首页|University College London (UCL) Reports Findings in Microsurgery (Clinical, Prec linical, and Educational Applications of Robotic-Assisted Flap Reconstruction an d Microsurgery: A Systematic Review)
University College London (UCL) Reports Findings in Microsurgery (Clinical, Prec linical, and Educational Applications of Robotic-Assisted Flap Reconstruction an d Microsurgery: A Systematic Review)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning DailyNews Daily News-New research on Surgery - Microsurgery is the subject of a report. According to newsreporting from London, United Kin gdom, by NewsRx journalists, research stated, "Microsurgery and supermicrosurgery allow for highly technical reconstructive surgeries to be performed, with rep airs of anatomicalareas of less than 1 mm. Robotic-assisted surgery might allow for further advances within microsurgery,providing higher precision, accuracy, and scope to operate in previously inaccessible anatomical areas."The news correspondents obtained a quote from the research from University Colle ge London (UCL),"However, robotics is not well-established within this field. W e provide a summary of the clinical andpreclinical uses of robotics within flap reconstruction and microsurgery, educational models, and the barriersto widesp read implementation. A systematic review in accordance with the Preferred Report ing Itemsfor Systematic Reviews and Meta-Analyses was conducted of PubMed, Medl ine, and Embase. Preclinical,educational, and clinical articles were included. One thousand five hundred and forty-two articles werescreened; 87 articles met the inclusion criteria across flap harvest, flap/vessel pedicle dissection, vasc ularanastomosis, and nerve repair. The literature presents several potential be nefits to the surgeon and patientsuch as high cosmetic satisfaction, minimally invasive access with reduced scarring (flap harvest), and lowcomplication rates . Lack of haptic feedback was reported by authors to not impede the ability to p erformvessel anastomosis; however, this required further investigation. A steep learning curve was identified,particularly for microsurgeons embarking upon ro botic-assisted surgery. Robotic-assisted surgery canpotentially enhance microsu rgery and flap reconstruction, with feasibility demonstrated within this review,up to anastomosis of 0.4 mm in diameter. However, there is a lack of sufficient ly powered comparativestudies, required to strengthen this statement."
LondonUnited KingdomEuropeEmerging TechnologiesHealth and MedicineMachine LearningMicrosurgeryOperative Su rgical ProceduresRoboticsRobotsSurgery
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