[33]Fan Y, Du JP, Liu JJ, et al. Accuracy of pedicle screw placement comparing robotª²Assisted technology and the freeª²hand with fluoroscopyª²guided method in spine surgery. Med (United States),2018,97(22):1-7.
[34]Li HM, Zhang RJ, Shen CL. Accuracy of pedicle screw placement and clinical outcomes of robotª²assisted technique versus conventional freehand technique in spine surgery from nine randomized controlled trials: A metaª²analysis. Spine (Phila Pa 1976),2020,45(2):E111-E119.
[35]·½¹ú·¼,Îâ×ÓÏé,·®ÓÂ,µÈ.Renaissance ¼¹Öù»úÆ÷È˸¨ÖúÊÖÊõϵͳÔÚ¼¹Öù¼²²¡ÖеÄÓ¦ÓÃ. Öлª´´É˹ǿÆÔÓÖ¾,2017,19(4):299-303.
[36]Yu L, Chen X, Margalit A, et al. Robotª²assisted vs freehand pedicle screw fixation in spine surgeryª²a systematic review and a metaª²analysis of comparative studies. Int J Med Robot Comput Assist Surg,2018,14(3):1-8.
[37]Li HM, Zhang RJ, Shen CL. Accuracy of pedicle screw placement and clinical outcomes of robotª²assisted technique versus conventional freehand technique in spine surgery from nine randomized controlled trials: A metaª²analysis. Spine (Phila Pa 1976),2020,45(2):E111-E119.
[38]³ÂÁú,º£Ó¿,¹ØÁ¢,µÈ.»úÆ÷È˸¨ÖúÖÃÈëÓëͽÊÖÖÃÈë×µ¹­¸ùÂݶ¤µÄ¶Ô±ÈÑо¿.Öйú¹ÇÓë¹Ø½ÚÔÓÖ¾,2017,6(10):730-736.
[39]Lonjon N, Chanª²Seng E, Costalat V, et al. Robotª²assisted spine surgery: feasibility study through a prospective caseª²matched analysis. Eur Spine J,2016,25(3):947-955.
[40]Ringel F, St¨¹er C, Reinke A, et al. Accuracy of robotª²assisted placement of lumbar and sacral pedicle screws: a prospective randomized comparison to conventional freehand screw implantation. Spine (Phila Pa 1976),2012,37(8):E496-E501.
[41]·¶Ã÷ÐÇ,ÕÅçù,ÕÔ¾­Î³,µÈ.»úÆ÷È˸¨Öú¾­Æ¤Î¢´´µ¥½Ú¶ÎÐØÑü×µ¹ÇÕÛÄڹ̶¨ÊõµÄѧϰÇúÏß.Öйú΢´´Íâ¿ÆÔÓÖ¾,2019,19(9):808-811.
[42]Schatlo B, Molliqaj G, Cuvinciuc V, et al. Safety and accuracy of robotª²assisted versus fluoroscopyª²guided pedicle screw insertion for degenerative diseases of the lumbar spine: A matched cohort comparison. J Neurosurg Spine,2014,20(6):636-643.
[43]Keric N, Eum DJ, Afghanyar F, et al. Evaluation of surgical strategy of conventional vs. percutaneous robotª²assisted spinal transª²pedicular instrumentation in spondylodiscitis. J Robot Surg,2017,11(1):17-25.
[44]Alaid A, von Eckardstein K, Smoll NR, et al. Robot guidance for percutaneous minimally invasive placement of pedicle screws for pyogenic spondylodiscitis is associated with lower rates of wound breakdown compared to conventional fluoroscopyª²guided instrumentation. Neurosurg Rev,2018,41(2):489-496.
[45]Fan Y, Du J, Zhang J, et al. Comparison of accuracy of pedicle screw insertion among 4 guided technologies in spine surgery. Med Sci Monit,2017,23:5960-5968.
[46]Zhang Q, Han XG, Xu YF, et al. Robotic navigation during spine surgery. Expert Rev Med Devices,2020,17(1):27-32.
[47]Shademan A, Decker RS, Opfermann JD, et al. Supervised autonomous robotic soft tissue surgery.Sci Transl Med,2016,8(337):337ra64.