Zusammenfassung
Analog zu den viszeralchirurgischen Operationen kann die roboterassistierte Thoraxchirurgie (RATS) die bestehenden Limitationen der videoassistierten thorakoskopischen Chirurgie (VATS) überwinden. Die RATS in Deutschland kann auf eine mittlerweile lange Tradition zurückblicken. Bereits 2003 erfolgte die erste dokumentierte robotische Thymektomie (Rückert et al. 2008) und ist seitdem zum Standardverfahren geworden, mit einer Expertise von mehreren hundert Eingriffen an einem deutschen Zentrum (Ismail et al. 2013). International begann diese Entwicklung deutlich früher, bereits 2002 wurde die erste Fallserie der roboterassistierten Lungenresektionen mit Lymphadenektomie von einer italienischen Arbeitsgruppe dokumentiert (Melfi et al. 2002).
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Literatur
Arnold BN, Thomas DC, Narayan R, Blasberg JD, Detterbeck FC, Boffa DJ, Kim AW (2018) Robotic-assisted lobectomies in the national cancer database. J Am Coll Surg 226(6):1052–1062.e15
Bedetti B, Bertolaccini L, Solli P, Scarci M (2017) Learning curve and established phase for uniportal VATS lobectomies: the Papworth experience. J Thorac Dis 9(1):138–142
Boffa DJ, Kosinski AS, Paul S, Mitchell JD, Onaitis M (2012) Lymph node evaluation by open or video-assisted approaches in 11,500 anatomic lung cancer resections. Ann Thorac Surg 94(2):347–353
Brunelli A, Kim AW, Berger KI, Addrizzo-Harris DJ (2013) Physiologic evaluation of the patient with lung cancer being considered for resectional surgery: diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 143(5 Suppl):e166S–e190S
Cerfolio RJ (2016) Robotic sleeve lobectomy: technical details and early results. J Thorac Dis 8(Suppl 2):S223–S226
Cheufou DH, Mardanzai K, Ploenes T, Theegarten D, Stamatis G, Kampe S, Aigner C (2018) Effectiveness of robotic lobectomy – outcome and learning curve in a high volume center. Thorac Cardiovasc Surg 67(7):573–577
Colice GL, Shafazand S, Griffin JP, Keenan R, Bolliger CT, American College of Chest Physicians (2007) Physiologic evaluation of the patient with lung cancer being considered for resectional surgery: ACCP evidenced-based clinical practice guidelines (2nd edition). Chest 132(3 Suppl):161S–177S
Dumans-Nizard V, Guezennec J, Parquin F, Puyo P, Sage E, Abdat R, Vaillant V et al (2016) Feasibility and results of a fast-track protocol in thoracic surgery. Minerva Anestesiol 82(1):15–21
Egberts JH, Möller T, Hajduch S, Hofmann HS, Krüger I, Limmer S, Rückert JC, Steinert M (2018b) Stand der roboter-assistierten Thoraxchirurgie (RATS) 2017 in Deutschland. In: Zentralblatt für Chirurgie – Zeitschrift für Allgemeine, Viszeral-, Thorax- und Gefäßchirurgie, 143:V 213. Georg Thieme, Verlag KG Stuttgart
Egberts J-H, Möller T, Becker T (2018a) Robotic-assisted sleeve lobectomy using the four-arm technique in the DaVinci Si® and Xi® systems. Thorac Cardiovasc Surg 67(7):603–605
Glenn Z, Zubair M, Hussain L, Grannan K (2019) Comparison of pulmonary lobectomies using robotic and video-assisted thoracoscopic approaches: results from 2010 – 2013 National inpatient sample. J Cardiovasc Surg 60(4):526–531
Gonzalez-Rivas D, Paradela M, Fernandez R, Delgado M, Fieira E, Mendez L, Velasco C, de la Torre M (2013) Uniportal video-assisted thoracoscopic lobectomy: two years of experience. Ann Thorac Surg 95(2):426–432
Gopaldas RR, Bakaeen FG, Dao TK, Walsh GL, Swisher SG, Chu D (2010) Video-assisted thoracoscopic versus open thoracotomy lobectomy in a Cohort of 13,619 patients. Ann Thorac Surg 89(5):1563–1570
