Cedeño Cedeño YM, Pazmiño Chancay MJ, D’Ilio Gil HDV, Aguirre Tello AE (2022) Cirugía robótica, la transición de la cirugía en la actualidad. Reciamuc 6(2):269–279
Balaguer-Castro M, Torner P, Jornet-Gibert M, Martínez-Pastor JC (2023) [Translated article] Current situation of robotics in knee prosthetic surgery: a technology that has come to stay? Revista espanola de cirugia ortopedica y traumatologia 67(4):T334–T341
Blanco Verdu MD, Bada Bosch I, Soto BC (2025) Literature review of pediatric robotic surgery in Spain. Embase 38(1):1–6
Parra PDV, Barajas JDP, Ambrosi RAM, Duarte JR (2017) Reemplazo parcial de rodilla mediante el sistema robótico NAVIO: resultados clínicos postquirúrgicos evaluados mediante Knee injury Osteoarthritis Outcome Score. Revista Chilena de Ortopedia y Traumatología 58(01):007–012
Toledano Trincado M, Bellido-Luque J, Álvarez Gallego M (2024) Robotic surgery as a driver of surgical digitalization. Cirugía Española (English Edition) 102:S16–S22
Beyaz S (2020) A brief history of artificial intelligence and robotic surgery in orthopedics & traumatology and future expectations. Joint Diseases Relat Surg 31(3):653
Negrín R, Duboy J, Iñiguez M, Reyes N (2019) Cirugía robótica en artroplastia de rodilla/Robotic surgery in knee arthroplasty. Portal Reg BVS 60(2):67–76
Kayani B, Konan S, Tahmassebi J, Rowan FE, Haddad FS (2019) An assessment of early functional rehabilitation and hospital discharge in conventional versus robotic-arm assisted unicompartmental knee arthroplasty: a prospective cohort study. Bone Joint J 101(1):24–33
JANET P, Pawlowska E, Cantero P (2024) Efectividad y seguridad de la cirugía ortopédica robótica para realizar artroplastias de rodilla y cadera. RUNA [Internet]. Available from: https://runa.sergas.gal/xmlui/handle/20.500.11940/19181
Rodríguez L, Arévalo J, Carvajal W, González M (2023) Importancia de los estudios bibliométricos en las ciencias médicas aplicadas al deporte en Cuba. InfoMED [Internet]. Mar 27;17(1). Available from: https://revmedep.sld.cu/index.php/medep/article/view/530
Aria M, Cuccurullo C (2017) bibliometrix: an R-tool for comprehensive science mapping analysis. J Inf 11(4):959–975
Weng R, Lin DX, Song YK, Guo HW, Zhang WS, He XM, Wei QS (2023) Bibliometric and visualized analysis of research relating to minimally invasive spine surgery reported over the period 2000–2022. Digital Health 9:20552076231173560
PubMed PubMed Central Google Scholar
Birkle C, Pendlebury D, Schnell J, Adams J (2020) Web of Science as a data source for research on scientific and scholarly activity. MIT Press Direct 1(1):363–376
Rojas I, Mio-Rodriguez EF, Visconti-Lopez FJ (2025) The impact of 3D printing in orthopedics and traumatology: mapping the research landscape through bibliometrics and visualized analysis. J Orthop 1(66):179–187
Musbahi A, Rao C, Immanuel A (2022) A bibliometric analysis of robotic surgery from 2001 to 2021. World J Surg 46(6):1314–1324
CAS PubMed PubMed Central Google Scholar
Jackson SR, Patel MI (2019) Robotic surgery research in urology: a bibliometric analysis of field and top 100 articles. J Endourol 33(5):389–395
Lu H, Han T, Li F, Yang J, Hou Z (2022) Global trends and hotspots in research of robotic surgery in oncology: a bibliometric and visual analysis from 2002 to 2021. Frontiers Oncol 12:1055118
Anish K Ponna, Alec M Giakas, Anthony A Khoudary, Ahmed Siddiqi (2025) Advancements in Robotic Orthopaedic Surgery: A Current Concept. Surgicoll [Internet]. 22;3(1). Available from: https://surgicoll.scholasticahq.com/article/132487-advancements-in-robotic-orthopaedic-surgery-a-current-concept?utm_source=
Sheetz KH, Claflin J, Dimick JB (2020) Trends in the adoption of robotic surgery for common surgical procedures. JAMA Netw Open 3(1):e1918911–e1918911
PubMed PubMed Central Google Scholar
Royal National Orthopaedic Hospital. Royal National Orthopaedic Hospital. [cited 2025 Jun 24]. Mr Babar Kayani. Available from: https://www.rnoh.nhs.uk/health-professionals/consultants/mr-babar-kayani
Mahmoud RH, Lizardi JJ, Weinerman J, Vanden Berge DJ, Constantinescu DS, Yakkanti R (2022) Characteristics and trends of the most cited papers in robotic assisted arthroplasty. J Orthopaedics 34:40–48
Li C, Wang L, Perka C, Trampuz A (2021) Clinical application of robotic orthopedic surgery: a bibliometric study. BMC Musculoskelet Disord 22(1):968
