Intelligent Surgeon's Arm Supporting System iArmS in Microscopic Neurosurgery Utilizing Robotic Technology |
Goto et al.2121 Goto T, Hongo K, Ogiwara T, et al. Intelligent Surgeon’s Arm Supporting System iArmS in Microscopic Neurosurgery Utilizing Robotic Technology. World Neurosurg 2018;119:e661-e665 (2018) |
Prospective observational study |
Microneurosurgery |
30 Years of Neurosurgical Robots: Review and Trends for Manipulators and Associated Navigational Systems |
Smith et al.2222 Smith JA, Jivraj J, Wong R, Yang V. 30 Years of Neurosurgical Robots: Review and Trends for Manipulators and Associated Navigational Systems. Ann Biomed Eng 2016;44(04):836-846 (2016) |
Literature review |
Neurosurgery |
Robotics in Neurosurgery: Evolution, Current Challenges, and Compromises |
Doulgeris et al.4343 Doulgeris JJ, Gonzalez-Blohm SA, Filis AK, Shea TM, Aghayev K, Vrionis FD. Robotics in Neurosurgery: Evolution, Current Challenges, and Compromises. Cancer Contr 2015;22(03):352-359 (2015) |
Literature review |
Neurosurgery |
Validation of robot-assisted vasectomy reversal |
Kavoussi2424 Kavoussi PK. Validation of robot-assisted vasectomy reversal. Asian J Androl 2015;17(02):245-247 (2015) |
Prospective interventional study |
Vasectomy reversal |
Robotic Surgery for Male Infertility |
Darves-Bornoz et al.2525 Darves-Bornoz A, Panken E, Brannigan RE, Halpern JA. Robotic Surgery for Male Infertility. Urol Clin North Am 2021;48(01):127-135 (2021) |
Literature review |
Surgery for male infertility |
First-in-human study of the safety and viability of intraocular robotic surgery |
Edwards et al.2626 Edwards TL, Xue K, Meenink HCM, et al. First-in-human study of the safety and viability of intraocular robotic surgery. Nat Biomed Eng 2018;2:649-656 (2018) |
Randomized clinical trial |
Intraocular retinal membrane removal surgery |
Robot-assisted tremor control for performance enhancement of retinal microsurgeons |
Roizenblatt et al.2323 Roizenblatt M, Grupenmacher AT, Belfort Junior R, Maia M, Gehlbach PL. Robot-assisted tremor control for performance enhancement of retinal microsurgeons. Br J Ophthalmol 2019;103(08):1195-1200 (2019) |
Literature review |
Eye surgery |
Robotically Assisted Pterygium Surgery: First Human Case |
Bourcier et al.2727 Bourcier T, Chammas J, Becmeur PH, et al. Robotically Assisted Pterygium Surgery: First Human Case. Cornea 2015;34(10):1329-1330 (2015) |
Case report |
Pterygium removal |
Robotic approach to hepatobiliary surgery |
Gonzalez-Ciccarelli et al.2828 Gonzalez-Ciccarelli LF, Quadri P, Daskalaki D, Milone L, Gangemi A, Giulianotti PC. Robotic approach to hepatobiliary surgery. Chirurg 2017;88(Suppl 1):19-28 (2017) |
Systematic review |
Hepatobiliary surgery |
Endoscopic treatment of idiopathic subglottic stenosis with digital AcuBlade robotic microsurgery system |
Fiorelli et al.3030 Fiorelli A, Mazzone S, Costa G, Santini M. Endoscopic treatment of idiopathic subglottic stenosis with digital AcuBlade robotic microsurgery system. Clin Respir J 2018;12(02):802-805 (2018) |
Case report and review |
Subglottic stenosis treatment |
Improved Glottic Exposure for Robotic Microlaryngeal Surgery: A Case Series |
McGuire et al.3939 McGuire DA, Rodney JP, Vasan NR. Improved Glottic Exposure for Robotic Microlaryngeal Surgery: A Case Series. J Voice 2017;31(05):628-633 (2017) |
Case series |
Robotic microlaryngeal surgery |
Robotic microlaryngeal phonosurgery: Testing of a “steady-hand” microsurgery platform |
Akst et al.3838 Akst LM, Olds KC, Balicki M, Chalasani P, Taylor RH. Robotic microlaryngeal phonosurgery: Testing of a “steady-hand” microsurgery platform. Laryngoscope 2018;128(01):126-132 (2018) |
Randomized clinical trial |
Microlaryngeal phonosurgery |
The role of transoral robotic surgery, transoral laser microsurgery, and lingual tonsillectomy in the identification of head and neck squamous cell carcinoma of unknown primary origin: a systematic review |
Fu et al.3131 Fu TS, Foreman A, Goldstein DP, de Almeida JR. The role of transoral robotic surgery, transoral laser microsurgery, and lingual tonsillectomy in the identification of head and neck squamous cell carcinoma of unknown primary origin: a systematic review. J Otolaryngol Head Neck Surg 2016;45(01):28 (2016) |
Systematic review |
Transoral robotic surgery |
Is robotic surgery an option for early T-Stage laryngeal cancer? Early nationwide results |
