Roboter-assistierte Mikrochirurgie zur autologen
                    Brustrekonstruktion

Wessel, Kai J; Varnava, Charalampos; Wiebringhaus, Philipp; Hiort, Mirkka; Hirsch, Tobias; Kückelhaus, Maximilian

doi:10.1055/a-2241-5737

Handchir Mikrochir Plast Chir

2024

DOI: 10.1055/a-2241-5737

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Roboter-assistierte Mikrochirurgie zur autologen Brustrekonstruktion

Kai J Wessel,

Charalampos Varnava,

Philipp Wiebringhaus

et al.

Abstract: Zusammenfassung Hintergrund Durch die Einführung neuartiger Operationsroboter und Operationsmikroskope für die speziellen Bedürfnisse der offenen Mikrochirurgie gewinnt das Konzept der robotisch-assistierten Mikrochirurgie zunehmend an Popularität. Während initiale präklinische Studien auf eine steile Lernkurve, vorteilhafte Ergonomie und verbesserte Präzision bei jedoch verlängerter Operationszeit hin… Show more

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2024

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Cited by 2 publications

References 26 publications

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Ideal suturing technique for robot-assisted microsurgical anastomoses

Wessel,

Wendenburg,

Varnava

et al. 2024

J Robotic Surg

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The development of novel robotic devices specifically designed for open microsurgery leads to increasing applications in reconstructive procedures. While initial studies revealed improved precision and surgical ergonomics upon robotic assistance, surgical time was consistently observed to be increased. This study compares two robotic suturing techniques using the Symani Surgical System and RoboticScope in a preclinical setting, to further leverage the benefits of novel robotic devices in microsurgery. Six experienced microsurgeons performed three microvascular anastomoses with a “steady-thread” suturing technique and a “switch-thread” technique on 1.0-mm-diameter artificial silicone vessels. Time for anastomosis and participant’s satisfaction with the techniques and robotic setup were recorded. Anastomosis quality and microsurgical skills were assessed using the Anastomosis Lapse Index and Structured Assessment of Microsurgery Skills. Lastly, technical error messages and thread ruptures were quantified. Knot tying was significantly faster and evaluated significantly better by participants using the steady-thread technique (4.11 ± 0.85 vs. 6.40 ± 1.83 min per anastomosis). Moreover, microsurgical skills were rated significantly better using this technique, while both techniques consistently led to high levels of anastomosis quality (2.61 ± 1.21 vs. 3.0 ± 1.29 errors per anastomosis). In contrast, the switch-thread technique was associated with more technical error messages in total (14 vs. 12) and twice as many unintended thread ruptures per anastomosis (1.0 ± 0.88 vs. 0.5 ± 0.69). This study provides evidence for the enhanced performance of a steady-thread suturing technique, which is suggested to be applied upon robot-assisted microsurgical procedures for optimized efficiency.

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Ideal suturing technique for robot-assisted microsurgical anastomoses

Wessel,

Wendenburg,

Varnava

et al. 2024

J Robotic Surg

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Expanding Applications and Future of Robotic Microsurgery

Wessel,

Dahmann,

Kueckelhaus

2024

Journal of Craniofacial Surgery

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Robotic-assisted microsurgery has emerged as a transformative technology, offering enhanced precision for complex procedures across various fields, including lymphatic surgery, breast reconstruction, trauma, and neurosurgery. This paper reviews current advancements, applications, and potential future directions for robotic-assisted microsurgery. In lymphatic surgery, robotic systems such as Symani have improved precision in thoracic duct reconstruction and lymphatic vessel anastomoses, reducing morbidity despite longer surgery times. In breast reconstruction, robotic systems are being used to refine techniques like the miraDIEP approach, minimizing tissue damage and enhancing precision in individualized treatments. Trauma reconstruction, particularly for extremities, has also benefited from robotic assistance, enabling successful sutures in small vessels and nerves. Emerging applications in meningeal lymphatics show potential for treating neurodegenerative diseases through improved drainage. In neurosurgery, robots enhance precision in deep and narrow anatomic spaces, although advancements in specialized instruments are needed for full implementation. Future development of robotic microsurgery systems will focus on improved maneuverability, miniaturization, and integration of tools like augmented reality and haptic feedback. The goal is to combine robotic precision, data storage, and processing with human skills such as judgment and flexibility. Although robots are unlikely to replace surgeons, they are poised to play an increasingly significant role in enhancing surgical outcomes. As the technology evolves, further research and clinical trials are needed to refine robotic systems and validate their expanding applications in clinical practice.

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Roboter-assistierte Mikrochirurgie zur autologen Brustrekonstruktion

Cited by 2 publications

References 26 publications

Ideal suturing technique for robot-assisted microsurgical anastomoses

Ideal suturing technique for robot-assisted microsurgical anastomoses

Expanding Applications and Future of Robotic Microsurgery

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