PubMed PubMed Central Google Scholar
Wei M, Wang W, Zhuang Y (2016) Worldwide research productivity in the field of spine surgery: a 10-year bibliometric analysis. Eur Spine J 25(4):976–982
The Journal of Arthroplasty [Internet]. 2024 [cited 2025 Jun 25]. Aims and Scope. Available from: https://www.arthroplastyjournal.org/content/aims
Wiley Online Library [Internet]. 2025 [cited 2025 Jun 25]. Knee Surgery, Sports Traumatology, Arthroscopy. Available from: https://esskajournals.onlinelibrary.wiley.com/journal/14337347
Sharma M, Sarin A, Gupta P, Sachdeva S, Desai AV (2014) Journal impact factor: its use, significance and limitations. World J Nucl Med 13(2):146
PubMed PubMed Central Google Scholar
Guo X, Wang D, Li J, Zhang H (2023) Global research status and trends in orthopaedic surgical robotics: a bibliometric and visualisation analysis study. J Robot Surg 17(4):1743–1756
Zárate B, Cruz A, García C, Rosales L, Alpízar A, Reyes A (2022) Estudio bibliométrico de las publicaciones en cirugía de columna en México. Acta Ortopédica Mex 36(4):234–241
Falola AF, Dada OS, Adeyeye A, Ezebialu CO, Fadairo RT, Okere MO, Ndong A (2024) Analyzing the emergence of surgical robotics in Africa: a scoping review of pioneering procedures, platforms utilized, and outcome meta-analysis. J Min Invasive Surg 27(3):142
The World Bank. The World Bank- Data. [cited 2025 Jun 24]. Research and development expenditure (% of GDP). Available from: https://data.worldbank.org
UNESCO Institute for Statistics (UIS). UNESCO Institute for Statistics (UIS) – UNESCO. 2024 [cited 2025 Jun 24]. Research and development spending. Available from: http://www.uis.unesco.org/_LAYOUTS/UNESCO/research-and-development-spending/index-en.html
Larenas HF, Acuna AB, Lopez M, Segovia S (2025) Hacia el futuro de la cirugía: Análisis descriptivo de la implementación del primer centro de cirugía robótica en un hospital público nacional. Embase 77(1):12–20
Liow MHL, Goh GSH, Wong MK, Chin PL, Tay DKJ, Yeo SJ (2017) Robotic-assisted total knee arthroplasty may lead to improvement in quality-of-life measures: a 2-year follow-up of a prospective randomized trial. Knee Surg Sports Traumatol Arthrosc Off J ESSKA 25(9):2942–2951
Ghasem A, Sharma A, Greif DN, Alam M, Maaieh MA (2018) The arrival of robotics in spine surgery: a review of the literature. Spine 43(23):1670–1677
Oussedik S, Abdel MP, Victor J, Pagnano MW, Haddad FS (2020) Alignment in total knee arthroplasty. Bone Jt J. 102(3):276–279
Zhang H, Bai X, Wang H, Zhu Z, Li X (2023) Learning curve analysis of robotic-assisted total knee arthroplasty with a Chinese surgical system. J Orthop Surg 18(1):900
Singh A, Kotzur T, Peng L, Emukah C, Buttacavoli F, Moore C (2024) Robot-assisted total hip arthroplasty is associated with an increased risk of periprosthetic fracture. J Arthroplasty 39(9S2):S353–S358
Perez R, Calvo J (2025) Cirugía ortopédica digital: beneficios y desafíos de la realidad extendida y la computación espacialDigital orthopaedic surgery: Benefits and challenges of extended reality and spatial computing. ScienceDirect 69(2):107–109
Nayar SK, Dein EJ, Bernard JA, Zikria BA, Spiker AM (2018) Basic science research trends in orthopedic surgery: an analysis of the top 100 cited articles. HSS J 14(3):333–337
PubMed PubMed Central Google Scholar
Hohmann E, Glatt V, Tetsworth K (2018) Orthopaedic academic activity in the united states: bibliometric analysis of publications by City and State. JAAOS Glob Res Rev 2(7):e027
Hui Z, Yi Z, Peng J (2013) Bibliometric analysis of the orthopedic literature. Orthopedics 36(10):e1225–e1232
Hospital for Special Surgery [Internet]. [cited 2025 Jun 24]. Computer Assisted Surgery Center. Available from: https://www.hss.edu/departments/computer-assisted-surgery
Musahl V, Debski R. University of Pittsburgh. [cited 2025 Jun 24]. Orthopaedic Robotics Laboratory. Available from: https://www.orthonet.pitt.edu/research/research-centers-and-labs/robotics-lab
Zheng H, Chen M, Yang D, Shao H, Zhou Y (2024) Robotic-assisted differential total knee arthroplasty with patient-specific implants: surgical techniques and preliminary results. Arthroplasty 6(1):34
PubMed PubMed Central Google Scholar
Batailler C, Caton J, Lustig S (2020) Global perspective of Innovation in hip and knee replacement in 2020. SICOT-J 6:1
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