Lisanne Grünherz scite author profile

Lisanne Grünherz

3Publications

106Citation Statements Received

36Citation Statements Given

How they've been cited

141

How they cite others

Affiliations

University Hospital of Zurich, Novem (Netherlands), Creative Commons

Publications

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Early Experience Using a New Robotic Microsurgical System for Lymphatic Surgery

Lindenblatt

Grünherz

Gousopoulos

et al. 2022

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Summary: Robotic microsurgery has emerged as a new technology with potential benefits for reconstructive surgery. We report the first-in-human use of the Symani surgical system to perform lympho-venous and arterial anastomosis for lymphatic reconstruction. In five patients, 10 robot-assisted anastomoses were performed. Next to lympho-venous anastomoses, two patients received a free vascularized lymph node transfer. Motion scaling was set to 10×. Visualization was either achieved with a 3D system or an optical microscope. All anastomoses were patent as confirmed by ICG. Despite a longer time to perform the first anastomoses with the robot, we observed a decline in duration of anastomosis. Among the advantages of the system were a high accuracy in placing the stitches even in very small and fragile vessels or when performing anastomoses with size mismatches. The challenges encountered included the lack of a touch sensation and the necessity to develop a “see-feel.” This could be achieved surprisingly well because the force necessary to close dilator and needle holder via the manipulators was perceived as comparable to using conventional micro instruments. Our data confirm feasibility and safety of the robotic system to perform lymphatic surgery. Larger patient cohorts and inclusion of surgeons at different training levels will be necessary to investigate the true potential of robotics in microsurgery. In addition, robot-assisted surgery shows a promising potential in opening up new frontiers in reconstructive microsurgery (eg, the reliable performance of anastomoses on even smaller blood and lymphatic vessels or on structures deeper within the body cavities—eg, the thoracic duct).

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Exploring the learning curve of a new robotic microsurgical system for microsurgery

Barbon

Grünherz²,

Uyulmaz³

et al. 2022

JPRAS Open

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A Distinct Cytokine Profile and Stromal Vascular Fraction Metabolic Status without Significant Changes in the Lipid Composition Characterizes Lipedema

Wolf

Deuel

Hollmén

et al. 2021

IJMS

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Lipedema is an adipose tissue disorder characterized by the disproportionate increase of subcutaneous fat tissue in the lower and/or upper extremities. The underlying pathomechanism remains unclear and no molecular biomarkers to distinguish the disease exist, leading to a large number of undiagnosed and misdiagnosed patients. To unravel the distinct molecular characteristic of lipedema we performed lipidomic analysis of the adipose tissue and serum of lipedema versus anatomically- and body mass index (BMI)-matched control patients. Both tissue groups showed no significant changes regarding lipid composition. As hyperplastic adipose tissue represents low-grade inflammation, the potential systemic effects on circulating cytokines were evaluated in lipedema and control patients using the Multiplex immunoassay system. Interestingly, increased systemic levels of interleukin 11 (p = 0.03), interleukin 28A (p = 0.04) and interleukin 29 (p = 0.04) were observed. As cytokines can influence metabolic activity, the metabolic phenotype of the stromal vascular fraction was examined, revealing significantly increased mitochondrial respiration in lipedema. In conclusion, despite sharing a comparable lipid profile with healthy adipose tissue, lipedema is characterized by a distinct systemic cytokine profile and metabolic activity of the stromal vascular fraction.

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