Hanna et al.3737 Hanna J, Brauer PR, Morse E, Judson B,Mehra S. Is robotic surgery an option for early T-stage laryngeal cancer? Early nationwide results. Laryngoscope 2020;130(05):1195-1201 (2020) |
Retrospective observational study |
Early T-stage laryngeal cancer |
Transoral robotic surgery in head neck cancer management |
Kwong et al.3232 Kwong FN, Puvanendran M, Paleri V. Transoral robotic surgery in head neck cancer management. B-ENT 2015(Suppl 24):7-13 (2015) |
Review |
Transoral robotic surgery |
Systematic Review of Validated Quality of Life and Swallow Outcomes after Transoral Robotic Surgery |
Castellano and Sharma3434 Castellano A, Sharma A. Systematic Review of Validated Quality of Life and Swallow Outcomes after Transoral Robotic Surgery. Otolaryngol Head Neck Surg 2019;161(04):561-567 (2019) |
Systematic review |
Transoral robotic surgery |
Clinical Value of transoral robotic surgery: Nationwide results from the first 5 years of adoption |
Li et al.3636 Li H, Torabi SJ, Park HS, et al. Clinical value of transoral robotic surgery: Nationwide results from the first 5 years of adoption. Laryngoscope 2019;129(08):1844-1855 (2019) |
Retrospective observational study |
Transoral robotic surgery, transoral laser microsurgery and non-robotic surgery |
First-in-human robotic supermicrosurgery using a dedicated microsurgical robot for treating breast cancer-related lymphedema: a randomized pilot trial |
Van Mulken et al.4242 van Mulken TJM, Schols RM, Scharmga AMJ, et al; MicroSurgical Robot Research Group. First-in-human robotic supermicrosurgery using a dedicated microsurgical robot for treating breast cancer-related lymphedema: a randomized pilot trial. Nat Commun 2020;11(01):757 (2020) |
Randomized pilot study |
Robotic and non-robotic lymphatic venous anastomosis in lymphedema |
Decision management in transoral robotic surgery: Indications, Individual patient selection, and role in the multidisciplinary treatment for head and neck cancer from a European perspective |
Lörincz et al.3333 Lörincz BB, Jowett N, Knecht R. Decision management in transoral robotic surgery: Indications, individual patient selection, and role in themultidisciplinary treatment for head and neck cancer from a European perspective. Head Neck 2016;38(Suppl 1): E2190-E2196 (2016) |
Literature review |
Transoral robotic surgery |
Robot-Assisted Reconstruction in Head and Neck Surgical Oncology: The Evolving Role of the Reconstructive Microsurgeon |
Chalmers et al.3535 Chalmers R, Schlabe J, Yeung E, Kerawala C, Cascarini L, Paleri V. Robot-Assisted Reconstruction in Head and Neck Surgical Oncology: The Evolving Role of the Reconstructive Microsurgeon. ORL J Otorhinolaryngol Relat Spec 2018;80(3-4):178-185 (2018) |
Retrospective observational study |
Transoral robotic surgery |
The Role of Virtual Surgical Planning in the Era of Robotic Surgery |
Kim et al.4040 Kim JY, Kim WS, Choi EC, Nam W. The Role of Virtual Surgical Planning in the Era of Robotic Surgery. YonseiMed J 2016;57(01):265-268 (2016) |
Case report |
Mandibulectomy and mandibular reconstruction |
Plastic and reconstructive robotic microsurgery—a review of current practices |
Saleh et al.22 Saleh DB, Syed M, Kulendren D, Ramakrishnan V, Liverneaux PA. Plastic and reconstructive robotic microsurgery-a review of current practices. Ann Chir Plast Esthet 2015;60(04):305-312 (2015) |
Systematic review |
Plastic and reconstructive surgery |
Review on Otological Robotic Systems: Toward Micro-Robot Assisted Cholesteatoma Surgery |
Dahroug et al.4141 Dahroug B, Tamadazte B, Weber S, Tavernier L, Andreff N. Review on Otological Robotic Systems: Toward Microrobot- Assisted Cholesteatoma Surgery. IEEE Rev Biomed Eng 2018;11:125-142 (2018) |
Literature review |
Cholesteatoma surgery |
New Frontiers in Robotic-Assisted Microsurgical Reconstruction |
Ibrahim et al.33 Ibrahim AE, Sarhane KA, Selber JC. New Frontiers in Robotic- Assisted Microsurgical Reconstruction. Clin Plast Surg 2017;44(02):415-423 (2017) |
Literature review |
Clinical applications: neurosurgery, ophthalmic, otologic, microvascular, microneural, and lymphedema surgeries, and vasectomy reversal |
Robotic-assisted deep inferior epigastric artery perforator flap abdominal harvest for breast reconstruction: A case report |
Gundlapalli et al.2929 Gundlapalli VS, Ogunleye AA, Scott K, et al. Robotic-assisted deep inferior epigastric artery perforator flap abdominal harvest for breast reconstruction: A case report. Microsurgery 2018;38(06):702-705 (2018) |
Case report |
Da Vinci robot in mastectomy |