Hennon M, Landreneau RJ (2018) Role of segmentectomy in treatment of early-stage non–small cell lung cancer. Ann Surg Oncol 25(1):59–63
Ismail M, Swierzy M, Rückert JC (2013) State of the art of robotic thymectomy. World J Surg 37(12):2740–2746
Licht PB, Jørgensen OD, Ladegaard L, Jakobsen E (2013) A national study of nodal upstaging after thoracoscopic versus open lobectomy for clinical stage I lung cancer. Ann Thorac Surg 96(3):943–950
Louie BE, Wilson JL, Kim S, Cerfolio RJ, Park BJ, Farivar AS, Vallières E, Aye RW, Burfeind WR, Block MI (2016) Comparison of video-assisted thoracoscopic surgery and robotic approaches for clinical stage I and stage II non-small cell lung cancer using the society of thoracic surgeons database. Ann Thorac Surg 102(3):917–924
Meccariello G, Faedi F, AlGhamdi S, Montevecchi F, Firinu E, Zanotti C, Cavaliere D et al (2016) An experimental study about haptic feedback in robotic surgery: may visual feedback substitute tactile feedback? J Robot Surg 10(1):57–61
Melfi FMA, Menconi GF, Mariani AM, Angeletti CA (2002) Early experience with robotic technology for thoracoscopic surgery. Eur J Cardiothorac Surg 21(5):864–868
Möller T, Becker T, Egberts J-H (2019) Präkonditionierung von Lunge und Kreislauf vor viszeral- oder thoraxchirurgischen Eingriffen. Chirurg 90(5):529–536
Refai M, Andolfi M, Gentili P, Pelusi G, Manzotti F, Sabbatini A (2018) Enhanced recovery after thoracic surgery: patient information and care-plans. J Thorac Dis 10(Suppl 4):S512–S516
Rückert JC, Ismail M, Swierzy M, Sobel H, Rogalla P, Meisel A, Wernecke KD, Rückert RI, Müller JM (2008) Thoracoscopic thymectomy with the da Vinci robotic system for myasthenia gravis. Ann N Y Acad Sci 1132(1):329–335
Santoro E, Pansadoro V (2013) Robotic surgery in Italy national survey (2011). Updat Surg 65(1):1–9
Swanson SJ, Herndon JE, D’Amico TA, Demmy TL, McKenna RJ, Green MR, Sugarbaker DJ (2007) Video-assisted thoracic surgery lobectomy: report of CALGB 39802 – a prospective, multi-institution feasibility study. J Clin Oncol 25(31):4993–4997
Toker A, Özyurtkan MO, Kaba E, Ayalp K, Demirhan Ö, Uyumaz E (2016) Robotic anatomic lung resections: the initial experience and description of learning in 102 cases. Surg Endosc 30(2):676–683
Wei S, Chen M, Chen N, Liu L (2017) Feasibility and safety of robot-assisted thoracic surgery for lung lobectomy in patients with non-small cell lung cancer: a systematic review and meta-analysis. World J Surg Oncol 15(1):98
Wilson JL, Louie BE, Cerfolio RJ, Park BJ, Vallières E, Aye RW, Abdel-Razek A, Bryant A, Farivar AS (2014) The prevalence of nodal upstaging during robotic lung resection in early stage non-small cell lung cancer. Ann Thorac Surg 97(6):1901–1906. discussion 1906–1907
Win T, Laroche CM, Groves AM, White C, Wells FC, Ritchie AJ, Tasker AD (2004) Use of quantitative lung scintigraphy to predict postoperative pulmonary function in lung cancer patients undergoing lobectomy. Ann Thorac Surg 78(4):1215–1218
Yang H-X, Woo KM, Sima CS, Bains MS, Adusumilli PS, Huang J, Finley DJ et al (2017) Long-term survival based on the surgical approach to lobectomy for clinical stage I nonsmall cell lung cancer: comparison of robotic, video-assisted thoracic surgery, and thoracotomy lobectomy. Ann Surg 265(2):431–437
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Möller, T., Egberts, JH. (2021). Operationen an der Lunge. In: Hackert, T., Croner, R.S. (eds) Roboterassistierte Viszeral- und Thoraxchirurgie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-60457-1_11
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